#if !UNITY_DOTSRUNTIME using System; using System.Globalization; using System.Threading; using NUnit.Framework; using Unity.Collections; using Unity.Collections.LowLevel.Unsafe; using System.Text; // change this to change the core type under test using FixedStringN = Unity.Collections.FixedString128Bytes; namespace FixedStringTests { [TestFixture("en-US")] [TestFixture("da-DK")] internal class FixedStringCultureTests { CultureInfo testCulture; CultureInfo backupCulture; public FixedStringCultureTests(string culture) { testCulture = CultureInfo.CreateSpecificCulture(culture); } [SetUp] public virtual void Setup() { backupCulture = Thread.CurrentThread.CurrentCulture; Thread.CurrentThread.CurrentCulture = testCulture; } [TearDown] public virtual void TearDown() { Thread.CurrentThread.CurrentCulture = backupCulture; } [TestCase("red", 0, 0, ParseError.Syntax)] [TestCase("-red", 0, 0, ParseError.Syntax)] [TestCase("+red", 0, 0, ParseError.Syntax)] [TestCase("0", 1, 0, ParseError.None)] [TestCase("+0", 2, 0, ParseError.None)] [TestCase("-0", 2, 0, ParseError.None)] [TestCase("-1", 2, -1, ParseError.None)] [TestCase("100", 3, 100, ParseError.None)] [TestCase("+100", 4, 100, ParseError.None)] [TestCase("-100", 4, -100, ParseError.None)] [TestCase("100.50", 3, 100, ParseError.None)] [TestCase("-100ab", 4, -100, ParseError.None)] [TestCase("2147483647", 10, 2147483647, ParseError.None)] [TestCase("+2147483647", 11, 2147483647, ParseError.None)] [TestCase("-2147483648", 11, -2147483648, ParseError.None)] [TestCase("2147483648", 10, 0, ParseError.Overflow)] [TestCase("-2147483649", 11, 0, ParseError.Overflow)] [TestCase("2147483648000", 13, 0, ParseError.Overflow)] [TestCase("-2147483649000", 14, 0, ParseError.Overflow)] public void FixedStringNParseIntWorks(String a, int expectedOffset, int expectedOutput, ParseError expectedResult) { FixedStringN aa = new FixedStringN(a); int offset = 0; int output = 0; var result = aa.Parse(ref offset, ref output); Assert.AreEqual(expectedResult, result); Assert.AreEqual(expectedOffset, offset); if (result == ParseError.None) { Assert.AreEqual(expectedOutput, output); } } [TestCase("red", 0, 0u, ParseError.Syntax)] [TestCase("-red", 0, 0u, ParseError.Syntax)] [TestCase("+red", 0, 0u, ParseError.Syntax)] [TestCase("0", 1, 0u, ParseError.None)] [TestCase("+0", 2, 0u, ParseError.None)] [TestCase("-0", 2, 0u, ParseError.None)] [TestCase("-1", 2, 0u, ParseError.Overflow)] [TestCase("100", 3, 100u, ParseError.None)] [TestCase("+100", 4, 100u, ParseError.None)] [TestCase("-100", 4, 0u, ParseError.Overflow)] [TestCase("100.50", 3, 100u, ParseError.None)] [TestCase("-100.50", 4, 0u, ParseError.Overflow)] [TestCase("100ab", 3, 100u, ParseError.None)] [TestCase("-100ab", 4, 0u, ParseError.Overflow)] [TestCase("2147483647", 10, 2147483647u, ParseError.None)] [TestCase("-2147483648", 11, 0u, ParseError.Overflow)] [TestCase("2147483648", 10, 2147483648u, ParseError.None)] [TestCase("-2147483649", 11, 0u, ParseError.Overflow)] [TestCase("4294967295", 10, 4294967295u, ParseError.None)] [TestCase("+4294967295", 11, 4294967295u, ParseError.None)] [TestCase("4294967296", 10, 0u, ParseError.Overflow)] [TestCase("2147483648000", 13, 0u, ParseError.Overflow)] [TestCase("-2147483649000", 14, 0u, ParseError.Overflow)] public void FixedStringNParseUIntWorks(String a, int expectedOffset, uint expectedOutput, ParseError expectedResult) { FixedStringN aa = new FixedStringN(a); int offset = 0; uint output = 0; var result = aa.Parse(ref offset, ref output); Assert.AreEqual(expectedResult, result); Assert.AreEqual(expectedOffset, offset); if (result == ParseError.None) { Assert.AreEqual(expectedOutput, output); } } [TestCase("red", 0, ParseError.Syntax)] [TestCase("-red", 0, ParseError.Syntax)] [TestCase("+red", 0, ParseError.Syntax)] [TestCase("0", 1, ParseError.None)] [TestCase("-1", 2, ParseError.None)] [TestCase("-0", 2, ParseError.None)] [TestCase("100", 3, ParseError.None)] [TestCase("+100", 4, ParseError.None)] [TestCase("-100", 4, ParseError.None)] [TestCase("100.50", 6, ParseError.None)] [TestCase("2147483648", 10, ParseError.None)] [TestCase("-2147483649", 11, ParseError.None)] [TestCase("-10E10", 6, ParseError.None)] [TestCase("-10E-10", 7, ParseError.None)] [TestCase("-10E+10", 7, ParseError.None)] [TestCase("+10E10", 6, ParseError.None)] [TestCase("+10E-10", 7, ParseError.None)] [TestCase("+10E+10", 7, ParseError.None)] [TestCase("10E-40", 6, ParseError.Underflow)] [TestCase("10E+40", 6, ParseError.Overflow)] // These tests are highly inconsistent among .NET versions. All 6 cases below parse correctly in // .NET 5 however, so once we have updated they should be tried again. //[TestCase("-nan", 4, ParseError.None)] //[TestCase("+nan", 4, ParseError.None)] //[TestCase("nan", 3, ParseError.None)] //[TestCase("-infinity", 9, ParseError.None)] //[TestCase("+infinity", 9, ParseError.None)] //[TestCase("infinity", 8, ParseError.None)] [TestCase("1000001", 7, ParseError.None)] [TestCase("10000001", 8, ParseError.None)] [TestCase("100000001", 9, ParseError.None)] [TestCase("1000000001", 10, ParseError.None)] [TestCase("10000000001", 11, ParseError.None)] [TestCase("100000000001", 12, ParseError.None)] public void FixedStringNParseFloat(String unlocalizedString, int expectedOffset, ParseError expectedResult) { var localizedDecimalSeparator = Convert.ToChar(Thread.CurrentThread.CurrentCulture.NumberFormat.NumberDecimalSeparator); var localizedString = unlocalizedString.Replace('.', localizedDecimalSeparator); float expectedOutput = 0; try { expectedOutput = Single.Parse(localizedString); } catch {} FixedStringN nativeLocalizedString = new FixedStringN(localizedString); int offset = 0; float output = 0; var result = nativeLocalizedString.Parse(ref offset, ref output, localizedDecimalSeparator); Assert.AreEqual(expectedResult, result); Assert.AreEqual(expectedOffset, offset); if (result == ParseError.None) { Assert.AreEqual(expectedOutput, output); } } // While .NET 5 supports all combinations and capitalizations of "nan", "-nan", and "+nan", // the implementation in Unity currently only supports "NaN" specifically [Test] public void FixedStringNParseFloatNan() { FixedStringN aa = new FixedStringN("NaN"); int offset = 0; float output = 0; var result = aa.Parse(ref offset, ref output); Assert.AreEqual(ParseError.None, result); Assert.IsTrue(Single.IsNaN(output)); } // While .NET 5 supports all combinations and capitalizations of "infinity", "-infinity", and "+infinity", // the mono implementation in Unity currently only supports "Infinity" and "-Infinity" specifically // (not even "+Infinity") [Test] public void FixedStringNParseFloatInfinity() { FixedStringN aa = new FixedStringN("Infinity"); int offset = 0; float output = 0; var result = aa.Parse(ref offset, ref output); Assert.AreEqual(ParseError.None, result); Assert.IsTrue(Single.IsPositiveInfinity(output)); } [Test] public void FixedStringNParseFloatNegativeInfinity() { FixedStringN aa = new FixedStringN("-Infinity"); int offset = 0; float output = 0; var result = aa.Parse(ref offset, ref output); Assert.AreEqual(ParseError.None, result); Assert.IsTrue(Single.IsNegativeInfinity(output)); } [TestCase(-2147483648)] [TestCase(-100)] [TestCase(-1)] [TestCase(0)] [TestCase(1)] [TestCase(100)] [TestCase(2147483647)] public void FixedStringNFormatInt(int input) { var expectedOutput = input.ToString(); FixedStringN aa = new FixedStringN(); var result = aa.Append(input); Assert.AreEqual(FormatError.None, result); var actualOutput = aa.ToString(); Assert.AreEqual(expectedOutput, actualOutput); } [TestCase(-9223372036854775808L)] [TestCase(-100L)] [TestCase(-1L)] [TestCase(0L)] [TestCase(1L)] [TestCase(100L)] [TestCase(9223372036854775807L)] public void FixedStringNFormatLong(long input) { var expectedOutput = input.ToString(); FixedStringN aa = new FixedStringN(); var result = aa.Append(input); Assert.AreEqual(FormatError.None, result); var actualOutput = aa.ToString(); Assert.AreEqual(expectedOutput, actualOutput); } [TestCase(0U)] [TestCase(1U)] [TestCase(100U)] [TestCase(4294967295U)] public void FixedStringNFormatUInt(uint input) { var expectedOutput = input.ToString(); FixedStringN aa = new FixedStringN(); var result = aa.Append(input); Assert.AreEqual(FormatError.None, result); var actualOutput = aa.ToString(); Assert.AreEqual(expectedOutput, actualOutput); } [TestCase(0UL)] [TestCase(1UL)] [TestCase(100UL)] [TestCase(18446744073709551615UL)] public void FixedStringNFormatULong(ulong input) { var expectedOutput = input.ToString(); FixedStringN aa = new FixedStringN(); var result = aa.Append(input); Assert.AreEqual(FormatError.None, result); var actualOutput = aa.ToString(); Assert.AreEqual(expectedOutput, actualOutput); } [TestCase(Single.NaN, FormatError.None)] [TestCase(Single.PositiveInfinity, FormatError.None)] [TestCase(Single.NegativeInfinity, FormatError.None)] [TestCase(0.0f, FormatError.None)] [TestCase(-1.0f, FormatError.None)] [TestCase(100.0f, FormatError.None)] [TestCase(-100.0f, FormatError.None)] [TestCase(100.5f, FormatError.None)] [TestCase(0.001005f, FormatError.None)] [TestCase(0.0001f, FormatError.None)] [TestCase(0.00001f, FormatError.None)] [TestCase(0.000001f, FormatError.None)] [TestCase(-1E10f, FormatError.None)] [TestCase(-1E-10f, FormatError.None)] [TestCase(3.402823E+38f, FormatError.None)] public void FixedStringNFormatFloat(float input, FormatError expectedResult) { var localizedDecimalSeparator = Convert.ToChar(Thread.CurrentThread.CurrentCulture.NumberFormat.NumberDecimalSeparator); var expectedOutput = input.ToString(); FixedStringN aa = new FixedStringN(); var result = aa.Append(input, localizedDecimalSeparator); Assert.AreEqual(expectedResult, result); if (result == FormatError.None) { var actualOutput = aa.ToString(); Assert.AreEqual(expectedOutput, actualOutput); } } [TestCase(-2147483648)] [TestCase(-100)] [TestCase(-1)] [TestCase(0)] [TestCase(1)] [TestCase(100)] [TestCase(2147483647)] public void FixedStringNAppendInt(int input) { var expectedOutput = "foo" + input.ToString(); FixedStringN aa = "foo"; var result = aa.Append(input); Assert.AreEqual(FormatError.None, result); var actualOutput = aa.ToString(); Assert.AreEqual(expectedOutput, actualOutput); } [TestCase(-9223372036854775808L)] [TestCase(-100L)] [TestCase(-1L)] [TestCase(0L)] [TestCase(1L)] [TestCase(100L)] [TestCase(9223372036854775807L)] public void FixedStringNAppendLong(long input) { var expectedOutput = "foo" + input.ToString(); FixedStringN aa = "foo"; var result = aa.Append(input); Assert.AreEqual(FormatError.None, result); var actualOutput = aa.ToString(); Assert.AreEqual(expectedOutput, actualOutput); } [TestCase(0U)] [TestCase(1U)] [TestCase(100U)] [TestCase(4294967295U)] public void FixedStringNAppendUInt(uint input) { var expectedOutput = "foo" + input.ToString(); FixedStringN aa = "foo"; var result = aa.Append(input); Assert.AreEqual(FormatError.None, result); var actualOutput = aa.ToString(); Assert.AreEqual(expectedOutput, actualOutput); } [TestCase(0UL)] [TestCase(1UL)] [TestCase(100UL)] [TestCase(18446744073709551615UL)] public void FixedStringNAppendULong(ulong input) { var expectedOutput = "foo" + input.ToString(); FixedStringN aa = "foo"; var result = aa.Append(input); Assert.AreEqual(FormatError.None, result); var actualOutput = aa.ToString(); Assert.AreEqual(expectedOutput, actualOutput); } [TestCase(Single.NaN, FormatError.None)] [TestCase(Single.PositiveInfinity, FormatError.None)] [TestCase(Single.NegativeInfinity, FormatError.None)] [TestCase(0.0f, FormatError.None)] [TestCase(-1.0f, FormatError.None)] [TestCase(100.0f, FormatError.None)] [TestCase(-100.0f, FormatError.None)] [TestCase(100.5f, FormatError.None)] [TestCase(0.001005f, FormatError.None)] [TestCase(0.0001f, FormatError.None)] [TestCase(0.00001f, FormatError.None)] [TestCase(0.000001f, FormatError.None)] [TestCase(-1E10f, FormatError.None)] [TestCase(-1E-10f, FormatError.None)] public void FixedStringNAppendFloat(float input, FormatError expectedResult) { var localizedDecimalSeparator = Convert.ToChar(Thread.CurrentThread.CurrentCulture.NumberFormat.NumberDecimalSeparator); var expectedOutput = "foo" + input.ToString(); FixedStringN aa = "foo"; var result = aa.Append(input, localizedDecimalSeparator); Assert.AreEqual(expectedResult, result); if (result == FormatError.None) { var actualOutput = aa.ToString(); Assert.AreEqual(expectedOutput, actualOutput); } } [Test] public void FixedStringNFormatNegativeZero() { float input = -0.0f; var expectedOutput = input.ToString(CultureInfo.InvariantCulture); FixedStringN aa = new FixedStringN(); var result = aa.Append(input); Assert.AreEqual(FormatError.None, result); var actualOutput = aa.ToString(); Assert.AreEqual(expectedOutput, actualOutput); } [TestCase("en-US")] [TestCase("da-DK")] public void FixedStringNParseFloatLocale(String locale) { var original = CultureInfo.CurrentCulture; try { Thread.CurrentThread.CurrentCulture = new CultureInfo(locale); var localizedDecimalSeparator = Convert.ToChar(Thread.CurrentThread.CurrentCulture.NumberFormat.NumberDecimalSeparator); float value = 1.5f; FixedStringN native = new FixedStringN(); native.Append(value, localizedDecimalSeparator); var nativeResult = native.ToString(); var managedResult = value.ToString(); Assert.AreEqual(managedResult, nativeResult); } finally { Thread.CurrentThread.CurrentCulture = original; } } } } #endif