/// <summary>
/// 压缩文件
/// </summary>
/// <param name="file"></param>
/// <param name="deleteOrigin"></param>
public void Zip(string file, bool deleteOrigin = false)
{
FileInfo fileInfo = new FileInfo(file);
Console.WriteLine("正在处理:{0}", fileInfo.Name);
using (FileStream fileReader = fileInfo.OpenRead())
{
ZarcHeader header = new ZarcHeader();
uint lastSectionLength = SectionMaxLength;
header.Magic = new byte[] {
0x7a,0x61,0x72,0x63
};
if (fileInfo.Length <= SectionMaxLength)
{
header.SectionCount = 1;
lastSectionLength = (uint)fileInfo.Length;
}
else
{
//计算段的大小
header.SectionCount = (ushort)(fileInfo.Length / SectionMaxLength);
if (fileInfo.Length % SectionMaxLength != 0)
{
lastSectionLength = (uint)(fileInfo.Length - header.SectionCount * SectionMaxLength);
header.SectionCount += 1;
}
}
header.OriginSize = (uint)fileInfo.Length;
SectionHeader[] sections = new SectionHeader[header.SectionCount];
//计算数据的初始偏移量
int evenSection = header.SectionCount;
if (header.SectionCount % 2 != 0)
{
evenSection += 1;
}
uint realOffset = (uint)(0x10 + evenSection * 8);
header.CompressedSize = realOffset;
//开始按照分段循环进行压缩
using (MemoryStream cMemory = new MemoryStream())
{
for (int i = 0; i < header.SectionCount; i++)
{
using (MemoryStream swapMemory = new MemoryStream())
{
sections[i] = new SectionHeader();
using (DeflateStream compressionStream = new DeflateStream(swapMemory, CompressionMode.Compress, true))
{
uint currentLength = (i == header.SectionCount - 1) ? lastSectionLength : SectionMaxLength;
byte[] data = new byte[currentLength];
fileReader.Read(data, 0, (int)currentLength);
compressionStream.Write(data, 0, data.Length);
if (currentLength != SectionMaxLength)
sections[i].OriginSize = (ushort)currentLength;
}
//对压缩的数据补0并写入压缩流中
sections[i].CompressedSize = (ushort)swapMemory.Length;
uint writeLength = (uint)swapMemory.Length;
if (writeLength % 16 != 0)
{
writeLength = (writeLength / 16 + 1) * 16;
}
byte[] cdata = swapMemory.ToArray();//new byte[writeLength];
//swapMemory.Read(cdata, 0, sections[i].CompressedSize);
cMemory.Write(cdata, 0, cdata.Length);
if (writeLength != swapMemory.Length)
{
int space = (int)(writeLength - swapMemory.Length);
cMemory.Write(new byte[space], 0, space);
}
header.CompressedSize += writeLength;
sections[i].Offset = realOffset + 1;
realOffset += writeLength;
}
}
//开始写出压缩文件
string currentFileName = fileInfo.FullName;
string newFileName = currentFileName + ".zarc";
using (FileStream writer = new FileStream(newFileName, FileMode.Create, FileAccess.Write))
{
//先写Header
writer.Write(header.Magic, 0, 4);
writer.Write(new byte[] { 0, 1 }, 0, 2);
writer.Write(DataConverter.BigEndian.GetBytes(header.SectionCount), 0, 2);
writer.Write(DataConverter.BigEndian.GetBytes(header.OriginSize), 0, 4);
writer.Write(DataConverter.BigEndian.GetBytes(header.CompressedSize), 0, 4);
//循环写入段信息
foreach (SectionHeader section in sections)
{
writer.Write(DataConverter.BigEndian.GetBytes(section.CompressedSize), 0, 2);
writer.Write(DataConverter.BigEndian.GetBytes(section.OriginSize), 0, 2);
writer.Write(DataConverter.BigEndian.GetBytes(section.Offset), 0, 4);
}
if (header.SectionCount != evenSection)
{
writer.Write(new byte[8], 0, 8);
}
writer.Write(cMemory.ToArray(), 0, (int)cMemory.Length);
}
}
}
if (deleteOrigin)
{
fileInfo.Delete();
}
}
/// <summary>
/// 压缩文件
/// </summary>
/// <param name="file"></param>
/// <param name="deleteOrigin"></param>
public void Zip(string file, bool deleteOrigin = false)
{
FileInfo fileInfo = new FileInfo(file);
Console.WriteLine("正在处理:{0}", fileInfo.Name);
using (FileStream fileReader = fileInfo.OpenRead())
{
ZarcHeader header = new ZarcHeader();
uint lastSectionLength = SectionMaxLength;
header.Magic = new byte[] {
0x7a, 0x61, 0x72, 0x63
};
if (fileInfo.Length <= SectionMaxLength)
{
header.SectionCount = 1;
lastSectionLength = (uint)fileInfo.Length;
}
else
{
//计算段的大小
header.SectionCount = (ushort)(fileInfo.Length / SectionMaxLength);
if (fileInfo.Length % SectionMaxLength != 0)
{
lastSectionLength = (uint)(fileInfo.Length - header.SectionCount * SectionMaxLength);
header.SectionCount += 1;
}
}
header.OriginSize = (uint)fileInfo.Length;
SectionHeader[] sections = new SectionHeader[header.SectionCount];
//计算数据的初始偏移量
int evenSection = header.SectionCount;
if (header.SectionCount % 2 != 0)
{
evenSection += 1;
}
uint realOffset = (uint)(0x10 + evenSection * 8);
header.CompressedSize = realOffset;
//开始按照分段循环进行压缩
using (MemoryStream cMemory = new MemoryStream())
{
for (int i = 0; i < header.SectionCount; i++)
{
using (MemoryStream swapMemory = new MemoryStream())
{
sections[i] = new SectionHeader();
using (DeflateStream compressionStream = new DeflateStream(swapMemory, CompressionMode.Compress, true))
{
uint currentLength = (i == header.SectionCount - 1) ? lastSectionLength : SectionMaxLength;
byte[] data = new byte[currentLength];
fileReader.Read(data, 0, (int)currentLength);
compressionStream.Write(data, 0, data.Length);
if (currentLength != SectionMaxLength)
{
sections[i].OriginSize = (ushort)currentLength;
}
}
//对压缩的数据补0并写入压缩流中
sections[i].CompressedSize = (ushort)swapMemory.Length;
uint writeLength = (uint)swapMemory.Length;
if (writeLength % 16 != 0)
{
writeLength = (writeLength / 16 + 1) * 16;
}
byte[] cdata = swapMemory.ToArray();//new byte[writeLength];
//swapMemory.Read(cdata, 0, sections[i].CompressedSize);
cMemory.Write(cdata, 0, cdata.Length);
if (writeLength != swapMemory.Length)
{
int space = (int)(writeLength - swapMemory.Length);
cMemory.Write(new byte[space], 0, space);
}
header.CompressedSize += writeLength;
sections[i].Offset = realOffset + 1;
realOffset += writeLength;
}
}
//开始写出压缩文件
string currentFileName = fileInfo.FullName;
string newFileName = currentFileName + ".zarc";
using (FileStream writer = new FileStream(newFileName, FileMode.Create, FileAccess.Write))
{
//先写Header
writer.Write(header.Magic, 0, 4);
writer.Write(new byte[] { 0, 1 }, 0, 2);
writer.Write(DataConverter.BigEndian.GetBytes(header.SectionCount), 0, 2);
writer.Write(DataConverter.BigEndian.GetBytes(header.OriginSize), 0, 4);
writer.Write(DataConverter.BigEndian.GetBytes(header.CompressedSize), 0, 4);
//循环写入段信息
foreach (SectionHeader section in sections)
{
writer.Write(DataConverter.BigEndian.GetBytes(section.CompressedSize), 0, 2);
writer.Write(DataConverter.BigEndian.GetBytes(section.OriginSize), 0, 2);
writer.Write(DataConverter.BigEndian.GetBytes(section.Offset), 0, 4);
}
if (header.SectionCount != evenSection)
{
writer.Write(new byte[8], 0, 8);
}
writer.Write(cMemory.ToArray(), 0, (int)cMemory.Length);
}
}
}
if (deleteOrigin)
{
fileInfo.Delete();
}
}
/// <summary>
/// 解压文件
/// </summary>
/// <param name="file"></param>
/// <returns></returns>
public void Unzip(string file, bool deleteOrigin = false)
{
FileInfo fileInfo = new FileInfo(file);
Console.WriteLine("正在处理:{0}", fileInfo.Name);
using (FileStream fileReader = fileInfo.OpenRead())
{
using (BinaryReader dataReader = new BinaryReader(fileReader))
{
//处理文件头
ZarcHeader header = new ZarcHeader();
header.Magic = dataReader.ReadBytes(4);
dataReader.ReadInt16();//useless
Console.WriteLine("======================Header=========================");
header.SectionCount = DataConverter.BigEndian.GetUInt16(dataReader.ReadBytes(2), 0);
Console.WriteLine("段数量:{0}", header.SectionCount);
header.OriginSize = DataConverter.BigEndian.GetUInt32(dataReader.ReadBytes(4), 0);
Console.WriteLine("原始文件大小:{0}", header.OriginSize);
header.CompressedSize = DataConverter.BigEndian.GetUInt32(dataReader.ReadBytes(4), 0);
Console.WriteLine("压缩文件大小:{0}", header.CompressedSize);
Console.WriteLine("====================================================");
//处理段信息
SectionHeader[] sections = new SectionHeader[header.SectionCount];
for (int i = 0; i < header.SectionCount; i++)
{
sections[i] = new SectionHeader();
sections[i].CompressedSize = DataConverter.BigEndian.GetUInt16(dataReader.ReadBytes(2), 0);
sections[i].OriginSize = DataConverter.BigEndian.GetUInt16(dataReader.ReadBytes(2), 0);
sections[i].Offset = DataConverter.BigEndian.GetUInt32(dataReader.ReadBytes(4), 0);
#if DEBUG
Console.WriteLine("===================Section {0}========================", i);
Console.WriteLine("段的压缩大小:{0}", sections[i].CompressedSize);
Console.WriteLine("段的实际偏移量大小:{0}", sections[i].RealOffset);
Console.WriteLine("===============================================");
#endif
}
//开始解压缩
string currentFileName = fileInfo.FullName;
string newFileName = currentFileName.Remove(currentFileName.Length - fileInfo.Extension.Length);
#if DEBUG
string configFileName = newFileName + ".config";
#endif
using (MemoryStream dMemory = new MemoryStream())
{
#if DEBUG
int sectionIndex = 0;
long currentPosition = 0;
List<string> configText = new List<string>();
#endif
foreach (SectionHeader section in sections)
{
fileReader.Seek(section.RealOffset, SeekOrigin.Begin);
byte[] cdata = new byte[section.CompressedSize];
fileReader.Read(cdata, 0, section.CompressedSize);
if (section.CompressedSize != section.OriginSize)
{
//解压数据
using (MemoryStream cMemory = new MemoryStream(cdata))
{
using (MemoryStream swapMemory = new MemoryStream())
{
using (DeflateStream decompressionStream = new DeflateStream(cMemory, CompressionMode.Decompress))
{
decompressionStream.CopyTo(swapMemory);
}
dMemory.Write(swapMemory.ToArray(), 0, (int)swapMemory.Length);
#if DEBUG
//段索引 解压后的长度 在解压文件中的偏移位置
configText.Add(string.Format("{0} {1} {2}", sectionIndex, swapMemory.Length, currentPosition));
sectionIndex++;
currentPosition += swapMemory.Length;
#endif
}
}
}
else
{
dMemory.Write(cdata, 0, cdata.Length);
}
}
//写出解压后的数据和控制文件
#if DEBUG
File.WriteAllLines(configFileName, configText.ToArray());
#endif
File.WriteAllBytes(newFileName, dMemory.ToArray());
//在当前文件夹下留一个列表,表示原始文件全名称
File.AppendAllLines(fileInfo.DirectoryName + "\\files.txt", new string[] { newFileName.Substring(newFileName.LastIndexOf("\\") + 1) });
}
}
}
if (deleteOrigin)
{
fileInfo.Delete();
}
}
/// <summary>
/// 解压文件
/// </summary>
/// <param name="file"></param>
/// <returns></returns>
public void Unzip(string file, bool deleteOrigin = false)
{
FileInfo fileInfo = new FileInfo(file);
Console.WriteLine("正在处理:{0}", fileInfo.Name);
using (FileStream fileReader = fileInfo.OpenRead())
{
using (BinaryReader dataReader = new BinaryReader(fileReader))
{
//处理文件头
ZarcHeader header = new ZarcHeader();
header.Magic = dataReader.ReadBytes(4);
dataReader.ReadInt16();//useless
Console.WriteLine("======================Header=========================");
header.SectionCount = DataConverter.BigEndian.GetUInt16(dataReader.ReadBytes(2), 0);
Console.WriteLine("段数量:{0}", header.SectionCount);
header.OriginSize = DataConverter.BigEndian.GetUInt32(dataReader.ReadBytes(4), 0);
Console.WriteLine("原始文件大小:{0}", header.OriginSize);
header.CompressedSize = DataConverter.BigEndian.GetUInt32(dataReader.ReadBytes(4), 0);
Console.WriteLine("压缩文件大小:{0}", header.CompressedSize);
Console.WriteLine("====================================================");
//处理段信息
SectionHeader[] sections = new SectionHeader[header.SectionCount];
for (int i = 0; i < header.SectionCount; i++)
{
sections[i] = new SectionHeader();
sections[i].CompressedSize = DataConverter.BigEndian.GetUInt16(dataReader.ReadBytes(2), 0);
sections[i].OriginSize = DataConverter.BigEndian.GetUInt16(dataReader.ReadBytes(2), 0);
sections[i].Offset = DataConverter.BigEndian.GetUInt32(dataReader.ReadBytes(4), 0);
#if DEBUG
Console.WriteLine("===================Section {0}========================", i);
Console.WriteLine("段的压缩大小:{0}", sections[i].CompressedSize);
Console.WriteLine("段的实际偏移量大小:{0}", sections[i].RealOffset);
Console.WriteLine("===============================================");
#endif
}
//开始解压缩
string currentFileName = fileInfo.FullName;
string newFileName = currentFileName.Remove(currentFileName.Length - fileInfo.Extension.Length);
#if DEBUG
string configFileName = newFileName + ".config";
#endif
using (MemoryStream dMemory = new MemoryStream())
{
#if DEBUG
int sectionIndex = 0;
long currentPosition = 0;
List <string> configText = new List <string>();
#endif
foreach (SectionHeader section in sections)
{
fileReader.Seek(section.RealOffset, SeekOrigin.Begin);
byte[] cdata = new byte[section.CompressedSize];
fileReader.Read(cdata, 0, section.CompressedSize);
if (section.CompressedSize != section.OriginSize)
{
//解压数据
using (MemoryStream cMemory = new MemoryStream(cdata))
{
using (MemoryStream swapMemory = new MemoryStream())
{
using (DeflateStream decompressionStream = new DeflateStream(cMemory, CompressionMode.Decompress))
{
decompressionStream.CopyTo(swapMemory);
}
dMemory.Write(swapMemory.ToArray(), 0, (int)swapMemory.Length);
#if DEBUG
//段索引 解压后的长度 在解压文件中的偏移位置
configText.Add(string.Format("{0} {1} {2}", sectionIndex, swapMemory.Length, currentPosition));
sectionIndex++;
currentPosition += swapMemory.Length;
#endif
}
}
}
else
{
dMemory.Write(cdata, 0, cdata.Length);
}
}
//写出解压后的数据和控制文件
#if DEBUG
File.WriteAllLines(configFileName, configText.ToArray());
#endif
File.WriteAllBytes(newFileName, dMemory.ToArray());
//在当前文件夹下留一个列表,表示原始文件全名称
File.AppendAllLines(fileInfo.DirectoryName + "\\files.txt", new string[] { newFileName.Substring(newFileName.LastIndexOf("\\") + 1) });
}
}
}
if (deleteOrigin)
{
fileInfo.Delete();
}
}