void writeTempTerrainToZip(ZipArchive zip)
{
int version = 0;
//Write our terrain information
AbstractFile md = zip.CreateFile("terrain.tdl", true);
//Write the size of our data..
Stream stream = md.OpenWrite(true);//File.Open(filename, FileMode.OpenOrCreate, FileAccess.Write);
BinaryWriter bw = new BinaryWriter(stream);
bw.Write(version);
bw.Write(TerrainGlobals.getTerrain().getNumXVerts());
bw.Write(TerrainGlobals.getTerrain().getNumZVerts());
bw.Write(TerrainGlobals.getTerrain().getTileScale());
//min
Vector3 min = TerrainGlobals.getTerrain().getQuadNodeRoot().getDesc().m_min;
bw.Write(min.X); bw.Write(min.Y); bw.Write(min.Z);
//max
Vector3 max = TerrainGlobals.getTerrain().getQuadNodeRoot().getDesc().m_max;
bw.Write(max.X); bw.Write(max.Y); bw.Write(max.Z);
//write terrain positions
for (int x = 0; x < TerrainGlobals.getTerrain().getNumXVerts(); x++)
{
for (int z = 0; z < TerrainGlobals.getTerrain().getNumZVerts(); z++)
{
Vector3 pos = TerrainGlobals.getTerrain().getRelPos(x, z);
bw.Write(pos.X); bw.Write(pos.Y); bw.Write(pos.Z);
}
}
for (int x = 0; x < TerrainGlobals.getTerrain().getNumXVerts(); x++)
{
for (int z = 0; z < TerrainGlobals.getTerrain().getNumZVerts(); z++)
{
Vector3 pos = TerrainGlobals.getTerrain().getNormal(x, z);
bw.Write(pos.X); bw.Write(pos.Y); bw.Write(pos.Z);
}
}
//write quadnodes
BTerrainQuadNode[] mNodes = TerrainGlobals.getTerrain().getQuadNodeLeafArray();
bw.Write(mNodes.Length);
for (int i = 0; i < mNodes.Length; i++)
{
BTerrainQuadNodeDesc desc = mNodes[i].getDesc();
bw.Write(desc.mMinXVert);
bw.Write(desc.mMinZVert);
}
bw.Close();
stream.Close();
}
public void Test1()
{
FileManager newSys = new FileManager();
DateTime date1 = new DateTime(2019, 7, 20, 18, 30, 25);
AbstractFile file1 = new AbstractFile("Test1", 100, date1);
AbstractFile file2 = new AbstractFile("Test2", 100, date1);
newSys.AddFile(file1);
newSys.AddFile(file2);
List <AbstractFile> list = newSys.EndEditing();
StorageAlgorithms algorithm = new StorageAlgorithms();
var pointInfo1 = algorithm.SeparateBackup(list, Type.Full);
var pointInfo2 = algorithm.SeparateBackup(list, Type.Full);
RestoreSystem newChain = new RestoreSystem();
newChain.AddPoint(pointInfo1);
newChain.AddPoint(pointInfo2);
ICleaningPoints Clean = new CleanByPoints(1);
Clean.Clean(newChain.Points);
Assert.AreEqual(1, newChain.ShowRestorePoints().Count);
Assert.AreEqual(1, newChain.ShowRestorePoints().Count);
}
public void Test2()
{
FileManager newSys = new FileManager();
DateTime date1 = new DateTime(2019, 7, 20, 18, 30, 25);
AbstractFile file1 = new AbstractFile("Test1", 100, date1);
AbstractFile file2 = new AbstractFile("Test2", 100, date1);
newSys.AddFile(file1);
newSys.AddFile(file2);
List <AbstractFile> list = newSys.EndEditing();
StorageAlgorithms algorithm = new StorageAlgorithms();
var pointInfo1 = algorithm.SeparateBackup(list, Type.Full);
var pointInfo2 = algorithm.SeparateBackup(list, Type.Full);
RestoreSystem newChain = new RestoreSystem();
newChain.AddPoint(pointInfo1);
newChain.AddPoint(pointInfo2);
ICleaningPoints Clean = new CleanBySize(250);
Clean.StartClean(newChain.Points); //Не совсем понимаю почему должен остаться один бекап если мы закидываем два FULL Backup(каждый по 200мб), то теоретически мы их можем удалять без последствий и удалим каждый с весом >150
Assert.AreEqual(1, newChain.ShowRestorePoints().Count);
}
public async Task Rename(string path, AbstractFile file)
{
using (NewFolderForm CrtFldrFrm = new NewFolderForm())
{
if (file.Type() == FileDir.File)
{
ConcreteFile CurrentFile = (ConcreteFile)file;
CrtFldrFrm.SetItemName(CurrentFile.FileName);
CrtFldrFrm.ShowDialog();
if (CrtFldrFrm.DialogResult == DialogResult.OK)
{
await client.Files.MoveAsync(new RelocationArg(CurrentFile.FilePath, path + "/" + CrtFldrFrm.FolderName));
}
}
if (file.Type() == FileDir.Folder)
{
ConcreteFolder CurrentFile = (ConcreteFolder)file;
CrtFldrFrm.SetItemName(CurrentFile.FolderName);
CrtFldrFrm.ShowDialog();
if (CrtFldrFrm.DialogResult == DialogResult.OK)
{
await client.Files.MoveAsync(new RelocationArg(CurrentFile.FolderPath, path + "/" + CrtFldrFrm.FolderName));
}
}
}
}
private static ZipArchive CreateZipArchive(AbstractFile zipFile)
{
// Now that the file does not exist, we can create a new zip file.
ZipArchive archive = new ZipArchive(zipFile);
archive.DefaultCompressionMethod = DefaultCompressionMethod;
archive.DefaultCompressionLevel = DefaultCompressionLevel;
return(archive);
}
/// <summary>
/// 上传文件
/// </summary>
/// <param name="ftpAddress"></param>
/// <param name="remoteFilename"></param>
/// <param name="localFilename"></param>
/// <param name="resumeOperation"></param>
public bool UploadFile(string ftpAddress, string localFilename, string remoteFilename, bool resumeOperation)
{
FtpSiteData siteData = ParseFtpAddress(ftpAddress);
if (siteData == null)
{
throw new ArgumentException("Invalid ftp address format!");
}
using (FtpConnection connection = new FtpConnection(siteData.Host, siteData.Port, siteData.UserName, siteData.Password))
{
SetConnection(connection);
AbstractFolder remoteFolder = new FtpFolder(connection);
AbstractFile remoteFile = remoteFolder.GetFile(remoteFilename);
AbstractFile localFile = new DiskFile(localFilename);
if (!resumeOperation || !remoteFile.Exists || remoteFile.Size > localFile.Size)
{
localFile.CopyTo(remoteFile, true);
}
else if (remoteFile.Size == localFile.Size)
{
return(true);
}
else if (remoteFile.Size < localFile.Size)
{
byte[] buf = new byte[1024];
int cnt = -1;
using (System.IO.Stream remoteStream = remoteFile.OpenWrite(false))
{
using (System.IO.Stream localStream = localFile.OpenRead())
{
localStream.Seek(remoteFile.Size, System.IO.SeekOrigin.Begin);
// can't seek. OpenWrite如果不overwrite自动append
//remoteStream.Seek(0, System.IO.SeekOrigin.End);
do
{
cnt = localStream.Read(buf, 0, buf.Length);
remoteStream.Write(buf, 0, cnt);
} while (cnt == buf.Length);
}
}
}
return(true);
}
//FtpClient client = LoginFtp(ftpAddress);
//client.SendFile(localFilename, remoteFilename);
}
public AbstractFile GetNew(FileDir type)
{
AbstractFile Result = null;
switch (type)
{
case FileDir.File: Result = new ConcreteFile(); break;
case FileDir.Folder: Result = new ConcreteFolder(); break;
}
return(Result);
}
TreeNode CreateVirtualFileNode(AbstractFile f, TreeNode parent)
{
TreeNode node = new TreeNode();
node.ImageKey = "FileForm";
node.SelectedImageKey = node.ImageKey;
node.Tag = f;
node.Name = f.filename;
node.Text = f.ToString();
if (f.IsSubfileProvider)
{
node.Nodes.Add(CreateDummyNode());
}
parent.Nodes.Add(node);
return(node);
}
public void Test3() //Тест на раздельное хранение. Узнаём что все файлы дошли до конца.
{
FileManager newSys = new FileManager();
DateTime date1 = new DateTime(2019, 7, 20, 18, 30, 25);
AbstractFile file1 = new AbstractFile("Test1", 100, date1);
AbstractFile file2 = new AbstractFile("Test2", 100, date1);
newSys.AddFile(file1);
newSys.AddFile(file2);
List <AbstractFile> list = newSys.EndEditing();
StorageAlgorithms algorithm = new StorageAlgorithms();
var pointInfo1 = algorithm.SeparateBackup(list, Type.Full);
RestoreSystem newChain = new RestoreSystem();
newChain.AddPoint(pointInfo1);
List <FileRestoreCopyInfo> restoredFiles = newChain.ShowRestoreFiles(1);
Assert.AreEqual(2, restoredFiles.Count);
}
public void Test4()
{
FileManager newSys = new FileManager();
DateTime date1 = new DateTime(2019, 7, 20, 18, 30, 25);
AbstractFile file1 = new AbstractFile("Test1", 100, date1);
AbstractFile file2 = new AbstractFile("Test2", 100, date1);
newSys.AddFile(file1);
newSys.AddFile(file2);
List <AbstractFile> list = newSys.EndEditing();
StorageAlgorithms algorithm = new StorageAlgorithms();
var pointInfo1 = algorithm.SeparateBackup(list, Type.Full);
RestoreSystem newChain = new RestoreSystem();
newChain.AddPoint(pointInfo1);
List <RestorePoint> restoredFiles = newChain.ShowRestorePoints();
Assert.AreEqual(200, restoredFiles[0].BackupSize);
}
public static bool loadModelFromArchive(string filename, AbstractFolder folder)
{
AbstractFile file = folder.GetFile(filename);
if (!file.Exists)
{
return(false);
}
ModelContainer model = new ModelContainer();
model.mGR2Name = filename;
{
//Since granny is unmanaged, we have to allocate a contiguous block of memory for this
Stream stream = file.OpenRead();
BinaryReader br = new BinaryReader(stream);
byte[] fullFule = br.ReadBytes((int)file.Size);
br.Close();
stream.Close();
IntPtr pMarshaledIndexMem = System.Runtime.InteropServices.Marshal.AllocHGlobal(fullFule.Length);
System.Runtime.InteropServices.Marshal.Copy(fullFule, 0, pMarshaledIndexMem, fullFule.Length);
model.mVisualModel = GrannyBridge.LoadGR2FromIntPtr(pMarshaledIndexMem, fullFule.Length);
System.Runtime.InteropServices.Marshal.FreeHGlobal(pMarshaledIndexMem);
}
mModels.Add(model);
return(true);
}
/// <summary>
/// Reads a session archive zip file into an array of Session objects
/// </summary>
/// <param name="sFilename">Filename to load</param>
/// <param name="bVerboseDialogs"></param>
/// <returns>Loaded array of sessions or null, in case of failure</returns>
private static Session[] ReadSessionArchive(string sFilename, bool bVerboseDialogs)
{
/* Okay, given the zip, we gotta:
* Unzip
* Find all matching pairs of request, response
* Create new Session object for each pair
*/
if (!File.Exists(sFilename))
{
FiddlerApplication.Log.LogString("SAZFormat> ReadSessionArchive Failed. File " + sFilename + " does not exist.");
return(null);
}
ZipArchive oZip = null;
List <Session> outSessions = new List <Session>();
try
{
// Sniff for ZIP file.
FileStream oSniff = File.Open(sFilename, FileMode.Open, FileAccess.Read, FileShare.Read);
if (oSniff.Length < 64 || oSniff.ReadByte() != 0x50 || oSniff.ReadByte() != 0x4B)
{ // Sniff for 'PK'
FiddlerApplication.Log.LogString("SAZFormat> ReadSessionArchive Failed. " + sFilename + " is not a Fiddler-generated .SAZ archive of HTTP Sessions.");
oSniff.Close();
return(null);
}
oSniff.Close();
oZip = new ZipArchive(new DiskFile(sFilename));
oZip.BeginUpdate();
AbstractFolder oRaw = oZip.GetFolder("raw");
if (!oRaw.Exists)
{
FiddlerApplication.Log.LogString("SAZFormat> ReadSessionArchive Failed. The selected ZIP is not a Fiddler-generated .SAZ archive of HTTP Sessions.");
oZip.EndUpdate();
return(null);
}
foreach (AbstractFile oRequestFile in oRaw.GetFiles(true, @"*_c.txt"))
{
try
{
byte[] arrRequest = new byte[oRequestFile.Size];
Stream oFS;
RetryWithPassword:
try
{
oFS = oRequestFile.OpenRead(FileShare.Read);
}
catch (Xceed.Zip.InvalidDecryptionPasswordException)
{
Console.Write("Password-Protected Session Archive.\nEnter the password to decrypt, or enter nothing to abort opening.\n>");
string sPassword = Console.ReadLine();
if (sPassword != String.Empty)
{
oZip.DefaultDecryptionPassword = sPassword;
goto RetryWithPassword;
}
return(null);
}
int iRead = Utilities.ReadEntireStream(oFS, arrRequest);
oFS.Close();
Debug.Assert(iRead == arrRequest.Length, "Failed to read entire request.");
AbstractFile oResponseFile = oRaw.GetFile(oRequestFile.Name.Replace("_c.txt", "_s.txt"));
if (!oResponseFile.Exists)
{
FiddlerApplication.Log.LogString("Could not find a server response for: " + oResponseFile.FullName);
continue;
}
byte[] arrResponse = new byte[oResponseFile.Size];
oFS = oResponseFile.OpenRead();
iRead = Utilities.ReadEntireStream(oFS, arrResponse);
oFS.Close();
Debug.Assert(iRead == arrResponse.Length, "Failed to read entire response.");
oResponseFile = oRaw.GetFile(oRequestFile.Name.Replace("_c.txt", "_m.xml"));
Session oSession = new Session(arrRequest, arrResponse);
if (oResponseFile.Exists)
{
oSession.LoadMetadata(oResponseFile.OpenRead());
}
oSession.oFlags["x-LoadedFrom"] = oRequestFile.Name.Replace("_c.txt", "_s.txt");
outSessions.Add(oSession);
}
catch (Exception eX)
{
FiddlerApplication.Log.LogString("SAZFormat> ReadSessionArchive incomplete. Invalid data was present in session: " + oRequestFile.FullName + ".\n\n\n" + eX.Message + "\n" + eX.StackTrace);
}
}
}
catch (Exception eX)
{
FiddlerApplication.ReportException(eX, "ReadSessionArchive Error");
return(null);
}
if (null != oZip)
{
oZip.EndUpdate();
oZip = null;
}
return(outSessions.ToArray());
}
public override void Remove(AbstractFile file)
{
System.Console.WriteLine("Not Supported!");
}
public bool SaveData(string fileName, bool overwrite, bool checkReadOnly)
{
try
{
using (PerfSection p = new PerfSection("SaveData() " + Path.GetFileName(fileName)))
{
if (File.Exists(fileName))
{
if (!overwrite)
{
return(false);
}
if (checkReadOnly && File.GetAttributes(fileName) == FileAttributes.ReadOnly)
{
return(false);
}
File.SetAttributes(fileName, FileAttributes.Normal);
File.Delete(fileName);
}
DiskFile zipFile = new DiskFile(fileName);
zipFile.Create();
if (!zipFile.Exists)
{
return(false);
}
ZipArchive zip = new ZipArchive(zipFile);
Dictionary <string, IDataStream> .Enumerator it = mStreams.GetEnumerator();
while (it.MoveNext() != false)
{
AbstractFile md = zip.CreateFile(it.Current.Key, true);
Stream s = md.OpenWrite(true);
BufferedStream bs = null;
if (CoreGlobals.OutOfMemory == false)
{
bs = new BufferedStream(s, 10000000); //~10mb buffer
it.Current.Value.Save(bs);
}
else
{
it.Current.Value.Save(s);
}
if (bs != null)
{
bs.Flush();
bs.Close();
}
else
{
s.Close();
}
}
}
return(true);
}
catch (System.Exception ex)
{
CoreGlobals.FatalEdDataSaveError = true;
throw ex;
}
return(false);
}
bool loadModelsSet(ZipArchive zip)
{
AbstractFile file = zip.GetFile("modelPositions.xml");
if (!file.Exists)
{
return(false);
}
SceneObjectsXML objectsXLM = new SceneObjectsXML();
Stream stream = null;
try
{
stream = file.OpenRead();
XmlSerializer s = new XmlSerializer(typeof(SceneObjectsXML), new Type[] { });
objectsXLM = (SceneObjectsXML)s.Deserialize(stream);
stream.Close();
}
catch (Exception e)
{
if (stream != null)
{
stream.Close();
}
Console.ForegroundColor = ConsoleColor.Red;
Console.WriteLine("Error serializing the modelPositions.xml file");
Console.ForegroundColor = ConsoleColor.White;
return(false);
}
try
{
AbstractFolder fold = zip.GetFolder("models");
for (int modelIdx = 0; modelIdx < objectsXLM.objectGR2Names.Count; modelIdx++)
{
if (!ModelManager.loadModelFromDisk(TerrainGlobals.mGameDir + objectsXLM.objectGR2Names[modelIdx]))
{
// if(!ModelManager.loadModelFromArchive(objectsXLM.objectGR2Names[modelIdx], fold))
Console.WriteLine("Error loading model " + objectsXLM.objectGR2Names[modelIdx]);
}
}
for (int instIdx = 0; instIdx < objectsXLM.objectinstances.Count; instIdx++)
{
Matrix orient = objectsXLM.objectinstances[instIdx].getMatrix();
ModelManager.addInstance(TerrainGlobals.mGameDir + objectsXLM.objectinstances[instIdx].GR2Filename, orient);
}
ModelManager.calcModelInstanceBuffers();
if (objectsXLM.aabbmin != null)
{
ModelManager.mAABBMin = Vec3FromString(objectsXLM.aabbmin);
}
if (objectsXLM.aabbmax != null)
{
ModelManager.mAABBMax = Vec3FromString(objectsXLM.aabbmax);
}
}
catch (Exception e)
{
Console.ForegroundColor = ConsoleColor.Red;
Console.WriteLine("Error loading gr2 model data from source file");
Console.ForegroundColor = ConsoleColor.White;
return(false);
}
return(true);
}
public abstract void Remove(AbstractFile file);
public override void Delete(AbstractFile file)
{
throw new NotImplementedException();
}
void writeTempModelsToZip(ZipArchive zip)
{
SceneObjectsXML sceneObjects = new SceneObjectsXML();
BBoundingBox objectAABB = new BBoundingBox();
objectAABB.empty();
string baseDir = CoreGlobals.getWorkPaths().mGameDirectory;
if (mIncludeObjects)
{
//searalize an XML file to memorystream holding position and model names
List <EditorObject> editObjs = SimGlobals.getSimMain().getEditorObjects(false, SimMain.eFilterTypes.cFilterAll, -1, false);
for (int objIdx = 0; objIdx < editObjs.Count; objIdx++)
{
if (editObjs[objIdx] == null)
{
continue;
}
if (editObjs[objIdx].GetType() == typeof(SimObject))
{
SimObject obj = editObjs[objIdx] as SimObject;
if (obj.IgnoreToAO)
{
continue;
}
if (obj != null && obj.ProtoObject != null)
{
string grannyName = obj.ProtoObject.getGrannyFileName();
if (grannyName == "")
{
continue;
}
if (grannyName.Contains(baseDir))
{
grannyName = grannyName.Remove(0, baseDir.Length);
}
//if this GR2 isn't already listed, then list it.
if (!sceneObjects.objectGR2Names.Contains(grannyName))
{
sceneObjects.objectGR2Names.Add(grannyName);
}
//add our instance
ObjectInstanceXML inst = new ObjectInstanceXML();
inst.GR2Filename = grannyName;
inst.setOrientation(obj.getMatrix());
sceneObjects.objectinstances.Add(inst);
//add our transformed BB to the global BB list
if (obj != null && obj.mVisual != null)
{
if (!obj.IgnoreToAO)
{
objectAABB.addPoint(obj.mAABB.max + obj.getPosition());
objectAABB.addPoint(obj.mAABB.min + obj.getPosition());
}
}
}
}
}
sceneObjects.aabbmin = TextVectorHelper.ToString(objectAABB.min);
sceneObjects.aabbmax = TextVectorHelper.ToString(objectAABB.max);
}
//write it to an XML stream
AbstractFile md = zip.CreateFile("modelPositions.xml", true);
Stream stream = md.OpenWrite(true);
XmlSerializer s = new XmlSerializer(typeof(SceneObjectsXML), new Type[] { });
s.Serialize(stream, sceneObjects);
stream.Close();
//Create a folder and copy our GR2s into it
//AbstractFolder fold = zip.CreateFolder("models");
//if (mIncludeObjects)
//{
// for (int modelIdx = 0; modelIdx < sceneObjects.objectGR2Names.Count; modelIdx++)
// {
// if (mWorkerThread.CancellationPending)
// return;
// try
// {
// if (fullGR2Names[modelIdx] == "")
// continue;
// DiskFile modelFile = new DiskFile(fullGR2Names[modelIdx]);
// modelFile.CopyTo(fold, true);
// }
// catch (Exception e)
// {
// continue;
// }
// }
//}
}
public void Test5()//комбинируем дату и количество (должны выполняться все условия)
{
FileManager newSys = new FileManager();
DateTime date1 = new DateTime(2019, 7, 20, 18, 30, 25);
DateTime date2 = new DateTime(2020, 10, 20, 12, 30, 30);
AbstractFile file1 = new AbstractFile("Test1", 100, date1);
AbstractFile file2 = new AbstractFile("Test2", 100, date1);
AbstractFile file3 = new AbstractFile("Test3", 100, date1);
AbstractFile file4 = new AbstractFile("Test1_a", 100, date2);
AbstractFile file5 = new AbstractFile("Test2_a", 100, date2);
AbstractFile file6 = new AbstractFile("Test3_a", 100, date2);
newSys.AddFile(file1);
newSys.AddFile(file2);
newSys.AddFile(file3);
List <AbstractFile> list = newSys.EndEditing();
StorageAlgorithms algorithm = new StorageAlgorithms();
RestoreSystem newChain = new RestoreSystem();
var pointInfo1 = algorithm.SeparateBackup(list, Type.Full);
newChain.AddPoint(pointInfo1);
newSys.DelFile(2);
var pointInfo2 = algorithm.SeparateBackup(list, Type.Incremental);
newChain.AddPoint(pointInfo2);
newSys.DelFile(0);
newSys.DelFile(0);
newSys.AddFile(file4);
newSys.AddFile(file5);
newSys.AddFile(file6);
List <AbstractFile> list1 = newSys.EndEditing();
Thread.Sleep(5000);
DateTime maxDate = DateTime.Now;
Thread.Sleep(10000);
var pointInfo3 = algorithm.SeparateBackup(list1, Type.Full);
newChain.AddPoint(pointInfo3);
var pointInfo4 = algorithm.SeparateBackup(list1, Type.Incremental);
newChain.AddPoint(pointInfo4);
var pointInfo5 = algorithm.SeparateBackup(list1, Type.Incremental);
newChain.AddPoint(pointInfo5);
var pointInfo6 = algorithm.SeparateBackup(list1, Type.Full);
newChain.AddPoint(pointInfo6);
var pointInfo7 = algorithm.SeparateBackup(list1, Type.Incremental);
newChain.AddPoint(pointInfo7);
var pointInfo8 = algorithm.SeparateBackup(list1, Type.Incremental);
newChain.AddPoint(pointInfo8);
List <ICleaningPoints> Hybrid1 = new List <ICleaningPoints>();
ICleaningPoints cleanByPoints = new CleanByPoints(3);
ICleaningPoints CleanByDate = new CleanByDate(maxDate);
Hybrid1.Add(cleanByPoints);
Hybrid1.Add(CleanByDate);
ICleaningPoints HybrydAllTerm = new HybridCleanAllTerm(Hybrid1);
HybrydAllTerm.StartClean(newChain.Points);
Assert.AreEqual(6, newChain.ShowRestorePoints().Count);
}
TreeNode CreateVirtualFileNode(AbstractFile f, TreeNode parent)
{
TreeNode node = new TreeNode();
node.ImageKey = "FileForm";
node.SelectedImageKey = node.ImageKey;
node.Tag = f;
node.Name = f.filename;
node.Text = f.ToString();
if (f.IsSubfileProvider)
node.Nodes.Add(CreateDummyNode());
parent.Nodes.Add(node);
return node;
}
private static ZipArchive CreateZipArchive(AbstractFile zipFile)
{
// Now that the file does not exist, we can create a new zip file.
ZipArchive archive = new ZipArchive(zipFile);
archive.DefaultCompressionMethod = DefaultCompressionMethod;
archive.DefaultCompressionLevel = DefaultCompressionLevel;
return archive;
}
public Task Rename(string path, AbstractFile file)
{
throw new NotImplementedException();
}
bool loadTerrainDat(ZipArchive zip)
{
AbstractFile file = zip.GetFile("terrain.TDL");
if (!file.Exists)
{
return(false);
}
try
{
Stream stream = file.OpenRead();
BinaryReader br = new BinaryReader(stream);
TLDHeader header = new TLDHeader();
header.Version = br.ReadInt32();
//TERRAIN DATA
TerrainGlobals.getTerrain().mNumXVerts = br.ReadUInt32();
TerrainGlobals.getTerrain().mNumZVerts = br.ReadUInt32();
TerrainGlobals.getTerrain().mTileScale = br.ReadSingle();
TerrainGlobals.getTerrain().mTerrainBBMin = new Vector3();
TerrainGlobals.getTerrain().mTerrainBBMin.X = br.ReadSingle();
TerrainGlobals.getTerrain().mTerrainBBMin.Y = br.ReadSingle();
TerrainGlobals.getTerrain().mTerrainBBMin.Z = br.ReadSingle();
TerrainGlobals.getTerrain().mTerrainBBMax = new Vector3();
TerrainGlobals.getTerrain().mTerrainBBMax.X = br.ReadSingle();
TerrainGlobals.getTerrain().mTerrainBBMax.Y = br.ReadSingle();
TerrainGlobals.getTerrain().mTerrainBBMax.Z = br.ReadSingle();
TerrainGlobals.getTerrain().mTerrainRelativePositions = new Vector3[TerrainGlobals.getTerrain().mNumXVerts *TerrainGlobals.getTerrain().mNumZVerts];
TerrainGlobals.getTerrain().mTerrainNormals = new Vector3[TerrainGlobals.getTerrain().mNumXVerts *TerrainGlobals.getTerrain().mNumZVerts];
TerrainGlobals.getTerrain().mTerrainAOVals = new float[TerrainGlobals.getTerrain().mNumXVerts *TerrainGlobals.getTerrain().mNumZVerts];
//start reading terrain data
for (int i = 0; i < TerrainGlobals.getTerrain().mNumXVerts *TerrainGlobals.getTerrain().mNumZVerts; i++)
{
TerrainGlobals.getTerrain().mTerrainRelativePositions[i] = new Vector3();
TerrainGlobals.getTerrain().mTerrainRelativePositions[i].X = br.ReadSingle();
TerrainGlobals.getTerrain().mTerrainRelativePositions[i].Y = br.ReadSingle();
TerrainGlobals.getTerrain().mTerrainRelativePositions[i].Z = br.ReadSingle();
}
for (int i = 0; i < TerrainGlobals.getTerrain().mNumXVerts *TerrainGlobals.getTerrain().mNumZVerts; i++)
{
TerrainGlobals.getTerrain().mTerrainNormals[i] = new Vector3();
TerrainGlobals.getTerrain().mTerrainNormals[i].X = br.ReadSingle();
TerrainGlobals.getTerrain().mTerrainNormals[i].Y = br.ReadSingle();
TerrainGlobals.getTerrain().mTerrainNormals[i].Z = br.ReadSingle();
}
//Read our quadNode Descriptions
int numQuadNodes = br.ReadInt32();
TerrainGlobals.getTerrain().mQuadNodeDescArray = new BTerrainQuadNodeDesc[numQuadNodes];
for (int i = 0; i < numQuadNodes; i++)
{
TerrainGlobals.getTerrain().mQuadNodeDescArray[i] = new BTerrainQuadNodeDesc();
TerrainGlobals.getTerrain().mQuadNodeDescArray[i].mMinXVert = br.ReadInt32();
TerrainGlobals.getTerrain().mQuadNodeDescArray[i].mMinZVert = br.ReadInt32();
}
br.Close();
stream.Close();
}
catch (Exception e)
{
Console.WriteLine("TDL loading FAILED!!!");
return(false);
}
return(true);
}
public abstract void add(AbstractFile element);
public abstract void Add(AbstractFile file);
public abstract void remove(AbstractFile element);
public void Test6()//комбинируем количество и размер (должно выполняться одно из условий )
{
FileManager newSys = new FileManager();
DateTime date1 = new DateTime(2019, 7, 20, 18, 30, 25);
DateTime date2 = new DateTime(2020, 10, 20, 12, 30, 30);
AbstractFile file1 = new AbstractFile("Test1", 100, date1);
AbstractFile file2 = new AbstractFile("Test2", 100, date1);
AbstractFile file3 = new AbstractFile("Test3", 100, date1);
AbstractFile file4 = new AbstractFile("Test1_a", 100, date2);
AbstractFile file5 = new AbstractFile("Test2_a", 100, date2);
AbstractFile file6 = new AbstractFile("Test3_a", 100, date2);
newSys.AddFile(file1);
newSys.AddFile(file2);
newSys.AddFile(file3);
List <AbstractFile> list = newSys.EndEditing();
StorageAlgorithms algorithm = new StorageAlgorithms();
RestoreSystem newChain = new RestoreSystem();
var pointInfo1 = algorithm.SeparateBackup(list, Type.Full);
newChain.AddPoint(pointInfo1);
newSys.DelFile(2);
var pointInfo2 = algorithm.SeparateBackup(list, Type.Incremental);
newChain.AddPoint(pointInfo2);
newSys.DelFile(0);
newSys.DelFile(0);
newSys.AddFile(file4);
newSys.AddFile(file5);
newSys.AddFile(file6);
List <AbstractFile> list1 = newSys.EndEditing();
var pointInfo3 = algorithm.SeparateBackup(list1, Type.Full);
newChain.AddPoint(pointInfo3);
var pointInfo4 = algorithm.SeparateBackup(list1, Type.Incremental);
newChain.AddPoint(pointInfo4);
var pointInfo5 = algorithm.SeparateBackup(list1, Type.Incremental);
newChain.AddPoint(pointInfo5);
var pointInfo6 = algorithm.SeparateBackup(list1, Type.Full);
newChain.AddPoint(pointInfo6);
var pointInfo7 = algorithm.SeparateBackup(list1, Type.Incremental);
newChain.AddPoint(pointInfo7);
var pointInfo8 = algorithm.SeparateBackup(list1, Type.Incremental);
newChain.AddPoint(pointInfo8);
List <ICleaningPoints> Hybrid2 = new List <ICleaningPoints>();
ICleaningPoints cleanByPoints = new CleanByPoints(4);
ICleaningPoints cleanBySize = new CleanBySize(2000);
Hybrid2.Add(cleanBySize);
Hybrid2.Add(cleanByPoints);
ICleaningPoints CleanByOneTerm = new HybridCleanOneTerm(Hybrid2);
CleanByOneTerm.StartClean(newChain.Points);
Assert.AreEqual(6, newChain.ShowRestorePoints().Count);
}
