Mercurial > hg > sv-dependency-builds
view src/zlib-1.2.8/contrib/dotzlib/DotZLib/UnitTests.cs @ 83:ae30d91d2ffe
Replace these with versions built using an older toolset (so as to avoid ABI compatibilities when linking on Ubuntu 14.04 for packaging purposes)
| author | Chris Cannam |
|---|---|
| date | Fri, 07 Feb 2020 11:51:13 +0000 |
| parents | 5ea0608b923f |
| children |
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// // © Copyright Henrik Ravn 2004 // // Use, modification and distribution are subject to the Boost Software License, Version 1.0. // (See accompanying file LICENSE_1_0.txt or copy at http://www.boost.org/LICENSE_1_0.txt) // using System; using System.Collections; using System.IO; // uncomment the define below to include unit tests //#define nunit #if nunit using NUnit.Framework; // Unit tests for the DotZLib class library // ---------------------------------------- // // Use this with NUnit 2 from http://www.nunit.org // namespace DotZLibTests { using DotZLib; // helper methods internal class Utils { public static bool byteArrEqual( byte[] lhs, byte[] rhs ) { if (lhs.Length != rhs.Length) return false; for (int i = lhs.Length-1; i >= 0; --i) if (lhs[i] != rhs[i]) return false; return true; } } [TestFixture] public class CircBufferTests { #region Circular buffer tests [Test] public void SinglePutGet() { CircularBuffer buf = new CircularBuffer(10); Assert.AreEqual( 0, buf.Size ); Assert.AreEqual( -1, buf.Get() ); Assert.IsTrue(buf.Put( 1 )); Assert.AreEqual( 1, buf.Size ); Assert.AreEqual( 1, buf.Get() ); Assert.AreEqual( 0, buf.Size ); Assert.AreEqual( -1, buf.Get() ); } [Test] public void BlockPutGet() { CircularBuffer buf = new CircularBuffer(10); byte[] arr = {1,2,3,4,5,6,7,8,9,10}; Assert.AreEqual( 10, buf.Put(arr,0,10) ); Assert.AreEqual( 10, buf.Size ); Assert.IsFalse( buf.Put(11) ); Assert.AreEqual( 1, buf.Get() ); Assert.IsTrue( buf.Put(11) ); byte[] arr2 = (byte[])arr.Clone(); Assert.AreEqual( 9, buf.Get(arr2,1,9) ); Assert.IsTrue( Utils.byteArrEqual(arr,arr2) ); } #endregion } [TestFixture] public class ChecksumTests { #region CRC32 Tests [Test] public void CRC32_Null() { CRC32Checksum crc32 = new CRC32Checksum(); Assert.AreEqual( 0, crc32.Value ); crc32 = new CRC32Checksum(1); Assert.AreEqual( 1, crc32.Value ); crc32 = new CRC32Checksum(556); Assert.AreEqual( 556, crc32.Value ); } [Test] public void CRC32_Data() { CRC32Checksum crc32 = new CRC32Checksum(); byte[] data = { 1,2,3,4,5,6,7 }; crc32.Update(data); Assert.AreEqual( 0x70e46888, crc32.Value ); crc32 = new CRC32Checksum(); crc32.Update("penguin"); Assert.AreEqual( 0x0e5c1a120, crc32.Value ); crc32 = new CRC32Checksum(1); crc32.Update("penguin"); Assert.AreEqual(0x43b6aa94, crc32.Value); } #endregion #region Adler tests [Test] public void Adler_Null() { AdlerChecksum adler = new AdlerChecksum(); Assert.AreEqual(0, adler.Value); adler = new AdlerChecksum(1); Assert.AreEqual( 1, adler.Value ); adler = new AdlerChecksum(556); Assert.AreEqual( 556, adler.Value ); } [Test] public void Adler_Data() { AdlerChecksum adler = new AdlerChecksum(1); byte[] data = { 1,2,3,4,5,6,7 }; adler.Update(data); Assert.AreEqual( 0x5b001d, adler.Value ); adler = new AdlerChecksum(); adler.Update("penguin"); Assert.AreEqual(0x0bcf02f6, adler.Value ); adler = new AdlerChecksum(1); adler.Update("penguin"); Assert.AreEqual(0x0bd602f7, adler.Value); } #endregion } [TestFixture] public class InfoTests { #region Info tests [Test] public void Info_Version() { Info info = new Info(); Assert.AreEqual("1.2.8", Info.Version); Assert.AreEqual(32, info.SizeOfUInt); Assert.AreEqual(32, info.SizeOfULong); Assert.AreEqual(32, info.SizeOfPointer); Assert.AreEqual(32, info.SizeOfOffset); } #endregion } [TestFixture] public class DeflateInflateTests { #region Deflate tests [Test] public void Deflate_Init() { using (Deflater def = new Deflater(CompressLevel.Default)) { } } private ArrayList compressedData = new ArrayList(); private uint adler1; private ArrayList uncompressedData = new ArrayList(); private uint adler2; public void CDataAvail(byte[] data, int startIndex, int count) { for (int i = 0; i < count; ++i) compressedData.Add(data[i+startIndex]); } [Test] public void Deflate_Compress() { compressedData.Clear(); byte[] testData = new byte[35000]; for (int i = 0; i < testData.Length; ++i) testData[i] = 5; using (Deflater def = new Deflater((CompressLevel)5)) { def.DataAvailable += new DataAvailableHandler(CDataAvail); def.Add(testData); def.Finish(); adler1 = def.Checksum; } } #endregion #region Inflate tests [Test] public void Inflate_Init() { using (Inflater inf = new Inflater()) { } } private void DDataAvail(byte[] data, int startIndex, int count) { for (int i = 0; i < count; ++i) uncompressedData.Add(data[i+startIndex]); } [Test] public void Inflate_Expand() { uncompressedData.Clear(); using (Inflater inf = new Inflater()) { inf.DataAvailable += new DataAvailableHandler(DDataAvail); inf.Add((byte[])compressedData.ToArray(typeof(byte))); inf.Finish(); adler2 = inf.Checksum; } Assert.AreEqual( adler1, adler2 ); } #endregion } [TestFixture] public class GZipStreamTests { #region GZipStream test [Test] public void GZipStream_WriteRead() { using (GZipStream gzOut = new GZipStream("gzstream.gz", CompressLevel.Best)) { BinaryWriter writer = new BinaryWriter(gzOut); writer.Write("hi there"); writer.Write(Math.PI); writer.Write(42); } using (GZipStream gzIn = new GZipStream("gzstream.gz")) { BinaryReader reader = new BinaryReader(gzIn); string s = reader.ReadString(); Assert.AreEqual("hi there",s); double d = reader.ReadDouble(); Assert.AreEqual(Math.PI, d); int i = reader.ReadInt32(); Assert.AreEqual(42,i); } } #endregion } } #endif