/* Copyright 2014 Alex Dyachenko This file is part of the MPIR Library. The MPIR Library is free software; you can redistribute it and/or modify it under the terms of the GNU Lesser General Public License as published by the Free Software Foundation; either version 3 of the License, or (at your option) any later version. The MPIR 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 GNU Lesser General Public License for more details. You should have received a copy of the GNU Lesser General Public License along with the MPIR Library. If not, see http://www.gnu.org/licenses/. */ using System; using System.Linq; using Microsoft.VisualStudio.TestTools.UnitTesting; namespace MPIR.Tests.HugeIntTests { [TestClass] public class Conversions { [TestMethod] public void ToStringDecimal() { var n = "-23429384756298357462983476598345623984756"; using (var a = new HugeInt(n)) { Assert.AreEqual(n, a.ToString()); } } [TestMethod] public void ToStringHex() { var n = "-23429abcdef298357462983fedcba345623984756"; using (var a = new HugeInt(n, 16)) { Assert.AreEqual(n, a.ToString(16, true)); Assert.AreEqual(n.ToUpper(), a.ToString(16)); } } [TestMethod] public void ToAndFromUlong() { using (var a = new HugeInt()) { ulong b = 0xF84739ABCDEF4876; a.SetTo(b); Assert.AreEqual(b.ToString(), a.ToString()); a.Value = -a; ulong c = a.ToUlong(); Assert.AreEqual(b.ToString(), c.ToString()); } } [TestMethod] public void ToAndFromLong() { using (var a = new HugeInt()) { long b = -0x784739ABCDEF4876; a.SetTo(b); Assert.AreEqual(b.ToString(), a.ToString()); long c = a.ToLong(); Assert.AreEqual(b.ToString(), c.ToString()); } } [TestMethod] public void ToAndFromDouble() { using (var a = new HugeInt()) using (var lo = new HugeInt()) using (var hi = new HugeInt()) { a.SetTo(-123.45e20); lo.Value = (a/10000000000).Rounding(RoundingModes.Floor); hi.Value = (a/10000000000).Rounding(RoundingModes.Ceiling); Assert.IsTrue(lo.ToString() == "-1234500000000" || hi.ToString() == "-1234500000000"); double c = a.ToDouble(); Assert.AreEqual(-123.45e20, c); long exp; a.Value = a + a; c = a.ToDouble(out exp); Assert.AreEqual(75, exp); c *= System.Math.Pow(2, exp); Assert.IsTrue(a + 10000000000 >= c); Assert.IsTrue(a - 10000000000 <= c); } } [TestMethod] public void FromString() { using (var a = new HugeInt()) { var n = "98762934876529834765234123984761"; a.SetTo(n); Assert.AreEqual(n, a.ToString()); n = "-98ABCDEF876529834765234123984761"; a.SetTo(n, 16); Assert.AreEqual(n, a.ToString(16)); } } [TestMethod] [ExpectedException(typeof(ArgumentException))] public void FromInvalidString() { using (var a = new HugeInt()) { a.SetTo("12345A"); } } [TestMethod] public void ToStringTruncated() { var n = string.Concat("123456789".Select(c => new string(c, 30))); using (var a = new HugeInt(n)) { Assert.AreEqual(n, a.ToString(10)); Assert.AreEqual("..." + n.Substring(n.Length - 256), a.ToString()); a.Value = -a; Assert.AreEqual("-..." + n.Substring(n.Length - 256), a.ToString()); } } [TestMethod] public void FitsUlong() { using (var a = new HugeInt(ulong.MaxValue)) { Assert.IsTrue(a.FitsUlong()); a.Value = a + 1; Assert.IsFalse(a.FitsUlong()); a.SetTo(0); Assert.IsTrue(a.FitsUlong()); a.Value = a - 1; Assert.IsFalse(a.FitsUlong()); } } [TestMethod] public void FitsLong() { using (var a = new HugeInt(long.MaxValue)) { Assert.IsTrue(a.FitsLong()); a.Value = a + 1; Assert.IsFalse(a.FitsLong()); a.SetTo(long.MinValue); Assert.IsTrue(a.FitsLong()); a.Value = a - 1; Assert.IsFalse(a.FitsLong()); } } [TestMethod] public void FitsUint() { using (var a = new HugeInt(uint.MaxValue)) { Assert.IsTrue(a.FitsUint()); a.Value = a + 1; Assert.IsFalse(a.FitsUint()); a.SetTo(0); Assert.IsTrue(a.FitsUint()); a.Value = a - 1; Assert.IsFalse(a.FitsUint()); } } [TestMethod] public void FitsInt() { using (var a = new HugeInt(int.MaxValue)) { Assert.IsTrue(a.FitsInt()); a.Value = a + 1; Assert.IsFalse(a.FitsInt()); a.SetTo(int.MinValue); Assert.IsTrue(a.FitsInt()); a.Value = a - 1; Assert.IsFalse(a.FitsInt()); } } [TestMethod] public void FitsUshort() { using (var a = new HugeInt(ushort.MaxValue)) { Assert.IsTrue(a.FitsUshort()); a.Value = a + 1; Assert.IsFalse(a.FitsUshort()); a.SetTo(0); Assert.IsTrue(a.FitsUshort()); a.Value = a - 1; Assert.IsFalse(a.FitsUshort()); } } [TestMethod] public void FitsShort() { using (var a = new HugeInt(short.MaxValue)) { Assert.IsTrue(a.FitsShort()); a.Value = a + 1; Assert.IsFalse(a.FitsShort()); a.SetTo(short.MinValue); Assert.IsTrue(a.FitsShort()); a.Value = a - 1; Assert.IsFalse(a.FitsShort()); } } [TestMethod] public void ApproximateSizeInBase() { using (var a = new HugeInt("2983475029834750293429834750298347502934298347502983475029342983475029834750293429834750298347502934")) { AssertEither(100, 101, a.ApproximateSizeInBase(10)); AssertEither(331, 332, a.ApproximateSizeInBase(2)); AssertEither(83, 84, a.ApproximateSizeInBase(16)); AssertEither(64, 65, a.ApproximateSizeInBase(36)); AssertEither(56, 57, a.ApproximateSizeInBase(62)); } } private void AssertEither(int expected1, int expected2, long actual) { Assert.IsTrue(actual == expected1 || actual == expected2, "Expected {0} or {1}, actual {2}", expected1, expected2, actual); } } }