#region Copyright notice and license // Protocol Buffers - Google's data interchange format // Copyright 2015 Google Inc. All rights reserved. // https://developers.google.com/protocol-buffers/ // // Redistribution and use in source and binary forms, with or without // modification, are permitted provided that the following conditions are // met: // // * Redistributions of source code must retain the above copyright // notice, this list of conditions and the following disclaimer. // * Redistributions in binary form must reproduce the above // copyright notice, this list of conditions and the following disclaimer // in the documentation and/or other materials provided with the // distribution. // * Neither the name of Google Inc. nor the names of its // contributors may be used to endorse or promote products derived from // this software without specific prior written permission. // // THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS // "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT // LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR // A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT // OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, // SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT // LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, // DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY // THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT // (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE // OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. #endregion using System; using System.Collections; using System.Collections.Generic; using System.IO; using System.Linq; using System.Text; using Google.Protobuf.TestProtos; using Google.Protobuf.WellKnownTypes; using NUnit.Framework; namespace Google.Protobuf.Collections { public class RepeatedFieldTest { [Test] public void NullValuesRejected() { var list = new RepeatedField(); Assert.Throws(() => list.Add((string)null)); Assert.Throws(() => list.Add((IEnumerable)null)); Assert.Throws(() => list.Add((RepeatedField)null)); Assert.Throws(() => list.Contains(null)); Assert.Throws(() => list.IndexOf(null)); } [Test] public void Add_SingleItem() { var list = new RepeatedField(); list.Add("foo"); Assert.AreEqual(1, list.Count); Assert.AreEqual("foo", list[0]); } [Test] public void Add_Sequence() { var list = new RepeatedField(); list.Add(new[] { "foo", "bar" }); Assert.AreEqual(2, list.Count); Assert.AreEqual("foo", list[0]); Assert.AreEqual("bar", list[1]); } [Test] public void AddRange_SlowPath() { var list = new RepeatedField(); list.AddRange(new[] { "foo", "bar" }.Select(x => x)); Assert.AreEqual(2, list.Count); Assert.AreEqual("foo", list[0]); Assert.AreEqual("bar", list[1]); } [Test] public void AddRange_SlowPath_NullsProhibited_ReferenceType() { var list = new RepeatedField(); // It's okay for this to throw ArgumentNullException if necessary. // It's not ideal, but not awful. Assert.Catch(() => list.AddRange(new[] { "foo", null }.Select(x => x))); } [Test] public void AddRange_SlowPath_NullsProhibited_NullableValueType() { var list = new RepeatedField(); // It's okay for this to throw ArgumentNullException if necessary. // It's not ideal, but not awful. Assert.Catch(() => list.AddRange(new[] { 20, (int?)null }.Select(x => x))); } [Test] public void AddRange_Optimized_NonNullableValueType() { var list = new RepeatedField(); list.AddRange(new List { 20, 30 }); Assert.AreEqual(2, list.Count); Assert.AreEqual(20, list[0]); Assert.AreEqual(30, list[1]); } [Test] public void AddRange_Optimized_ReferenceType() { var list = new RepeatedField(); list.AddRange(new List { "foo", "bar" }); Assert.AreEqual(2, list.Count); Assert.AreEqual("foo", list[0]); Assert.AreEqual("bar", list[1]); } [Test] public void AddRange_Optimized_NullableValueType() { var list = new RepeatedField(); list.AddRange(new List { 20, 30 }); Assert.AreEqual(2, list.Count); Assert.AreEqual((int?) 20, list[0]); Assert.AreEqual((int?) 30, list[1]); } [Test] public void AddRange_Optimized_NullsProhibited_ReferenceType() { // We don't just trust that a collection with a nullable element type doesn't contain nulls var list = new RepeatedField(); // It's okay for this to throw ArgumentNullException if necessary. // It's not ideal, but not awful. Assert.Catch(() => list.AddRange(new List { "foo", null })); } [Test] public void AddRange_Optimized_NullsProhibited_NullableValueType() { // We don't just trust that a collection with a nullable element type doesn't contain nulls var list = new RepeatedField(); // It's okay for this to throw ArgumentNullException if necessary. // It's not ideal, but not awful. Assert.Catch(() => list.AddRange(new List { 20, null })); } [Test] public void AddRange_AlreadyNotEmpty() { var list = new RepeatedField { 1, 2, 3 }; list.AddRange(new List { 4, 5, 6 }); CollectionAssert.AreEqual(new[] { 1, 2, 3, 4, 5, 6 }, list); } [Test] public void AddRange_RepeatedField() { var list = new RepeatedField { "original" }; list.AddRange(new RepeatedField { "foo", "bar" }); Assert.AreEqual(3, list.Count); Assert.AreEqual("original", list[0]); Assert.AreEqual("foo", list[1]); Assert.AreEqual("bar", list[2]); } [Test] public void RemoveAt_Valid() { var list = new RepeatedField { "first", "second", "third" }; list.RemoveAt(1); CollectionAssert.AreEqual(new[] { "first", "third" }, list); // Just check that these don't throw... list.RemoveAt(list.Count - 1); // Now the count will be 1... list.RemoveAt(0); Assert.AreEqual(0, list.Count); } [Test] public void RemoveAt_Invalid() { var list = new RepeatedField { "first", "second", "third" }; Assert.Throws(() => list.RemoveAt(-1)); Assert.Throws(() => list.RemoveAt(3)); } [Test] public void Insert_Valid() { var list = new RepeatedField { "first", "second" }; list.Insert(1, "middle"); CollectionAssert.AreEqual(new[] { "first", "middle", "second" }, list); list.Insert(3, "end"); CollectionAssert.AreEqual(new[] { "first", "middle", "second", "end" }, list); list.Insert(0, "start"); CollectionAssert.AreEqual(new[] { "start", "first", "middle", "second", "end" }, list); } [Test] public void Insert_Invalid() { var list = new RepeatedField { "first", "second" }; Assert.Throws(() => list.Insert(-1, "foo")); Assert.Throws(() => list.Insert(3, "foo")); Assert.Throws(() => list.Insert(0, null)); } [Test] public void Equals_RepeatedField() { var list = new RepeatedField { "first", "second" }; Assert.IsFalse(list.Equals((RepeatedField) null)); Assert.IsTrue(list.Equals(list)); Assert.IsFalse(list.Equals(new RepeatedField { "first", "third" })); Assert.IsFalse(list.Equals(new RepeatedField { "first" })); Assert.IsTrue(list.Equals(new RepeatedField { "first", "second" })); } [Test] public void Equals_Object() { var list = new RepeatedField { "first", "second" }; Assert.IsFalse(list.Equals((object) null)); Assert.IsTrue(list.Equals((object) list)); Assert.IsFalse(list.Equals((object) new RepeatedField { "first", "third" })); Assert.IsFalse(list.Equals((object) new RepeatedField { "first" })); Assert.IsTrue(list.Equals((object) new RepeatedField { "first", "second" })); Assert.IsFalse(list.Equals(new object())); } [Test] public void GetEnumerator_GenericInterface() { IEnumerable list = new RepeatedField { "first", "second" }; // Select gets rid of the optimizations in ToList... CollectionAssert.AreEqual(new[] { "first", "second" }, list.Select(x => x).ToList()); } [Test] public void GetEnumerator_NonGenericInterface() { IEnumerable list = new RepeatedField { "first", "second" }; CollectionAssert.AreEqual(new[] { "first", "second" }, list.Cast().ToList()); } [Test] public void CopyTo() { var list = new RepeatedField { "first", "second" }; string[] stringArray = new string[4]; list.CopyTo(stringArray, 1); CollectionAssert.AreEqual(new[] { null, "first", "second", null }, stringArray); } [Test] public void Indexer_Get() { var list = new RepeatedField { "first", "second" }; Assert.AreEqual("first", list[0]); Assert.AreEqual("second", list[1]); Assert.Throws(() => list[-1].GetHashCode()); Assert.Throws(() => list[2].GetHashCode()); } [Test] public void Indexer_Set() { var list = new RepeatedField { "first", "second" }; list[0] = "changed"; Assert.AreEqual("changed", list[0]); Assert.Throws(() => list[0] = null); Assert.Throws(() => list[-1] = "bad"); Assert.Throws(() => list[2] = "bad"); } [Test] public void Clone_ReturnsMutable() { var list = new RepeatedField { 0 }; var clone = list.Clone(); clone[0] = 1; } [Test] public void Enumerator() { var list = new RepeatedField { "first", "second" }; using (var enumerator = list.GetEnumerator()) { Assert.IsTrue(enumerator.MoveNext()); Assert.AreEqual("first", enumerator.Current); Assert.IsTrue(enumerator.MoveNext()); Assert.AreEqual("second", enumerator.Current); Assert.IsFalse(enumerator.MoveNext()); Assert.IsFalse(enumerator.MoveNext()); } } [Test] public void AddEntriesFrom_PackedInt32() { uint packedTag = WireFormat.MakeTag(10, WireFormat.WireType.LengthDelimited); var stream = new MemoryStream(); var output = new CodedOutputStream(stream); var length = CodedOutputStream.ComputeInt32Size(10) + CodedOutputStream.ComputeInt32Size(999) + CodedOutputStream.ComputeInt32Size(-1000); output.WriteTag(packedTag); output.WriteRawVarint32((uint) length); output.WriteInt32(10); output.WriteInt32(999); output.WriteInt32(-1000); output.Flush(); stream.Position = 0; // Deliberately "expecting" a non-packed tag, but we detect that the data is // actually packed. uint nonPackedTag = WireFormat.MakeTag(10, WireFormat.WireType.LengthDelimited); var field = new RepeatedField(); var input = new CodedInputStream(stream); input.AssertNextTag(packedTag); field.AddEntriesFrom(input, FieldCodec.ForInt32(nonPackedTag)); CollectionAssert.AreEqual(new[] { 10, 999, -1000 }, field); Assert.IsTrue(input.IsAtEnd); } [Test] public void AddEntriesFrom_NonPackedInt32() { uint nonPackedTag = WireFormat.MakeTag(10, WireFormat.WireType.Varint); var stream = new MemoryStream(); var output = new CodedOutputStream(stream); output.WriteTag(nonPackedTag); output.WriteInt32(10); output.WriteTag(nonPackedTag); output.WriteInt32(999); output.WriteTag(nonPackedTag); output.WriteInt32(-1000); // Just for variety... output.Flush(); stream.Position = 0; // Deliberately "expecting" a packed tag, but we detect that the data is // actually not packed. uint packedTag = WireFormat.MakeTag(10, WireFormat.WireType.LengthDelimited); var field = new RepeatedField(); var input = new CodedInputStream(stream); input.AssertNextTag(nonPackedTag); field.AddEntriesFrom(input, FieldCodec.ForInt32(packedTag)); CollectionAssert.AreEqual(new[] { 10, 999, -1000 }, field); Assert.IsTrue(input.IsAtEnd); } [Test] public void AddEntriesFrom_String() { uint tag = WireFormat.MakeTag(10, WireFormat.WireType.LengthDelimited); var stream = new MemoryStream(); var output = new CodedOutputStream(stream); output.WriteTag(tag); output.WriteString("Foo"); output.WriteTag(tag); output.WriteString(""); output.WriteTag(tag); output.WriteString("Bar"); output.Flush(); stream.Position = 0; var field = new RepeatedField(); var input = new CodedInputStream(stream); input.AssertNextTag(tag); field.AddEntriesFrom(input, FieldCodec.ForString(tag)); CollectionAssert.AreEqual(new[] { "Foo", "", "Bar" }, field); Assert.IsTrue(input.IsAtEnd); } [Test] public void AddEntriesFrom_Message() { var message1 = new ForeignMessage { C = 2000 }; var message2 = new ForeignMessage { C = -250 }; uint tag = WireFormat.MakeTag(10, WireFormat.WireType.LengthDelimited); var stream = new MemoryStream(); var output = new CodedOutputStream(stream); output.WriteTag(tag); output.WriteMessage(message1); output.WriteTag(tag); output.WriteMessage(message2); output.Flush(); stream.Position = 0; var field = new RepeatedField(); var input = new CodedInputStream(stream); input.AssertNextTag(tag); field.AddEntriesFrom(input, FieldCodec.ForMessage(tag, ForeignMessage.Parser)); CollectionAssert.AreEqual(new[] { message1, message2}, field); Assert.IsTrue(input.IsAtEnd); } [Test] public void WriteTo_PackedInt32() { uint tag = WireFormat.MakeTag(10, WireFormat.WireType.LengthDelimited); var field = new RepeatedField { 10, 1000, 1000000 }; var stream = new MemoryStream(); var output = new CodedOutputStream(stream); field.WriteTo(output, FieldCodec.ForInt32(tag)); output.Flush(); stream.Position = 0; var input = new CodedInputStream(stream); input.AssertNextTag(tag); var length = input.ReadLength(); Assert.AreEqual(10, input.ReadInt32()); Assert.AreEqual(1000, input.ReadInt32()); Assert.AreEqual(1000000, input.ReadInt32()); Assert.IsTrue(input.IsAtEnd); Assert.AreEqual(1 + CodedOutputStream.ComputeLengthSize(length) + length, stream.Length); } [Test] public void WriteTo_NonPackedInt32() { uint tag = WireFormat.MakeTag(10, WireFormat.WireType.Varint); var field = new RepeatedField { 10, 1000, 1000000}; var stream = new MemoryStream(); var output = new CodedOutputStream(stream); field.WriteTo(output, FieldCodec.ForInt32(tag)); output.Flush(); stream.Position = 0; var input = new CodedInputStream(stream); input.AssertNextTag(tag); Assert.AreEqual(10, input.ReadInt32()); input.AssertNextTag(tag); Assert.AreEqual(1000, input.ReadInt32()); input.AssertNextTag(tag); Assert.AreEqual(1000000, input.ReadInt32()); Assert.IsTrue(input.IsAtEnd); } [Test] public void WriteTo_String() { uint tag = WireFormat.MakeTag(10, WireFormat.WireType.LengthDelimited); var field = new RepeatedField { "Foo", "", "Bar" }; var stream = new MemoryStream(); var output = new CodedOutputStream(stream); field.WriteTo(output, FieldCodec.ForString(tag)); output.Flush(); stream.Position = 0; var input = new CodedInputStream(stream); input.AssertNextTag(tag); Assert.AreEqual("Foo", input.ReadString()); input.AssertNextTag(tag); Assert.AreEqual("", input.ReadString()); input.AssertNextTag(tag); Assert.AreEqual("Bar", input.ReadString()); Assert.IsTrue(input.IsAtEnd); } [Test] public void WriteTo_Message() { var message1 = new ForeignMessage { C = 20 }; var message2 = new ForeignMessage { C = 25 }; uint tag = WireFormat.MakeTag(10, WireFormat.WireType.LengthDelimited); var field = new RepeatedField { message1, message2 }; var stream = new MemoryStream(); var output = new CodedOutputStream(stream); field.WriteTo(output, FieldCodec.ForMessage(tag, ForeignMessage.Parser)); output.Flush(); stream.Position = 0; var input = new CodedInputStream(stream); input.AssertNextTag(tag); Assert.AreEqual(message1, input.ReadMessage(ForeignMessage.Parser)); input.AssertNextTag(tag); Assert.AreEqual(message2, input.ReadMessage(ForeignMessage.Parser)); Assert.IsTrue(input.IsAtEnd); } [Test] public void CalculateSize_VariableSizeNonPacked() { var list = new RepeatedField { 1, 500, 1 }; var tag = WireFormat.MakeTag(1, WireFormat.WireType.Varint); // 2 bytes for the first entry, 3 bytes for the second, 2 bytes for the third Assert.AreEqual(7, list.CalculateSize(FieldCodec.ForInt32(tag))); } [Test] public void CalculateSize_FixedSizeNonPacked() { var list = new RepeatedField { 1, 500, 1 }; var tag = WireFormat.MakeTag(1, WireFormat.WireType.Fixed32); // 5 bytes for the each entry Assert.AreEqual(15, list.CalculateSize(FieldCodec.ForSFixed32(tag))); } [Test] public void CalculateSize_VariableSizePacked() { var list = new RepeatedField { 1, 500, 1}; var tag = WireFormat.MakeTag(1, WireFormat.WireType.LengthDelimited); // 1 byte for the tag, 1 byte for the length, // 1 byte for the first entry, 2 bytes for the second, 1 byte for the third Assert.AreEqual(6, list.CalculateSize(FieldCodec.ForInt32(tag))); } [Test] public void CalculateSize_FixedSizePacked() { var list = new RepeatedField { 1, 500, 1 }; var tag = WireFormat.MakeTag(1, WireFormat.WireType.LengthDelimited); // 1 byte for the tag, 1 byte for the length, 4 bytes per entry Assert.AreEqual(14, list.CalculateSize(FieldCodec.ForSFixed32(tag))); } [Test] public void TestNegativeEnumArray() { int arraySize = 1 + 1 + (11 * 5); int msgSize = arraySize; byte[] bytes = new byte[msgSize]; CodedOutputStream output = new CodedOutputStream(bytes); uint tag = WireFormat.MakeTag(8, WireFormat.WireType.Varint); for (int i = 0; i >= -5; i--) { output.WriteTag(tag); output.WriteEnum(i); } Assert.AreEqual(0, output.SpaceLeft); CodedInputStream input = new CodedInputStream(bytes); tag = input.ReadTag(); RepeatedField values = new RepeatedField(); values.AddEntriesFrom(input, FieldCodec.ForEnum(tag, x => (int)x, x => (SampleEnum)x)); Assert.AreEqual(6, values.Count); Assert.AreEqual(SampleEnum.None, values[0]); Assert.AreEqual(((SampleEnum)(-1)), values[1]); Assert.AreEqual(SampleEnum.NegativeValue, values[2]); Assert.AreEqual(((SampleEnum)(-3)), values[3]); Assert.AreEqual(((SampleEnum)(-4)), values[4]); Assert.AreEqual(((SampleEnum)(-5)), values[5]); } [Test] public void TestNegativeEnumPackedArray() { int arraySize = 1 + (10 * 5); int msgSize = 1 + 1 + arraySize; byte[] bytes = new byte[msgSize]; CodedOutputStream output = new CodedOutputStream(bytes); // Length-delimited to show we want the packed representation uint tag = WireFormat.MakeTag(8, WireFormat.WireType.LengthDelimited); output.WriteTag(tag); int size = 0; for (int i = 0; i >= -5; i--) { size += CodedOutputStream.ComputeEnumSize(i); } output.WriteRawVarint32((uint)size); for (int i = 0; i >= -5; i--) { output.WriteEnum(i); } Assert.AreEqual(0, output.SpaceLeft); CodedInputStream input = new CodedInputStream(bytes); tag = input.ReadTag(); RepeatedField values = new RepeatedField(); values.AddEntriesFrom(input, FieldCodec.ForEnum(tag, x => (int)x, x => (SampleEnum)x)); Assert.AreEqual(6, values.Count); Assert.AreEqual(SampleEnum.None, values[0]); Assert.AreEqual(((SampleEnum)(-1)), values[1]); Assert.AreEqual(SampleEnum.NegativeValue, values[2]); Assert.AreEqual(((SampleEnum)(-3)), values[3]); Assert.AreEqual(((SampleEnum)(-4)), values[4]); Assert.AreEqual(((SampleEnum)(-5)), values[5]); } // Fairly perfunctory tests for the non-generic IList implementation [Test] public void IList_Indexer() { var field = new RepeatedField { "first", "second" }; IList list = field; Assert.AreEqual("first", list[0]); list[1] = "changed"; Assert.AreEqual("changed", field[1]); } [Test] public void IList_Contains() { IList list = new RepeatedField { "first", "second" }; Assert.IsTrue(list.Contains("second")); Assert.IsFalse(list.Contains("third")); Assert.IsFalse(list.Contains(new object())); } [Test] public void IList_Add() { IList list = new RepeatedField { "first", "second" }; list.Add("third"); CollectionAssert.AreEqual(new[] { "first", "second", "third" }, list); } [Test] public void IList_Remove() { IList list = new RepeatedField { "first", "second" }; list.Remove("third"); // No-op, no exception list.Remove(new object()); // No-op, no exception list.Remove("first"); CollectionAssert.AreEqual(new[] { "second" }, list); } [Test] public void IList_IsFixedSize() { var field = new RepeatedField { "first", "second" }; IList list = field; Assert.IsFalse(list.IsFixedSize); } [Test] public void IList_IndexOf() { IList list = new RepeatedField { "first", "second" }; Assert.AreEqual(1, list.IndexOf("second")); Assert.AreEqual(-1, list.IndexOf("third")); Assert.AreEqual(-1, list.IndexOf(new object())); } [Test] public void IList_SyncRoot() { IList list = new RepeatedField { "first", "second" }; Assert.AreSame(list, list.SyncRoot); } [Test] public void IList_CopyTo() { IList list = new RepeatedField { "first", "second" }; string[] stringArray = new string[4]; list.CopyTo(stringArray, 1); CollectionAssert.AreEqual(new[] { null, "first", "second", null }, stringArray); object[] objectArray = new object[4]; list.CopyTo(objectArray, 1); CollectionAssert.AreEqual(new[] { null, "first", "second", null }, objectArray); Assert.Throws(() => list.CopyTo(new StringBuilder[4], 1)); Assert.Throws(() => list.CopyTo(new int[4], 1)); } [Test] public void IList_IsSynchronized() { IList list = new RepeatedField { "first", "second" }; Assert.IsFalse(list.IsSynchronized); } [Test] public void IList_Insert() { IList list = new RepeatedField { "first", "second" }; list.Insert(1, "middle"); CollectionAssert.AreEqual(new[] { "first", "middle", "second" }, list); } [Test] public void ToString_Integers() { var list = new RepeatedField { 5, 10, 20 }; var text = list.ToString(); Assert.AreEqual("[ 5, 10, 20 ]", text); } [Test] public void ToString_Strings() { var list = new RepeatedField { "x", "y", "z" }; var text = list.ToString(); Assert.AreEqual("[ \"x\", \"y\", \"z\" ]", text); } [Test] public void ToString_Messages() { var list = new RepeatedField { new TestAllTypes { SingleDouble = 1.5 }, new TestAllTypes { SingleInt32 = 10 } }; var text = list.ToString(); Assert.AreEqual("[ { \"singleDouble\": 1.5 }, { \"singleInt32\": 10 } ]", text); } [Test] public void ToString_Empty() { var list = new RepeatedField { }; var text = list.ToString(); Assert.AreEqual("[ ]", text); } [Test] public void ToString_InvalidElementType() { var list = new RepeatedField { 15m }; Assert.Throws(() => list.ToString()); } [Test] public void ToString_Timestamp() { var list = new RepeatedField { Timestamp.FromDateTime(new DateTime(2015, 10, 1, 12, 34, 56, DateTimeKind.Utc)) }; var text = list.ToString(); Assert.AreEqual("[ \"2015-10-01T12:34:56Z\" ]", text); } [Test] public void ToString_Struct() { var message = new Struct { Fields = { { "foo", new Value { NumberValue = 20 } } } }; var list = new RepeatedField { message }; var text = list.ToString(); Assert.AreEqual(text, "[ { \"foo\": 20 } ]", message.ToString()); } [Test] public void NaNValuesComparedBitwise() { var list1 = new RepeatedField { SampleNaNs.Regular, SampleNaNs.SignallingFlipped }; var list2 = new RepeatedField { SampleNaNs.Regular, SampleNaNs.PayloadFlipped }; var list3 = new RepeatedField { SampleNaNs.Regular, SampleNaNs.SignallingFlipped }; EqualityTester.AssertInequality(list1, list2); EqualityTester.AssertEquality(list1, list3); Assert.True(list1.Contains(SampleNaNs.SignallingFlipped)); Assert.False(list2.Contains(SampleNaNs.SignallingFlipped)); } } }