C# (CSharp) Rebex.IO.Compression ZlibOutputStream Exemples

Langage de programmation: C# (CSharp)

Espace de nommage/Pack: Rebex.IO.Compression

Class/Type: ZlibOutputStream

Exemples au hotexamples.com: 2

C# (CSharp) Rebex.IO.Compression ZlibOutputStream - 2 exemples trouvés. Ce sont les exemples réels les mieux notés de Rebex.IO.Compression.ZlibOutputStream extraits de projets open source. Vous pouvez noter les exemples pour nous aider à en améliorer la qualité.

Méthodes fréquemment utilisées

Afficher Cacher

Flush(1)

WriteByte(1)

Méthodes fréquemment utilisées

Flush (1)

WriteByte (1)

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Provides a writable stream that uses ZLIB algorithm to either compresses or decompresses data written to it and saves the resulting data blocks into an underlying stream. Unlike similar class present in .NET Framework 2.0, this one actually makes it possible to use Flush when compressing data to make sure all data written to the stream have been written into the underlying stream as well.

Inheritance: Stream

ZlibOutputStream Class Documentation

Exemple #1

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Fichier : PakFormat.cs Projet : Nanook/Queen-Bee

private CompressionType xBoxUncompress(string compFilename, string uncompFilename) { if (uncompFilename.ToLower() == compFilename.ToLower()) //nothing to do return CompressionType.None; if (File.Exists(uncompFilename)) File.Delete(uncompFilename); CompressionType ct = CompressionType.None; try { using (FileStream inFileStream = new FileStream(compFilename, FileMode.Open, FileAccess.Read)) { using (BinaryEndianReader br = new BinaryEndianReader(inFileStream)) { uint chunkLen = 0; while (chunkLen != 0xffffffff) { using (FileStream outFileStream = new FileStream(uncompFilename, chunkLen == 0 ? FileMode.Create : FileMode.Append)) { using (ZlibOutputStream outZStream = new ZlibOutputStream(outFileStream, Rebex.IO.Compression.CompressionMode.Decompress)) { //test for newer GHWT+ compression long pos = inFileStream.Position; if (Encoding.ASCII.GetString(br.ReadBytes(4)) == "CHNK") { ct = CompressionType.ZLibChunk; EndianType et = this.EndianType; //Decompress each section uint headerLen = br.ReadUInt32(et); uint blockLen = br.ReadUInt32(et); chunkLen = br.ReadUInt32(et); uint nextchunkLen = br.ReadUInt32(et); uint uncompressedLen = br.ReadUInt32(et); uint uncompressedPos = br.ReadUInt32(et); _zLibHeaderLen = headerLen; if (uncompressedLen > this._zLibChunkSize) this._zLibChunkSize = uncompressedLen; inFileStream.Seek(headerLen - (inFileStream.Position - pos), SeekOrigin.Current); outZStream.WriteByte(0x58); //Search deflate.cs for "Nanook" for the mod to stop it being written out outZStream.WriteByte(0x85); //this is the header MS uses, thie zlib deflate uses 78DA ?? copyStream(inFileStream, outZStream, (int)blockLen); if (chunkLen != 0xffffffff) inFileStream.Seek((chunkLen - blockLen) - headerLen, SeekOrigin.Current); } else { try { inFileStream.Seek(pos, SeekOrigin.Begin); outZStream.WriteByte(0x58); outZStream.WriteByte(0x85); copyStream(inFileStream, outZStream); ct = CompressionType.ZLib; break; } catch { break; //no compression??? } } outZStream.Flush(); outFileStream.Flush(); //outZStream.Close(); } } } } } } catch (Exception ex) { throw new ApplicationException(string.Format("Uncompress Failed: {0}", ex)); } //using (DeflateStream ds = new DeflateStream(File.Open(compFilename, FileMode.Open), CompressionMode.Decompress)) //{ // using (BinaryReader br = new BinaryReader(ds)) // { // using (FileStream ms = File.Create(uncompFilename)) // { // using (BinaryWriter bw = new BinaryWriter(ms)) // { // long l; // do // { // l = ms.Length; // bw.Write(br.ReadBytes(10000)); // } // while (l != ms.Length); // } // } // } //} return ct; }

Exemple #2

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Fichier : PakFormat.cs Projet : Nanook/Queen-Bee

private void xBoxCompress(string uncompFilename, string compFilename) { if (uncompFilename.ToLower() == compFilename.ToLower()) //nothing to do return; if (File.Exists(compFilename)) File.Delete(compFilename); try { if (this.CompressionType == CompressionType.ZLib) { using (FileStream outFileStream = new FileStream(compFilename, FileMode.Create)) { using (ZlibOutputStream outZStream = new ZlibOutputStream(outFileStream, true, JZlib.Z_BEST_COMPRESSION)) { using (FileStream inFileStream = new FileStream(uncompFilename, FileMode.Open, FileAccess.Read)) { copyStream(inFileStream, outZStream); } } } } else if (this.CompressionType == CompressionType.ZLibChunk) { List<uint> sizes = new List<uint>(); List<uint> offsets = new List<uint>(); byte[] header = new byte[ZlibFilePad]; int pad = 0; long lastUncompressedChunk; long endPos; EndianType et = this.EndianType; int part = 0; using (FileStream inFileStream = new FileStream(uncompFilename, FileMode.Open, FileAccess.Read)) { long pos; do { using (FileStream outFileStream = new FileStream(compFilename, inFileStream.Position == 0 ? FileMode.Create : FileMode.Append)) { part++; pad = (int)(outFileStream.Position % ZlibBlockPad); if (pad != 0 && outFileStream.Position != 0) outFileStream.Write(header, 0, (int)ZlibBlockPad - pad); pos = outFileStream.Position; outFileStream.Write(Encoding.ASCII.GetBytes("CHNK"), 0, 4); outFileStream.Write(header, 0, (int)_zLibHeaderLen - 4); lastUncompressedChunk = (long)_zLibChunkSize; if (inFileStream.Position + lastUncompressedChunk > inFileStream.Length) lastUncompressedChunk = inFileStream.Length - inFileStream.Position; using (ZlibOutputStream outZStream = new ZlibOutputStream(outFileStream, true, JZlib.Z_BEST_COMPRESSION)) { copyStream(inFileStream, outZStream, (int)lastUncompressedChunk); offsets.Add((uint)pos); sizes.Add((uint)(outFileStream.Position - pos) - _zLibHeaderLen); } } } while (inFileStream.Position < inFileStream.Length); using (FileStream outFileStream = new FileStream(compFilename, inFileStream.Position == 0 ? FileMode.Create : FileMode.Append)) { //find the end of the last file. endPos = (int)(outFileStream.Position % ZlibBlockPad); if (endPos != 0) endPos = ZlibBlockPad - endPos; endPos += outFileStream.Position; //pad the compressed file pad = (int)(outFileStream.Position % ZlibFilePad); if (pad != 0 && outFileStream.Position != 0) outFileStream.Write(header, 0, (int)ZlibFilePad - pad); } using (FileStream outFileStream = new FileStream(compFilename, FileMode.Open)) { using (BinaryEndianWriter bw = new BinaryEndianWriter(outFileStream)) { long uncompressedTotal = 0; EndianType e = this.EndianType; for (int i = 0; i < offsets.Count; i++) { outFileStream.Seek(offsets[i] + 4, SeekOrigin.Begin); bw.Write((uint)_zLibHeaderLen, e); //headerlen bw.Write((uint)sizes[i], e); //blocklen bw.Write((uint)(i != offsets.Count - 1 ? offsets[i + 1] - offsets[i] : 0xffffffff), e); //chunklen ffs if last item //next blocklen 00's if last block if (i == offsets.Count - 1) //last item bw.Write((uint)0x00000000, e); else if (i + 1 == offsets.Count - 1) //secondlast item bw.Write((uint)(endPos - offsets[i + 1]), e); else bw.Write((uint)offsets[i + 2] - offsets[i + 1], e); bw.Write((uint)(i != offsets.Count - 1 ? _zLibChunkSize : lastUncompressedChunk), e); //uncompressed size bw.Write((uint)uncompressedTotal, e); uncompressedTotal += (i != offsets.Count - 1 ? _zLibChunkSize : lastUncompressedChunk); } } } } } } catch (Exception ex) { throw new ApplicationException(string.Format("Compress Failed: {0}", ex)); } //using (FileStream sf = File.OpenRead(uncompFilename)) //{ // using (FileStream df = File.Create(compFilename)) // { // using (DeflateStream ds = new DeflateStream(df, CompressionMode.Compress)) // { // byte[] b = new byte[10000]; // int c = 0; // do // { // c = sf.Read(b, 0, b.Length); // ds.Write(b, 0, c); // } // while (c == b.Length); // } // } //} }