Esempio n. 1
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        public void Lz4_CompressDecompress()
        {
            // Start with a MemoryStream created from the sample data
            using (MemoryStream source = new MemoryStream(s_sampledata))
            {
                using (MemoryStream dest = new MemoryStream())
                {
                    // Compress the data into the destination memory stream instance
                    using (Lz4Writer compressor = new Lz4Writer(dest, CompressionLevel.Optimal, true)) source.CopyTo(compressor);

                    // The compressed data should be smaller than the source data
                    Assert.IsTrue(dest.Length < source.Length);

                    source.SetLength(0);                                // Clear the source stream
                    dest.Position = 0;                                  // Reset the destination stream

                    // Decompress the data back into the source memory stream
                    using (Lz4Reader decompressor = new Lz4Reader(dest, true)) decompressor.CopyTo(source);

                    // Ensure that the original data has been restored
                    Assert.AreEqual(source.Length, s_sampledata.Length);
                    Assert.IsTrue(s_sampledata.SequenceEqual(source.ToArray()));
                }
            }
        }
Esempio n. 2
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        public void Lz4_Seek()
        {
            // Verify behavior of a compression stream
            using (Lz4Writer stream = new Lz4Writer(new MemoryStream()))
            {
                try { stream.Seek(50, SeekOrigin.Begin); Assert.Fail("Method call should have thrown an exception"); }
                catch (Exception ex) { Assert.IsInstanceOfType(ex, typeof(NotSupportedException)); }

                try { stream.Seek(0, SeekOrigin.Current); Assert.Fail("Method call should have thrown an exception"); }
                catch (Exception ex) { Assert.IsInstanceOfType(ex, typeof(NotSupportedException)); }

                try { stream.Seek(-50, SeekOrigin.End); Assert.Fail("Method call should have thrown an exception"); }
                catch (Exception ex) { Assert.IsInstanceOfType(ex, typeof(NotSupportedException)); }
            }

            // Verify behavior of a decompression stream
            using (Lz4Reader stream = new Lz4Reader(new MemoryStream(s_sampledata)))
            {
                try { stream.Seek(50, SeekOrigin.Begin); Assert.Fail("Method call should have thrown an exception"); }
                catch (Exception ex) { Assert.IsInstanceOfType(ex, typeof(NotSupportedException)); }

                try { stream.Seek(0, SeekOrigin.Current); Assert.Fail("Method call should have thrown an exception"); }
                catch (Exception ex) { Assert.IsInstanceOfType(ex, typeof(NotSupportedException)); }

                try { stream.Seek(-50, SeekOrigin.End); Assert.Fail("Method call should have thrown an exception"); }
                catch (Exception ex) { Assert.IsInstanceOfType(ex, typeof(NotSupportedException)); }
            }
        }
Esempio n. 3
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        public void Lz4_Flush()
        {
            // Verify behavior of flushing a compression stream
            using (MemoryStream compressed = new MemoryStream())
            {
                using (Lz4Writer stream = new Lz4Writer(compressed, true))
                {
                    stream.Write(s_sampledata, 0, s_sampledata.Length);

                    // Get the unflushed length of the compressed stream and flush it
                    long unflushed = compressed.Length;
                    stream.Flush();

                    // The expectation is that the output stream will be longer after the flush
                    long flushedonce = compressed.Length;
                    Assert.IsTrue(compressed.Length > unflushed);

                    // Flushing the same data a second time should not have any impact at all
                    stream.Flush();
                    Assert.AreEqual(compressed.Length, flushedonce);

                    // The stream should still be writable after a flush operation
                    stream.Write(s_sampledata, 0, s_sampledata.Length / 10);
                }
            }

            // Verify behavior of flushing a decompression stream
            using (Lz4Reader stream = new Lz4Reader(new MemoryStream(s_sampledata)))
            {
                // Flush has no effect on decompression streams, just ensure it doesn't throw
                stream.Flush();
            }
        }
Esempio n. 4
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        public void Lz4_Read()
        {
            byte[] buffer = new byte[8192];                     // 8KiB data buffer

            using (MemoryStream compressed = new MemoryStream())
            {
                // Start with a compressed MemoryStream created from the sample data
                using (Lz4Writer compressor = new Lz4Writer(compressed, CompressionLevel.Optimal, true))
                {
                    try { compressor.Read(buffer, 0, 8192); Assert.Fail("Method call should have thrown an exception"); }
                    catch (Exception ex) { Assert.IsInstanceOfType(ex, typeof(NotSupportedException)); }

                    compressor.Write(s_sampledata, 0, s_sampledata.Length);
                    compressor.Flush();
                }

                // Check the constructor for ArgumentNullException while we're here
                try { using (Lz4Reader decompressor = new Lz4Reader(null, false)) { }; Assert.Fail("Constructor should have thrown an exception"); }
                catch (Exception ex) { Assert.IsInstanceOfType(ex, typeof(ArgumentNullException)); }

                // Create a decompressor to test some of the error cases
                using (Lz4Reader decompressor = new Lz4Reader(compressed, true))
                {
                    // Send in some bum arguments to Read() to check they are caught
                    try { decompressor.Read(null, 0, 0); Assert.Fail("Method call should have thrown an exception"); }
                    catch (Exception ex) { Assert.IsInstanceOfType(ex, typeof(ArgumentNullException)); }

                    try { decompressor.Read(buffer, -1, 0); Assert.Fail("Method call should have thrown an exception"); }
                    catch (Exception ex) { Assert.IsInstanceOfType(ex, typeof(ArgumentOutOfRangeException)); }

                    try { decompressor.Read(buffer, 0, -1); Assert.Fail("Method call should have thrown an exception"); }
                    catch (Exception ex) { Assert.IsInstanceOfType(ex, typeof(ArgumentOutOfRangeException)); }

                    try { decompressor.Read(buffer, 0, buffer.Length + 1024); Assert.Fail("Method call should have thrown an exception"); }
                    catch (Exception ex) { Assert.IsInstanceOfType(ex, typeof(ArgumentException)); }

                    // Attempting to read from the end of the compressed stream should throw an InvalidDataException
                    try { decompressor.Read(buffer, 0, 8192); Assert.Fail("Method call should have thrown an exception"); }
                    catch (Exception ex) { Assert.IsInstanceOfType(ex, typeof(InvalidDataException)); }

                    // Attempting to read from the middle of the compressed stream should throw an Lz4Exception
                    compressed.Position = compressed.Position / 2;
                    try { decompressor.Read(buffer, 0, 8192); Assert.Fail("Method call should have thrown an exception"); }
                    catch (Exception ex) { Assert.IsInstanceOfType(ex, typeof(Lz4Exception)); }
                }

                // Create a new decompressor against the same stream and make sure it doesn't throw
                compressed.Position = 0;
                using (Lz4Reader decompressor = new Lz4Reader(compressed, true))
                {
                    // Reading zero bytes should not throw an exception
                    decompressor.Read(buffer, 0, 0);

                    while (decompressor.Read(buffer, 0, 8192) != 0)
                    {
                    }
                }
            }
        }
Esempio n. 5
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 public void Lz4_CompressExternal()
 {
     // This method generates an output file that can be tested externally; "thethreemusketeers.txt" is
     // set to Copy Always to the output directory, it can be diffed after running the external tool
     using (Lz4Writer writer = new Lz4Writer(File.Create(Path.Combine(Environment.CurrentDirectory, "thethreemusketeers.lz4"))))
     {
         writer.Write(s_sampledata);
         writer.Flush();
     }
 }
Esempio n. 6
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        public void Lz4_CanWrite()
        {
            // Verify behavior of a compression stream
            using (Lz4Writer stream = new Lz4Writer(new MemoryStream()))
            {
                Assert.IsTrue(stream.CanWrite);
            }

            // Verify behavior of a decompression stream
            using (Lz4Reader stream = new Lz4Reader(new MemoryStream(s_sampledata)))
            {
                Assert.IsFalse(stream.CanWrite);
            }
        }
Esempio n. 7
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        public void Lz4_SetLength()
        {
            // Verify behavior of a compression stream
            using (Lz4Writer stream = new Lz4Writer(new MemoryStream()))
            {
                try { stream.SetLength(12345L); Assert.Fail("Method call should have thrown an exception"); }
                catch (Exception ex) { Assert.IsInstanceOfType(ex, typeof(NotSupportedException)); }
            }

            // Verify behavior of a decompression stream
            using (Lz4Reader stream = new Lz4Reader(new MemoryStream(s_sampledata)))
            {
                try { stream.SetLength(12345L); Assert.Fail("Method call should have thrown an exception"); }
                catch (Exception ex) { Assert.IsInstanceOfType(ex, typeof(NotSupportedException)); }
            }
        }
Esempio n. 8
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        public void Lz4_BaseStream()
        {
            using (MemoryStream source = new MemoryStream())
            {
                using (Lz4Writer stream = new Lz4Writer(source, CompressionLevel.Optimal))
                {
                    Assert.IsNotNull(stream.BaseStream);
                    Assert.AreSame(source, stream.BaseStream);
                }

                using (Lz4Reader stream = new Lz4Reader(source, true))
                {
                    Assert.IsNotNull(stream.BaseStream);
                    Assert.AreSame(source, stream.BaseStream);
                }
            }
        }
Esempio n. 9
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        public void Lz4_Lz4Exception()
        {
            using (MemoryStream compressed = new MemoryStream())
            {
                // Start with a compressed MemoryStream created from the sample data
                using (Lz4Writer compressor = new Lz4Writer(compressed, CompressionLevel.Optimal, true))
                {
                    compressor.Write(s_sampledata, 0, s_sampledata.Length);
                    compressor.Flush();
                }

                byte[]       buffer       = new byte[8192];
                Lz4Exception thrown       = null;
                Lz4Exception deserialized = null;

                // Create a decompressor to test exception cases
                using (Lz4Reader decompressor = new Lz4Reader(compressed, true))
                {
                    // Attempting to read from the middle of the compressed stream should throw a Lz4Exception
                    compressed.Position = compressed.Length / 2;
                    try { decompressor.Read(buffer, 0, 8192); Assert.Fail("Method call should have thrown an exception"); }
                    catch (Lz4Exception ex) { thrown = ex; }

                    Assert.IsNotNull(thrown);
                    Assert.IsInstanceOfType(thrown, typeof(Lz4Exception));

                    // Check the error code property
                    Assert.AreEqual(-13, (int)thrown.ErrorCode);                          // ERROR_frameType_unknown (-13)

                    // Serialize and de-serialize the exception with a BinaryFormatter
                    BinaryFormatter formatter = new BinaryFormatter();
                    using (MemoryStream memstream = new MemoryStream())
                    {
                        formatter.Serialize(memstream, thrown);
                        memstream.Seek(0, 0);
                        deserialized = (Lz4Exception)formatter.Deserialize(memstream);
                    }

                    // Check that the exceptions are equivalent
                    Assert.AreEqual(thrown.ErrorCode, deserialized.ErrorCode);
                    Assert.AreEqual(thrown.StackTrace, deserialized.StackTrace);
                    Assert.AreEqual(thrown.ToString(), deserialized.ToString());
                }
            }
        }
Esempio n. 10
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        public void Lz4_Write()
        {
            byte[] buffer = new byte[8192];                     // 8KiB data buffer

            // Compress the sample data using a call to Write directly
            using (MemoryStream compressed = new MemoryStream())
            {
                // Check the constructor for ArgumentNullException while we're here
                try { using (Lz4Writer compressor = new Lz4Writer(null)) { }; Assert.Fail("Constructor should have thrown an exception"); }
                catch (Exception ex) { Assert.IsInstanceOfType(ex, typeof(ArgumentNullException)); }

                using (Lz4Writer compressor = new Lz4Writer(compressed, CompressionLevel.Optimal, true))
                {
                    // Send in some bum arguments to Write() to check they are caught
                    try { compressor.Write(null); Assert.Fail("Method call should have thrown an exception"); }
                    catch (Exception ex) { Assert.IsInstanceOfType(ex, typeof(ArgumentNullException)); }

                    try { compressor.Write(null, 0, 0); Assert.Fail("Method call should have thrown an exception"); }
                    catch (Exception ex) { Assert.IsInstanceOfType(ex, typeof(ArgumentNullException)); }

                    try { compressor.Write(s_sampledata, -1, 0); Assert.Fail("Method call should have thrown an exception"); }
                    catch (Exception ex) { Assert.IsInstanceOfType(ex, typeof(ArgumentOutOfRangeException)); }

                    try { compressor.Write(s_sampledata, 0, -1); Assert.Fail("Method call should have thrown an exception"); }
                    catch (Exception ex) { Assert.IsInstanceOfType(ex, typeof(ArgumentOutOfRangeException)); }

                    try { compressor.Write(s_sampledata, 0, s_sampledata.Length + 1024); Assert.Fail("Method call should have thrown an exception"); }
                    catch (Exception ex) { Assert.IsInstanceOfType(ex, typeof(ArgumentException)); }

                    // Not writing anything shouldn't throw an exception
                    compressor.Write(s_sampledata, 0, 0);

                    // Compress the data; there really isn't much that can go wrong with Write() itself
                    compressor.Write(s_sampledata, 0, s_sampledata.Length);
                    compressor.Flush();
                }

                using (Lz4Reader reader = new Lz4Reader(compressed, true))
                {
                    try { reader.Write(buffer, 0, buffer.Length); Assert.Fail("Method call should have thrown an exception"); }
                    catch (Exception ex) { Assert.IsInstanceOfType(ex, typeof(NotSupportedException)); }
                }
            }
        }
Esempio n. 11
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        public void Lz4_CompressionLevel()
        {
            using (MemoryStream source = new MemoryStream(s_sampledata))
            {
                long fastest, optimal;                          // Size of compressed streams

                // CompressionLevel.NoCompression is not valid
                try { using (Lz4Writer stream = new Lz4Writer(source, CompressionLevel.NoCompression)) Assert.Fail("Method call should have thrown an exception"); }
                catch (Exception ex) { Assert.IsInstanceOfType(ex, typeof(ArgumentOutOfRangeException)); }

                // Compress using CompressionLevel.Fastest
                using (MemoryStream compressed = new MemoryStream())
                {
                    using (Lz4Writer compressor = new Lz4Writer(compressed, CompressionLevel.Fastest))
                    {
                        compressor.Write(s_sampledata, 0, s_sampledata.Length);
                        compressor.Flush();
                        fastest = compressed.Length;
                    }
                }

                // Compress using CompressionLevel.Optimal
                using (MemoryStream compressed = new MemoryStream())
                {
                    using (Lz4Writer compressor = new Lz4Writer(compressed, CompressionLevel.Optimal))
                    {
                        compressor.Write(s_sampledata, 0, s_sampledata.Length);
                        compressor.Flush();
                        optimal = compressed.Length;
                    }
                }

                // Optimal compression should result in a smaller output stream than fastest
                // and fastest should result in a smaller output stream than uncompressed
                Assert.IsTrue(optimal < fastest);
                Assert.IsTrue(fastest < source.Length);
            }
        }
Esempio n. 12
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        public void Lz4_Position()
        {
            // Start with a MemoryStream created from the sample data
            using (MemoryStream source = new MemoryStream(s_sampledata))
            {
                using (MemoryStream dest = new MemoryStream())
                {
                    // Test a compression stream
                    using (Lz4Writer compressor = new Lz4Writer(dest, CompressionLevel.Optimal, true))
                    {
                        // Lz4 streams do not report position
                        try { var pos = compressor.Position; Assert.Fail("Property should have thrown an exception"); }
                        catch (Exception ex) { Assert.IsInstanceOfType(ex, typeof(NotSupportedException)); }

                        // Attempting to set the position on the stream should throw
                        try { compressor.Position = 12345L; Assert.Fail("Property should have thrown an exception"); }
                        catch (Exception ex) { Assert.IsInstanceOfType(ex, typeof(NotSupportedException)); }
                    }

                    source.SetLength(0);                                // Clear the source stream
                    dest.Position = 0;                                  // Reset the destination stream

                    // Test a decompression stream
                    using (Lz4Reader decompressor = new Lz4Reader(dest, true))
                    {
                        // Lz4 streams do not report position
                        try { var pos = decompressor.Position; Assert.Fail("Property should have thrown an exception"); }
                        catch (Exception ex) { Assert.IsInstanceOfType(ex, typeof(NotSupportedException)); }

                        // Attempting to set the position on the stream should throw
                        try { decompressor.Position = 12345L; Assert.Fail("Property should have thrown an exception"); }
                        catch (Exception ex) { Assert.IsInstanceOfType(ex, typeof(NotSupportedException)); }
                    }
                }
            }
        }
Esempio n. 13
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        public void Lz4_Encoder()
        {
            // The Lz4Encoder is just a wrapper around Lz4Writer that provides
            // more complete control over the compression/encoder parameters
            Lz4Encoder encoder = new Lz4Encoder();

            // Check the default values
            Assert.AreEqual(false, encoder.AutoFlush);
            Assert.AreEqual(Lz4BlockMode.Default, encoder.BlockMode);
            Assert.AreEqual(Lz4BlockSize.Default, encoder.BlockSize);
            Assert.AreEqual(Lz4CompressionLevel.Default, encoder.CompressionLevel);
            Assert.AreEqual(Lz4ContentChecksum.Default, encoder.ContentChecksum);

            // Set and reset encoder parameters to exercise the property setters
            encoder.AutoFlush = true;
            Assert.AreEqual(true, encoder.AutoFlush);
            encoder.AutoFlush = false;
            Assert.AreEqual(false, encoder.AutoFlush);

            encoder.BlockMode = Lz4BlockMode.Independent;
            Assert.AreEqual(Lz4BlockMode.Independent, encoder.BlockMode);
            encoder.BlockMode = Lz4BlockMode.Default;
            Assert.AreEqual(Lz4BlockMode.Default, encoder.BlockMode);

            encoder.BlockSize = Lz4BlockSize.Maximum64KiB;
            Assert.AreEqual(Lz4BlockSize.Maximum64KiB, encoder.BlockSize);
            encoder.BlockSize = Lz4BlockSize.Default;
            Assert.AreEqual(Lz4BlockSize.Default, encoder.BlockSize);

            encoder.CompressionLevel = Lz4CompressionLevel.Fastest;
            Assert.AreEqual(Lz4CompressionLevel.Fastest, encoder.CompressionLevel);
            encoder.CompressionLevel = Lz4CompressionLevel.Default;
            Assert.AreEqual(Lz4CompressionLevel.Default, encoder.CompressionLevel);

            encoder.ContentChecksum = Lz4ContentChecksum.Enabled;
            Assert.AreEqual(Lz4ContentChecksum.Enabled, encoder.ContentChecksum);
            encoder.ContentChecksum = Lz4ContentChecksum.Default;
            Assert.AreEqual(Lz4ContentChecksum.Default, encoder.ContentChecksum);

            // Block size is used a lot internally to the Lz4 writer/encoder, check that they all work
            byte[] blocksizeresult;
            encoder.BlockSize = Lz4BlockSize.Default;
            blocksizeresult   = encoder.Encode(s_sampledata);
            Assert.IsNotNull(blocksizeresult);
            Assert.AreNotEqual(0, blocksizeresult.Length);

            encoder.BlockSize = Lz4BlockSize.Maximum1MiB;
            blocksizeresult   = encoder.Encode(s_sampledata);
            Assert.IsNotNull(blocksizeresult);
            Assert.AreNotEqual(0, blocksizeresult.Length);

            encoder.BlockSize = Lz4BlockSize.Maximum256KiB;
            blocksizeresult   = encoder.Encode(s_sampledata);
            Assert.IsNotNull(blocksizeresult);
            Assert.AreNotEqual(0, blocksizeresult.Length);

            encoder.BlockSize = Lz4BlockSize.Maximum4MiB;
            blocksizeresult   = encoder.Encode(s_sampledata);
            Assert.IsNotNull(blocksizeresult);
            Assert.AreNotEqual(0, blocksizeresult.Length);

            encoder.BlockSize = Lz4BlockSize.Maximum64KiB;
            blocksizeresult   = encoder.Encode(s_sampledata);
            Assert.IsNotNull(blocksizeresult);
            Assert.AreNotEqual(0, blocksizeresult.Length);

            // Put the block size back to default
            encoder.BlockSize = Lz4BlockSize.Default;

            // Check all of the Encoder methods work and encode as expected
            byte[] expected, actual;

            using (MemoryStream ms = new MemoryStream())
            {
                using (var writer = new Lz4Writer(ms, true)) { writer.Write(s_sampledata, 0, s_sampledata.Length); }
                expected = ms.ToArray();
            }

            // Check parameter validations
            try { actual = encoder.Encode((byte[])null); Assert.Fail("Method call should have thrown an exception"); }
            catch (Exception ex) { Assert.IsInstanceOfType(ex, typeof(ArgumentNullException)); }

            try { actual = encoder.Encode((Stream)null); Assert.Fail("Method call should have thrown an exception"); }
            catch (Exception ex) { Assert.IsInstanceOfType(ex, typeof(ArgumentNullException)); }

            try { actual = encoder.Encode(null, 0, 0); Assert.Fail("Method call should have thrown an exception"); }
            catch (Exception ex) { Assert.IsInstanceOfType(ex, typeof(ArgumentNullException)); }

            try { encoder.Encode(s_sampledata, null); Assert.Fail("Method call should have thrown an exception"); }
            catch (Exception ex) { Assert.IsInstanceOfType(ex, typeof(ArgumentNullException)); }

            try { encoder.Encode((byte[])null, new MemoryStream()); Assert.Fail("Method call should have thrown an exception"); }
            catch (Exception ex) { Assert.IsInstanceOfType(ex, typeof(ArgumentNullException)); }

            try { encoder.Encode((byte[])null, 0, 0, new MemoryStream()); Assert.Fail("Method call should have thrown an exception"); }
            catch (Exception ex) { Assert.IsInstanceOfType(ex, typeof(ArgumentNullException)); }

            try { encoder.Encode(s_sampledata, 0, s_sampledata.Length, (Stream)null); Assert.Fail("Method call should have thrown an exception"); }
            catch (Exception ex) { Assert.IsInstanceOfType(ex, typeof(ArgumentNullException)); }

            try { encoder.Encode((Stream)null, new MemoryStream()); Assert.Fail("Method call should have thrown an exception"); }
            catch (Exception ex) { Assert.IsInstanceOfType(ex, typeof(ArgumentNullException)); }

            try { encoder.Encode(new MemoryStream(), (Stream)null); Assert.Fail("Method call should have thrown an exception"); }
            catch (Exception ex) { Assert.IsInstanceOfType(ex, typeof(ArgumentNullException)); }

            // Check actual encoding operations
            actual = encoder.Encode(s_sampledata);
            Assert.IsTrue(Enumerable.SequenceEqual(expected, actual));

            actual = encoder.Encode(new MemoryStream(s_sampledata));
            Assert.IsTrue(Enumerable.SequenceEqual(expected, actual));

            actual = encoder.Encode(s_sampledata, 0, s_sampledata.Length);
            Assert.IsTrue(Enumerable.SequenceEqual(expected, actual));

            using (MemoryStream dest = new MemoryStream())
            {
                encoder.Encode(s_sampledata, dest);
                Assert.IsTrue(Enumerable.SequenceEqual(expected, dest.ToArray()));
            }

            using (MemoryStream dest = new MemoryStream())
            {
                encoder.Encode(new MemoryStream(s_sampledata), dest);
                Assert.IsTrue(Enumerable.SequenceEqual(expected, dest.ToArray()));
            }

            using (MemoryStream dest = new MemoryStream())
            {
                encoder.Encode(s_sampledata, 0, s_sampledata.Length, dest);
                Assert.IsTrue(Enumerable.SequenceEqual(expected, dest.ToArray()));
            }
        }
Esempio n. 14
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        public void Lz4_WriterDispose()
        {
            byte[] buffer = new byte[8192];                     // 8KiB data buffer

            // Create a dummy stream and immediately dispose of it
            Lz4Writer stream = new Lz4Writer(new MemoryStream(s_sampledata), CompressionLevel.Optimal);

            stream.Dispose();

            // Test double dispose
            stream.Dispose();

            // All properties and methods should throw an ObjectDisposedException
            try { var bs = stream.BaseStream; Assert.Fail("Property access should have thrown an exception"); }
            catch (Exception ex) { Assert.IsInstanceOfType(ex, typeof(ObjectDisposedException)); }

            try { var b = stream.CanRead; Assert.Fail("Property access should have thrown an exception"); }
            catch (Exception ex) { Assert.IsInstanceOfType(ex, typeof(ObjectDisposedException)); }

            try { var b = stream.CanSeek; Assert.Fail("Property access should have thrown an exception"); }
            catch (Exception ex) { Assert.IsInstanceOfType(ex, typeof(ObjectDisposedException)); }

            try { var b = stream.CanWrite; Assert.Fail("Property access should have thrown an exception"); }
            catch (Exception ex) { Assert.IsInstanceOfType(ex, typeof(ObjectDisposedException)); }

            try { stream.Flush(); Assert.Fail("Method call should have thrown an exception"); }
            catch (Exception ex) { Assert.IsInstanceOfType(ex, typeof(ObjectDisposedException)); }

            try { var l = stream.Length; Assert.Fail("Property access should have thrown an exception"); }
            catch (Exception ex) { Assert.IsInstanceOfType(ex, typeof(ObjectDisposedException)); }

            try { var l = stream.Position; Assert.Fail("Property access should have thrown an exception"); }
            catch (Exception ex) { Assert.IsInstanceOfType(ex, typeof(ObjectDisposedException)); }

            try { stream.Position = 12345L; Assert.Fail("Property access should have thrown an exception"); }
            catch (Exception ex) { Assert.IsInstanceOfType(ex, typeof(ObjectDisposedException)); }

            try { stream.Read(buffer, 0, 8192); Assert.Fail("Method call should have thrown an exception"); }
            catch (Exception ex) { Assert.IsInstanceOfType(ex, typeof(ObjectDisposedException)); }

            try { stream.Seek(0, SeekOrigin.Current); Assert.Fail("Method call should have thrown an exception"); }
            catch (Exception ex) { Assert.IsInstanceOfType(ex, typeof(ObjectDisposedException)); }

            try { stream.SetLength(12345L); Assert.Fail("Method call should have thrown an exception"); }
            catch (Exception ex) { Assert.IsInstanceOfType(ex, typeof(ObjectDisposedException)); }

            try { stream.Write(buffer); Assert.Fail("Method call should have thrown an exception"); }
            catch (Exception ex) { Assert.IsInstanceOfType(ex, typeof(ObjectDisposedException)); }

            try { stream.Write(buffer, 0, 8192); Assert.Fail("Method call should have thrown an exception"); }
            catch (Exception ex) { Assert.IsInstanceOfType(ex, typeof(ObjectDisposedException)); }

            // Ensure that an underlying stream is disposed of properly if leaveopen is not set
            MemoryStream ms = new MemoryStream(s_sampledata);

            using (Lz4Writer compressor = new Lz4Writer(ms, CompressionLevel.Fastest)) { }
            try { ms.Write(buffer, 0, 8192); Assert.Fail("Method call should have thrown an exception"); }
            catch (Exception ex) { Assert.IsInstanceOfType(ex, typeof(ObjectDisposedException)); }

            // Ensure that an underlying stream is not disposed of if leaveopen is set
            ms = new MemoryStream(s_sampledata);
            using (Lz4Writer compressor = new Lz4Writer(ms, CompressionLevel.Fastest, true)) { }
            ms.Write(buffer, 0, 8192);
            ms.Dispose();
        }