話說當今壓縮市場三足鼎立,能叫上名號的有zip、rar、7z。其中zip是壓縮界的鼻祖,在各大平台上的流行度最廣,rar是商業軟件,壓縮率和效率都是很高的,對個人用戶沒有限制。7z是開源的,屬於后起之秀,也有着不凡的壓縮率,但在內存占有率的問題上,稍遜風騷。今天,主要總結下,windows平台下,zip的壓縮與解壓的方法,用ICSharpCode組件。
一、單文件壓縮
場景,文件可能比較大,需要壓縮傳輸,比如上傳和下載
1 /// <summary> 2 /// 單文件壓縮 3 /// </summary> 4 /// <param name="sourceFile">源文件</param> 5 /// <param name="zipedFile">zip壓縮文件</param> 6 /// <param name="blockSize">緩沖區大小</param> 7 /// <param name="compressionLevel">壓縮級別</param> 8 public static void ZipFile(string sourceFile, string zipedFile, int blockSize = 1024, int compressionLevel = 6) 9 { 10 if (!File.Exists(sourceFile)) 11 { 12 throw new System.IO.FileNotFoundException("The specified file " + sourceFile + " could not be found."); 13 } 14 var fileName = System.IO.Path.GetFileNameWithoutExtension(sourceFile); 15 16 FileStream streamToZip = new FileStream(sourceFile, FileMode.Open, FileAccess.Read); 17 FileStream zipFile = File.Create(zipedFile); 18 ZipOutputStream zipStream = new ZipOutputStream(zipFile); 19 20 ZipEntry zipEntry = new ZipEntry(fileName); 21 zipStream.PutNextEntry(zipEntry); 22 23 //存儲、最快、較快、標准、較好、最好 0-9 24 zipStream.SetLevel(compressionLevel); 25 26 byte[] buffer = new byte[blockSize]; 27 28 int size = streamToZip.Read(buffer, 0, buffer.Length); 29 zipStream.Write(buffer, 0, size); 30 try 31 { 32 while (size < streamToZip.Length) 33 { 34 int sizeRead = streamToZip.Read(buffer, 0, buffer.Length); 35 zipStream.Write(buffer, 0, sizeRead); 36 size += sizeRead; 37 } 38 } 39 catch (Exception ex) 40 { 41 throw ex; 42 } 43 zipStream.Finish(); 44 zipStream.Close(); 45 streamToZip.Close(); 46 }
說明:26行,blocksize為緩存區大小,不能設置太大,如果太大也會報異常。26-38行,把文件通過FileStream流,讀取到緩沖區中,再寫入到ZipOutputStream流。你可以想象,兩個管道,一個讀,另一個寫,中間是緩沖區,它們的工作方式是同步的方式。想一下,能不能以異步的方式工作,讀的管道只管讀,寫的管道只管寫?如果是這樣一個場景,讀的特別快,寫的比較慢,比如,不是本地寫,而是要經過網絡傳輸,就可以考慮異步的方式。怎么做,讀者可以自行改造。關鍵一點,流是有順序的,所以要保證順序的正確性即可。
二、多文件壓縮
這種場景也是比較多見,和單文件壓縮類似,無非就是多循環幾次。
1 /// <summary> 2 /// 多文件壓縮 3 /// </summary> 4 /// <param name="zipfile">zip壓縮文件</param> 5 /// <param name="filenames">源文件集合</param> 6 /// <param name="password">壓縮加密</param> 7 public void ZipFiles(string zipfile, string[] filenames, string password = "") 8 { 9 ZipOutputStream s = new ZipOutputStream(System.IO.File.Create(zipfile)); 10 11 s.SetLevel(6); 12 13 if (password != "") 14 s.Password = Md5Help.Encrypt(password); 15 16 foreach (string file in filenames) 17 { 18 //打開壓縮文件 19 FileStream fs = File.OpenRead(file); 20 21 byte[] buffer = new byte[fs.Length]; 22 fs.Read(buffer, 0, buffer.Length); 23 24 var name = Path.GetFileName(file); 25 26 ZipEntry entry = new ZipEntry(name); 27 entry.DateTime = DateTime.Now; 28 entry.Size = fs.Length; 29 fs.Close(); 30 s.PutNextEntry(entry); 31 s.Write(buffer, 0, buffer.Length); 32 } 33 s.Finish(); 34 s.Close(); 35 }
說明:21行,緩沖區大小直接為文件大小,所以一次讀完,沒有循環讀寫。這種情況下,單個文件不能太大,比如超過1G。14行,可以為壓縮包設置密碼,MD5的生成方法如下:
public class Md5Help { /// <summary> ///32位 MD5加密 /// </summary> /// <param name="str">加密字符</param> /// <returns></returns> public static string Encrypt(string str) { MD5 md5 = new MD5CryptoServiceProvider(); byte[] encryptdata = md5.ComputeHash(Encoding.UTF8.GetBytes(str)); return Convert.ToBase64String(encryptdata); } }
三、多文件異步壓縮
上面同步的壓縮的前提是,假設文件不大,而且文件數不多,但是現實是,不光文件大,而且文件數比較多。這種情況,就要考慮異步方法了。否則會阻塞主線程,就是我們平常說的卡死。
/// <summary> /// 異步壓縮文件為zip壓縮包 /// </summary> /// <param name="zipfile">壓縮包存儲路徑</param> /// <param name="filenames">文件集合</param> public static async void ZipFilesAsync(string zipfile, string[] filenames) { await Task.Run(() => { ZipOutputStream s = null; try { s = new ZipOutputStream(System.IO.File.Create(zipfile)); s.SetLevel(6); // 0 - store only to 9 - means best compression foreach (string file in filenames) { //打開壓縮文件 FileStream fs = System.IO.File.OpenRead(file); var name = Path.GetFileName(file); ZipEntry entry = new ZipEntry(name); entry.DateTime = DateTime.Now; entry.Size = fs.Length; s.PutNextEntry(entry); //如果文件大於1G long blockSize = 51200; var size = (int)fs.Length; var oneG = 1024 * 1024 * 1024; if (size > oneG) { blockSize = oneG; } byte[] buffer = new byte[blockSize]; size = fs.Read(buffer, 0, buffer.Length); s.Write(buffer, 0, size); while (size < fs.Length) { int sizeRead = fs.Read(buffer, 0, buffer.Length); s.Write(buffer, 0, sizeRead); size += sizeRead; } s.Flush(); fs.Close(); } } catch (Exception ex) { Console.WriteLine("異步壓縮文件出錯:" + ex.Message); } finally { s?.Finish(); s?.Close(); } }); }
四、壓縮文件夾
實際的應用當中,是文件和文件夾一起壓縮,所以這種情況,就干脆把要壓縮的東西全部放到一個文件夾,然后進行壓縮。
主方法如下:
/// <summary> /// 異步壓縮文件夾為zip壓縮包 /// </summary> /// <param name="zipfile">壓縮包存儲路徑</param> /// <param name="sourceFolder">壓縮包存儲路徑</param> /// <param name="filenames">文件集合</param> public static async void ZipFolderAsync(string zipfile, string sourceFolder, string[] filenames) { await Task.Run(() => { ZipOutputStream s = null; try { s = new ZipOutputStream(System.IO.File.Create(zipfile)); s.SetLevel(6); // 0 - store only to 9 - means best compression CompressFolder(sourceFolder, s, sourceFolder); } catch (Exception ex) { Console.WriteLine("異步壓縮文件出錯:" + ex.Message); } finally { s?.Finish(); s?.Close(); } }); }
壓縮的核心方法:
1 /// <summary> 2 /// 壓縮文件夾 3 /// </summary> 4 /// <param name="source">源目錄</param> 5 /// <param name="s">ZipOutputStream對象</param> 6 /// <param name="parentPath">和source相同</param> 7 public static void CompressFolder(string source, ZipOutputStream s, string parentPath) 8 { 9 string[] filenames = Directory.GetFileSystemEntries(source); 10 foreach (string file in filenames) 11 { 12 if (Directory.Exists(file)) 13 { 14 CompressFolder(file, s, parentPath); //遞歸壓縮子文件夾 15 } 16 else 17 { 18 using (FileStream fs = System.IO.File.OpenRead(file)) 19 { 20 var writeFilePath = file.Replace(parentPath, ""); 21 ZipEntry entry = new ZipEntry(writeFilePath); 22 entry.DateTime = DateTime.Now; 23 entry.Size = fs.Length; 24 25 s.PutNextEntry(entry); 26 27 //如果文件大於1G 28 long blockSize = 51200; 29 30 var size = (int)fs.Length; 31 32 var oneG = 1024 * 1024 * 1024; 33 34 if (size > oneG) 35 { 36 blockSize = oneG; 37 } 38 byte[] buffer = new byte[blockSize]; 39 40 size = fs.Read(buffer, 0, buffer.Length); 41 42 s.Write(buffer, 0, size); 43 44 45 while (size < fs.Length) 46 { 47 int sizeRead = fs.Read(buffer, 0, buffer.Length); 48 s.Write(buffer, 0, sizeRead); 49 size += sizeRead; 50 } 51 52 s.Flush(); //清除流的緩沖區,使得所有緩沖數據都寫入到文件中 53 fs.Close(); 54 } 55 } 56 } 57 }
唯一需要注意的地方,可能解壓出來的目錄結構和壓縮前的文件目錄不同,這時候檢查parentPath參數,它在ZipEntry實體new的時候用,替換絕對路徑為當前的相對路徑,也就是相對壓縮文件夾的路徑。
上面的方法比較復雜,還有一種相對簡單的方式,直接調用api:
public static string ZipFolder(string sourceFolder, string zipFile) { string result = ""; try { //創建壓縮包 if (!Directory.Exists(sourceFolder)) return result = "壓縮文件夾不存在"; DirectoryInfo d = new DirectoryInfo(sourceFolder); var files = d.GetFiles(); if (files.Length == 0) { //找子目錄 var ds = d.GetDirectories(); if (ds.Length > 0) { files = ds[0].GetFiles(); } } if (files.Length == 0) return result = "待壓縮文件為空"; System.IO.Compression.ZipFile.CreateFromDirectory(sourceFolder, zipFile); } catch (Exception ex) { result += "壓縮出錯:" + ex.Message; } return result; }