#region CPL License /* Nuclex Framework Copyright (C) 2002-2009 Nuclex Development Labs This library is free software; you can redistribute it and/or modify it under the terms of the IBM Common Public License as published by the IBM Corporation; either version 1.0 of the License, or (at your option) any later version. This library is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the IBM Common Public License for more details. You should have received a copy of the IBM Common Public License along with this library */ #endregion #if UNITTEST using System; using System.Collections.Generic; using System.Text; using NUnit.Framework; namespace Nuclex.Support { /// /// Unit test for the helper class to .NET's string builder /// [TestFixture] public class StringBuilderHelperTest { /// /// Verifies that bytes are correctly appended to a string builder /// [Test] public void TestAppendByte() { StringBuilder builder = new StringBuilder(); StringBuilderHelper.Append(builder, (byte)255); Assert.AreEqual("255", builder.ToString()); } /// /// Verifies that a byte with value 0 is correctly appended to a string builder /// [Test] public void TestAppendNullByte() { StringBuilder builder = new StringBuilder(); StringBuilderHelper.Append(builder, (byte)0); Assert.AreEqual("0", builder.ToString()); } /// /// Verifies that a positive integer is correctly appended to a string builder /// [Test] public void TestAppendPositiveInteger() { StringBuilder builder = new StringBuilder(); StringBuilderHelper.Append(builder, 12345); Assert.AreEqual("12345", builder.ToString()); } /// /// Verifies that an integer with value 0 is correctly appended to a string builder /// [Test] public void TestAppendNullInteger() { StringBuilder builder = new StringBuilder(); StringBuilderHelper.Append(builder, 0); Assert.AreEqual("0", builder.ToString()); } /// /// Verifies that a negative integer is correctly appended to a string builder /// [Test] public void TestAppendNegativeInteger() { StringBuilder builder = new StringBuilder(); StringBuilderHelper.Append(builder, -12345); Assert.AreEqual("-12345", builder.ToString()); } /// /// Verifies that a positive long integer is correctly appended to a string builder /// [Test] public void TestAppendPositiveLong() { StringBuilder builder = new StringBuilder(); StringBuilderHelper.Append(builder, 12345L); Assert.AreEqual("12345", builder.ToString()); } /// /// Verifies that a long integer with value 0 is correctly appended to a string builder /// [Test] public void TestAppendNullLong() { StringBuilder builder = new StringBuilder(); StringBuilderHelper.Append(builder, 0L); Assert.AreEqual("0", builder.ToString()); } /// /// Verifies that a negative long integer is correctly appended to a string builder /// [Test] public void TestAppendNegativeLong() { StringBuilder builder = new StringBuilder(); StringBuilderHelper.Append(builder, -12345L); Assert.AreEqual("-12345", builder.ToString()); } /// /// Verifies that negative floating point values are correctly converted /// [Test] public void TestAppendNegativeFloat() { StringBuilder builder = new StringBuilder(); StringBuilderHelper.Append(builder, -32.015625f); Assert.AreEqual("-32.015625", builder.ToString()); } /// /// Verifies that positive floating point values are correctly converted /// [Test] public void TestAppendPositiveFloat() { StringBuilder builder = new StringBuilder(); StringBuilderHelper.Append(builder, 10.0625f); Assert.AreEqual("10.0625", builder.ToString()); } /// /// Verifies that very small floating point values are correctly converted /// [Test] public void TestAppendSmallFloat() { StringBuilder builder = new StringBuilder(); StringBuilderHelper.Append(builder, 0.00390625f); Assert.AreEqual("0.00390625", builder.ToString()); } /// /// Verifies that very large floating point values are correctly converted /// [Test] public void TestAppendHugeFloat() { StringBuilder builder = new StringBuilder(); StringBuilderHelper.Append(builder, 1000000000.0f); Assert.AreEqual("1000000000.0", builder.ToString()); } /// Tests whether the number of decimal places can be restricted [Test] public void TestAppendFloatLimitDecimalPlaces() { StringBuilder builder = new StringBuilder(); StringBuilderHelper.Append(builder, 0.00390625f, 3); Assert.AreEqual("0.003", builder.ToString()); } /// /// Verifies that a float with no decimal places is correctly appended /// [Test] public void TestAppendFloatWithoutDecimalPlaces() { StringBuilder builder = new StringBuilder(); StringBuilderHelper.Append(builder, 0.00390625f, 0); Assert.AreEqual("0", builder.ToString()); // Note: no rounding! } /// /// Verifies the behavior of the helper with unsupported floating point values /// [Test] public void TestAppendOutOfRangeFloat() { StringBuilder builder = new StringBuilder(); Assert.IsFalse(StringBuilderHelper.Append(builder, float.PositiveInfinity)); Assert.IsFalse(StringBuilderHelper.Append(builder, float.NegativeInfinity)); Assert.IsFalse(StringBuilderHelper.Append(builder, float.NaN)); Assert.IsFalse(StringBuilderHelper.Append(builder, 0.000000059604644775390625f)); } /// /// Verifies that negative double precision floating point values are /// correctly converted /// [Test] public void TestAppendNegativeDouble() { StringBuilder builder = new StringBuilder(); StringBuilderHelper.Append(builder, -32.015625); Assert.AreEqual("-32.015625", builder.ToString()); } /// /// Verifies that positive double precision floating point values are /// correctly converted /// [Test] public void TestAppendPositiveDouble() { StringBuilder builder = new StringBuilder(); StringBuilderHelper.Append(builder, 10.0625); Assert.AreEqual("10.0625", builder.ToString()); } /// /// Verifies that very small double precision floating point values are /// correctly converted /// [Test] public void TestAppendSmallDouble() { StringBuilder builder = new StringBuilder(); StringBuilderHelper.Append(builder, 0.00390625); Assert.AreEqual("0.00390625", builder.ToString()); } /// /// Verifies that very large double precision floating point values are /// correctly converted /// [Test] public void TestAppendHugeDouble() { StringBuilder builder = new StringBuilder(); StringBuilderHelper.Append(builder, 1000000000000000000.0); Assert.AreEqual("1000000000000000000.0", builder.ToString()); } /// Tests whether the number of decimal places can be restricted [Test] public void TestAppendDoubleLimitDecimalPlaces() { StringBuilder builder = new StringBuilder(); StringBuilderHelper.Append(builder, 0.00390625, 3); Assert.AreEqual("0.003", builder.ToString()); // Note: no rounding! } /// /// Verifies that a double with no decimal places is correctly appended /// [Test] public void TestAppendDoubleWithoutDecimalPlaces() { StringBuilder builder = new StringBuilder(); StringBuilderHelper.Append(builder, 0.00390625, 0); Assert.AreEqual("0", builder.ToString()); } /// /// Verifies the behavior of the helper with unsupported double precision /// floating point values /// [Test] public void TestAppendOutOfRangeDouble() { StringBuilder builder = new StringBuilder(); Assert.IsFalse(StringBuilderHelper.Append(builder, double.PositiveInfinity)); Assert.IsFalse(StringBuilderHelper.Append(builder, double.NegativeInfinity)); Assert.IsFalse(StringBuilderHelper.Append(builder, double.NaN)); Assert.IsFalse( StringBuilderHelper.Append(builder, 1.1102230246251565404236316680908e-16) ); } /// /// Verifies that the contents of a string builder can be cleared /// [Test] public void TestClear() { StringBuilder builder = new StringBuilder("Hello World"); StringBuilderHelper.Clear(builder); Assert.AreEqual(string.Empty, builder.ToString()); } } } // namespace Nuclex.Support #endif // UNITTEST