#region CPL License /* Nuclex Framework Copyright (C) 2002-2013 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 NUnit.Framework; namespace Nuclex.Support { /// Unit Test for the FloatHelper class [TestFixture] internal class FloatHelperTest { /// Tests the floating point value comparison helper [Test] public void TestFloatComparison() { Assert.IsTrue( FloatHelper.AreAlmostEqual(0.00000001f, 0.0000000100000008f, 1), "Minimal difference between very small floating point numbers is considered equal" ); Assert.IsFalse( FloatHelper.AreAlmostEqual(0.00000001f, 0.0000000100000017f, 1), "Larger difference between very small floating point numbers is not considered equal" ); Assert.IsTrue( FloatHelper.AreAlmostEqual(1000000.00f, 1000000.06f, 1), "Minimal difference between very large floating point numbers is considered equal" ); Assert.IsFalse( FloatHelper.AreAlmostEqual(1000000.00f, 1000000.13f, 1), "Larger difference between very large floating point numbers is not considered equal" ); } /// Tests the double precision floating point value comparison helper [Test] public void TestDoubleComparison() { Assert.IsTrue( FloatHelper.AreAlmostEqual(0.00000001, 0.000000010000000000000002, 1), "Minimal difference between very small double precision floating point " + "numbers is considered equal" ); Assert.IsFalse( FloatHelper.AreAlmostEqual(0.00000001, 0.000000010000000000000004, 1), "Larger difference between very small double precision floating point " + "numbers is not considered equal" ); Assert.IsTrue( FloatHelper.AreAlmostEqual(1000000.00, 1000000.0000000001, 1), "Minimal difference between very large double precision floating point " + "numbers is considered equal" ); Assert.IsFalse( FloatHelper.AreAlmostEqual(1000000.00, 1000000.0000000002, 1), "Larger difference between very large double precision floating point " + "numbers is not considered equal" ); } /// Tests the integer reinterpretation functions [Test] public void TestIntegerReinterpretation() { Assert.AreEqual( 12345.0f, FloatHelper.ReinterpretAsFloat(FloatHelper.ReinterpretAsInt(12345.0f)), "Number hasn't changed after mirrored reinterpretation" ); } /// Tests the long reinterpretation functions [Test] public void TestLongReinterpretation() { Assert.AreEqual( 12345.67890, FloatHelper.ReinterpretAsDouble(FloatHelper.ReinterpretAsLong(12345.67890)), "Number hasn't changed after mirrored reinterpretation" ); } /// Tests the floating point reinterpretation functions [Test] public void TestFloatReinterpretation() { Assert.AreEqual( 12345, FloatHelper.ReinterpretAsInt(FloatHelper.ReinterpretAsFloat(12345)), "Number hasn't changed after mirrored reinterpretation" ); } /// /// Tests the double prevision floating point reinterpretation functions /// [Test] public void TestDoubleReinterpretation() { Assert.AreEqual( 1234567890, FloatHelper.ReinterpretAsLong(FloatHelper.ReinterpretAsDouble(1234567890)), "Number hasn't changed after mirrored reinterpretation" ); } } } // namespace Nuclex.Support #endif // UNITTEST