/// <summary>
/// Create data file accessor instance.
/// </summary>
/// <param name="folder">
/// Data folder containig the file.
/// </param>
/// <param name="file">
/// Data file to be accessed; may not exist on disk.
/// </param>
/// <returns>
/// New <see cref="IDataFileAccessor"/> instance.
/// </returns>
public IDataFileAccessor GetDataFileAccessor(IDataFolder folder, IRepositoryFileName file)
{
Check.DoRequireArgumentNotNull(folder, "folder");
Check.DoRequireArgumentNotNull(file, "file");
RepositoryFolder.CheckNotDetached(folder.RepoFolder);
return(new RepositoryFileAccessor(folder, file));
}
/// <summary>
/// Create new instance.
/// </summary>
/// <param name="containingFolder">
/// Leaf data folder object reference, mandatory.
/// </param>
/// <param name="fileName">
/// Object representing data file name, optional.
/// </param>
public RepositoryFile(IDataFolder containingFolder, IRepositoryFileName fileName)
{
Check.DoRequireArgumentNotNull(containingFolder, "containingFolder");
RepositoryFolder.CheckNotDetached(containingFolder.RepoFolder);
ContainingFolder = containingFolder;
Name = fileName;
}
public RaceJsonRepository(IDataFolder dataFolder)
{
this.dataFolder = dataFolder;
this.mutex = new ReaderWriterLockSlim();
this.serializer = JsonSerializer.CreateDefault();
this.serializer.Converters.Add(new SexJsonConverter());
this.raceData = null;
}
/// <summary>
/// Discarding changes if dirty. Call <see cref="Flush"/> to save changes.
/// </summary>
public void Close()
{
FirstItemTimestamp = DateTime.MaxValue;
LastItemTimestamp = DateTime.MinValue;
_existinglFilePath = null;
_dataItems = null;
_dataFolder = null;
_repoFile = null;
}
/// <summary>
/// Create accessor for a file and retrieve compressor from repository's
/// object factory by the file extension
/// </summary>
/// <param name="folder">
/// Containing repo folder
/// </param>
/// <param name="repoFile">
/// Target data file, optional.
/// </param>
/// <param name="dataFolder">
/// Leaf data folder containing <paramref name="repoFile"/>
/// </param>
/// <param name="equalTimestampedItemsComparer">
/// Comparer for data items with equal timestamps, optional.
/// </param>
internal RepositoryFileAccessor(
IFolder folder
, IRepositoryFileName repoFile
, IDataFolder dataFolder
, IComparer <IDataItem> equalTimestampedItemsComparer)
: this(dataFolder, repoFile
, folder.Repository.ObjectFactory.GetCompressor(repoFile.CompressorCode)
, equalTimestampedItemsComparer)
{
}
public AthletesJsonRepository(IDataFolder dataFolder)
{
this.dataFolder = dataFolder;
this.mutex = new ReaderWriterLockSlim();
this.allAthletesIds = null;
this.individualAthletes = new Dictionary <string, Athlete>();
this.serializer = JsonSerializer.CreateDefault();
this.serializer.Converters.Add(new SexJsonConverter());
this.serializer.Converters.Add(new CardResultJsonConverter());
}
public JudgesJsonRepository(IDataFolder dataFolder)
{
this.dataFolder = dataFolder;
this.mutex = new ReaderWriterLockSlim();
this.isLoaded = false;
this.judgesById = new Dictionary <string, Judge>();
this.devicesById = new Dictionary <string, JudgeDevice>();
this.devicesByConnectCode = new Dictionary <string, JudgeDevice>();
this.authenticationMap = new Dictionary <string, string>();
this.serializer = JsonSerializer.CreateDefault();
}
/// <summary>
/// Find a place for data item with the specified timestamp
/// </summary>
/// <exception cref="System.IO.FileNotFoundException">
/// File found in the data file container was not found on disk, by virtue of <see cref="RepositoryFileAccessor.ReadFromFile"/>.
/// Possible concurrent update; better shut down.
/// </exception>
private void Seek(DateTime seekTimestamp)
{
if (null == _currentFolder ||
!IsCovering(_currentFolder, seekTimestamp))
{
// need to change current leaf data folder
_currentFolder = _targetFolder.RootDataFolder.GetLeafFolder(seekTimestamp, true);
}
IRepositoryFileName targetFile;
IRepositoryFileName predecessor;
IRepositoryFileName successor;
_currentFolder.DataFileBrowser.GetDataFiles(seekTimestamp, out predecessor, out targetFile, out successor);
bool openingExistingFile = targetFile != null;
if (!openingExistingFile)
{
// new file needed
targetFile = _targetFolder.Repository.ObjectFactory.CreateNewFile(_targetFolder);
}
_currentAccessor = GetAccessor(targetFile);
if (openingExistingFile)
{
// will throw exception if file was not found or failed to read
_currentAccessor.ReadFromFile();
}
_currentAccessor.Encryptor = this.Encryptor;
// set timestamp limits
if (null != predecessor)
{
_currentAccessor.MinTimestampToAccept = predecessor.LastItemTimestamp.AddTicks(1);
}
else
{
_currentAccessor.MinTimestampToAccept = _currentFolder.Start;
}
if (null != successor)
{
_currentAccessor.MaxTimestampToAccept = successor.FirstItemTimestamp.AddTicks(-1);
}
else
{
_currentAccessor.MaxTimestampToAccept = _currentFolder.End.AddTicks(-1);
}
Check.Ensure(null != _currentAccessor);
}
/// <summary>
/// Get child data folder which next to the specified child folder.
/// </summary>
/// <param name="childFolder">
/// The child folder which neighbour to find
/// </param>
/// <param name="backwards">
/// Whether to find next folder older than the <paramref name="childFolder"/> (<see langword="true"/>)
/// or newer (<see langword="false"/>). Older means smaller timestamp.
/// </param>
/// <returns>
/// Existing data folder which is a child of this data folder or <see langword="null"/> if the sought data folder
/// does not exist.
/// </returns>
public IDataFolder GetNextChild(IDataFolder childFolder, bool backwards)
{
LoadSubFolders(false);
if (backwards)
{
return(_childDataFolders.GetPredecessor(childFolder.Start));
}
else
{
// GetSuccessor accepts item key, adjusting End as it's exclusive
return(_childDataFolders.GetSuccessor(childFolder.End.AddTicks(-1)));
}
}
/// <summary>
/// Read the list of immediately contained subfolders
/// from disk.
/// For leaf folders does nothing.
/// </summary>
/// <param name="reloadIfLoaded"></param>
public void LoadSubFolders(bool reloadIfLoaded)
{
Invariant();
if (!this.IsLeafFolder)
{
if (!this.SubfoldersLoaded || reloadIfLoaded)
{
_log.DebugFormat("LoadSubFolders: Scanning <{0}> for subfolders", RelativePath);
// in the year-month scheme this will be year or root data folder
// i.e. _repoFolder.DataFoldersExplorer will be parent at most
// note that current implementation requires this to be a child
// how will it be affected with the addition of another level?
// it will not be valid; need to make it more explicit; there's coupling between DataFolder and folder traits
// or, if I add more levels I will need to lift the limitation in DataFoldersExplorer implementation
List <IRepoFileContainerDescriptor> subFolders = _repoFolder.DataFoldersExplorer.Enumerate(_folderDescriptor, this.Level - 1);
IIndexedRangeCollection <DateTime, IDataFolder> oldList = _childDataFolders;
_childDataFolders = new IndexedRangeTreeDictionary <DateTime, IDataFolder>(f => f.Start, f => f.End);
foreach (IRepoFileContainerDescriptor descr in subFolders)
{
_log.DebugFormat("Found subfolder {0}", descr.ToString());
IDataFolder newSubFolder = null;
if (null != oldList)
{
newSubFolder = oldList.GetExact(descr.Start);
}
if (null == newSubFolder)
{
newSubFolder = new DataFolder(this, descr);
_log.Debug("The found subfolder was not in the list");
}
else
{
_log.Debug("The subfolder was already in the list");
}
_childDataFolders.Add(newSubFolder);
}
}
}
else
{
_log.Debug("LoadSubFolders called for leaf folder");
}
}
/// <summary>
/// Get first (chronologically) descendant at the specified level
/// </summary>
/// <param name="level">
/// Level at which to find descendant. Must point to a descendant (i.e. be less than <code>this.Level</code> and greater or
/// equal to zero (which is leaf level).
/// </param>
/// <param name="backwards">
/// Whether to find oldest (<see langword="false"/>) or newest (<see langword="true"/>) descendant.
/// </param>
/// <returns>
/// First descendant at <paramref name="level"/> or <see langword="null"/> if none exists.
/// </returns>
public IDataFolder GetFirstDescendant(int level, bool backwards)
{
RequireDescendant(level);
IDataFolder descendant = GetFirstChildFolder(backwards);
if (descendant != null && level < (this.Level - 1))
{
descendant = descendant.GetFirstDescendant(level, backwards);
}
else if (level == (this.Level - 1))
{
// reached target level
return(descendant);
}
return(null);
}
/// <summary>
/// Get first (chronologically) descendant at the specified level
/// </summary>
/// <param name="dataTimestamp">
/// The start of the time period (inclusive) for which to find covering data folder
/// </param>
/// <param name="level">
/// Level at which to find descendant. Must point to a descendant (i.e. be less than <code>this.Level</code> and greater or
/// equal to zero (which is leaf level).
/// </param>
/// <param name="backwards">
/// The direction in which the time period goes from <paramref name="dataTimestamp"/>
/// </param>
/// <returns>
/// First descendant at <paramref name="level"/> or <see langword="null"/> if none exists.
/// </returns>
/// <remarks>
/// For example GetFirstDescendant(DateTime.Now, 1, true) will find first existing descendant at level 1
/// which covers time starting from now and going to the past.
/// </remarks>
public IDataFolder GetFirstDescendant(DateTime dataTimestamp, int level, bool backwards)
{
RequireDescendant(level);
Check.RequireLambda(dataTimestamp >= this.Start && dataTimestamp <= this.End
, () => new ArgumentException("The timestamp is outside of the range of the folder", "dataTimestamp"));
if (IsChild(level))
{
return(GetFirstChildFolder(dataTimestamp, backwards));
}
IDataFolder retval = null;
var enumerator = GetSubfoldersSequence(dataTimestamp, backwards).GetEnumerator();
if (enumerator.MoveNext())
{
if (IsCovering(enumerator.Current, dataTimestamp))
{
// enumerator.Current is the "owner"
retval = enumerator.Current.GetFirstDescendant(dataTimestamp, level, backwards);
}
else
{
// there's no owner, will look for first descendant
enumerator.Reset();
}
}
if (retval == null)
{
// enumerator will now point past any owner (covering) child folder; so no need to use (filter by) the target timestamp
// just find first descendant in those folders; need to enumerate because an existing child folder may not have any
// descendants at the target level
while (enumerator.MoveNext())
{
retval = enumerator.Current.GetFirstDescendant(level, true);
if (null != retval)
{
break;
}
}
}
return(retval);
}
/// <summary>
/// Find existing leaf data folder and [optionally] create if it is
/// missing. Primarily intended for use by writers.
/// </summary>
/// <param name="itemTimestamp">
/// The timestamp of an item for which to find the existing
/// or create new leaf folder
/// </param>
/// <returns>
/// Existing leaf folder
/// null if the folder is missing and <paramref name="createIfMissing"/>
/// is <see langword="false"/>
/// </returns>
public IDataFolder GetLeafFolder(DateTime itemTimestamp, bool createIfMissing)
{
IDataFolder retval = null;
if (this.IsLeafFolder)
{
if (this.Start <= itemTimestamp && this.End > itemTimestamp)
{
retval = this;
}
}
else // if (this.IsLeafFolder)
{
LoadSubFolders(false);
retval = _childDataFolders.GetOwner(itemTimestamp);
if (retval == null && createIfMissing)
{
// creating target subfolder; this will be a child folder of this data folder
IRepoFileContainerDescriptor descr = _repoFolder.DataFoldersExplorer.GetTargetFolder(
itemTimestamp, this.Level - 1);
retval = new DataFolder(this, descr);
retval.EnsureDirectoryExists();
_childDataFolders.Add(retval);
}
if (retval != null)
{
if (retval.Level > 0)
{
// not a leaf folder yet - drilling down all the way
retval = retval.GetLeafFolder(itemTimestamp, createIfMissing);
}
}
}
Check.Ensure(null != retval || !createIfMissing);
Check.Ensure(null == retval || retval.IsLeafFolder);
Check.Ensure(null == retval || (retval.Start <= itemTimestamp && retval.End > itemTimestamp));
return(retval);
}
/// <summary>
/// Get successor or predecessor of this folder at the same level of the folders hierarchy
/// </summary>
/// <param name="backwards">
/// <see langword="true"/> for predecessor
/// <see langword="false"/> for successor
/// </param>
/// <returns>
/// <see langword="null"/> if none exist
/// </returns>
public IDataFolder GetNextSiblingInTree(bool backwards)
{
Check.RequireLambda(!IsVirtualRoot, () => new InvalidOperationException(StorageResources.VirtualRootInvalidOperation));
IDataFolder retval = ParentDataFolder.GetNextChild(this, backwards);
if (null == retval)
{
if (!ParentDataFolder.IsVirtualRoot)
{
for (
IDataFolder nst = ParentDataFolder.GetNextSiblingInTree(backwards);
nst != null && retval == null;
nst = nst.GetNextSiblingInTree(backwards))
{
retval = nst.GetFirstChildFolder(backwards);
}
}
}
return(retval);
}
/// <summary>
///
/// </summary>
/// <param name="dataFolder">
/// Leaf data folder in which the data files will be accessed.
/// </param>
/// <param name="repoFile">
/// Target repo file, optional. New instance will be created using object factory if null is supplied.
/// </param>
/// <param name="coder">
/// Compressor instance
/// </param>
/// <param name="equalTimestampedItemsComparer">
/// Comparer to use when sorting data items for items with equal timestamps.
/// When timestamps are not equal the comparer has no effect.
/// </param>
internal RepositoryFileAccessor(
IDataFolder dataFolder
, IRepositoryFileName repoFile
, ICoder coder
, IComparer <IDataItem> equalTimestampedItemsComparer)
{
Check.DoRequireArgumentNotNull(dataFolder, "dataFolder");
Check.DoRequireArgumentNotNull(repoFile, "repoFile");
Check.DoRequireArgumentNotNull(coder, "coder");
RepositoryFolder.CheckNotDetached(dataFolder.RepoFolder);
_folder = dataFolder.RepoFolder;
_repoFile = repoFile;
_dataFolder = dataFolder;
if (_repoFile == null)
{
_repoFile = _folder.Repository.ObjectFactory.CreateNewFile(_folder);
}
this.Coder = coder;
if (repoFile.Encrypted)
{
this.Encryptor = _folder.Repository.ObjectFactory.GetEncryptor(repoFile.EncryptorCode);
}
if (_folder.Repository.ObjectFactory.FileSystemProvider.FileProvider.Exists(this.FilePath))
{
_existinglFilePath = this.FilePath;
}
else
{
_dataItems = new List <IDataItem>();
}
_isSorted = true;
this.EqualTimestampItemsComparer = equalTimestampedItemsComparer;
FirstItemTimestamp = DateTime.MaxValue;
LastItemTimestamp = DateTime.MinValue;
}
/// <summary>
/// Cut descendant folders at the specified level.
/// </summary>
/// <param name="timestamp">
/// Cutting data timesatamp
/// </param>
/// <param name="level">
/// Level at which to cut. Must point to a descendant (i.e. be less than <see cref="Level"/> and greater or equal to zero
/// (which is leaf level).
/// </param>
/// <param name="predecessor">
/// Output, the existing predecessor at <paramref name="level"/> of a folder, covering <paramref name="timestamp"/>;
/// <see langword="null"/> if none exists.
/// </param>
/// <param name="owner">
/// Output, the data folder at <paramref name="level"/>, covering <paramref name="timestamp"/>.
/// <see langword="null"/> if none exists.
/// </param>
/// <param name="successor">
/// Output, the existing successor at <paramref name="level"/> of a folder, covering <paramref name="timestamp"/>;
/// <see langword="null"/> if none exists.
/// </param>
public void CutDescendantFolders(DateTime timestamp, int level, out IDataFolder predecessor, out IDataFolder owner, out IDataFolder successor)
{
Check.RequireLambda(level >= 0 && level < this.Level, () => new InvalidOperationException(StorageResources.LevelOfDescendantRequired));
LoadSubFolders(false);
predecessor = owner = successor = null;
IDataFolder childPredecessor;
IDataFolder childOwner;
IDataFolder childSuccessor;
_childDataFolders.GetItems(timestamp, out childPredecessor, out childOwner, out childSuccessor);
if (level < (this.Level - 1))
{
// need to dig deeper
if (childOwner != null)
{
childOwner.CutDescendantFolders(timestamp, level, out predecessor, out owner, out successor);
}
// even if childOwner is found it may not be the root of the subtree containing the predecessor at the specified level
// because there may not be existing descendants at that level;
if (predecessor == null && childPredecessor != null)
{
predecessor = GetFirstDescendant(childPredecessor.End.AddTicks(-1), level, true);
}
if (successor == null && childSuccessor != null)
{
successor = GetFirstDescendant(childSuccessor.Start, level, false);
}
}
else
{
predecessor = childPredecessor;
owner = childOwner;
successor = childSuccessor;
}
}
/// <summary>
/// Get next data file in the same repo folder.
/// </summary>
/// <param name="backwards">
/// The direction in which to look for data file relative to this file: to the past or to the future
/// </param>
/// <returns>
/// Next data file or <see langword="null"/> if none exists.
/// </returns>
public IRepositoryFile GetNext(bool backwards)
{
IRepositoryFile retval = null;
IRepositoryFileName fileInSameFolder = ContainingFolder.GetNextDataFile(this.Name, backwards);
if (null != fileInSameFolder)
{
retval = new RepositoryFile(containingFolder: ContainingFolder, fileName: fileInSameFolder);
}
else
{
// scanning sibling leaf folders until first data file is found
for (
IDataFolder nextFolder = ContainingFolder.GetNextSiblingInTree(backwards);
nextFolder != null && retval == null;
nextFolder = nextFolder.GetNextSiblingInTree(backwards))
{
retval = nextFolder.FindFirstDataFile(backwards);
}
}
return(retval);
}
private static bool IsCovering(IDataFolder dataFolder, DateTime itemTimestamp)
{
return(dataFolder.Start <= itemTimestamp && dataFolder.End > itemTimestamp);
}
/// <summary>
/// Create new instance.
/// </summary>
/// <param name="folder">
/// Data folder where file will be stored.
/// </param>
/// <param name="file">
/// File name instance, optional.
/// </param>
/// <remarks>
/// If <paramref name="file"/> is not supplied new instance will be created using the object factory (<see cref="IRepository.ObjectFactory"/>).
/// Coder and encryptor will be set from the object factory as well. They may be overridden afterwards.
/// </remarks>
public RepositoryFileAccessor(IDataFolder folder, IRepositoryFileName file)
: this(folder : folder.RepoFolder, repoFile : file, dataFolder : folder, equalTimestampedItemsComparer : null)
{
}
/// <summary>
/// Real existing data folder
/// </summary>
/// <param name="parentDataFolder"></param>
/// <param name="folderDescriptor"></param>
public DataFolder(DataFolder parentDataFolder, IRepoFileContainerDescriptor folderDescriptor)
{
_parentDataFolder = parentDataFolder;
_folderDescriptor = folderDescriptor;
_repoFolder = parentDataFolder.RepoFolder;
}
public StartingListJsonRepository(IDataFolder dataFolder)
{
this.dataFolder = dataFolder;
this.mutex = new ReaderWriterLockSlim();
this.serializer = JsonSerializer.CreateDefault();
}
public void MyClassInitialize()
{
lock (GetType())
{
if (_emptyDataFolder == null)
{
const int itemsCount = 100000;
_daysPerFile = ((double)_dataItemsPerFile) * _itemsIntervalMinutes / 60.0 / 24.0;
// 200 * 20 minutes = 8000 minutes per file (5.55556 days)
DateTime firstTime = DateTime.Now.AddDays(-10);
_firstDataItemTime = firstTime;
//_expectedFileCount = (int)Math.Ceiling((double)itemsCount / (double)_dataItemsPerFile);
IFolder targetFolder = (IFolder)FixtureRootRepoFolder;
string targetFolderPath = targetFolder.FullPath;
targetFolder.Properties.DesiredItemsPerFile = _dataItemsPerFile;
using (IRepositoryWriter writer = targetFolder.GetWriter())
{
DateTime lastTime = DateTime.MinValue;
int n;
for (n = 0; n < itemsCount; ++n)
{
Mock.TestDataItem item = Mock.TestDataItem.GetTestItem(n);
lastTime = firstTime.AddMinutes(n * _itemsIntervalMinutes);
item.DateTime = lastTime;
writer.Write(item);
}
_lastDataItemTime = lastTime;
writer.Flush();
writer.Close();
}
for (
var dataFile = targetFolder.RootDataFolder.FindFirstDataFile(false);
dataFile != null;
dataFile = dataFile.GetNext(false), ++_expectedFileCount
)
{
}
Console.WriteLine("Expected file count enumerated via RepositoryFile: {0}", _expectedFileCount);
// data folder boundaries may split data files thus extra ones
Assert.GreaterOrEqual(_expectedFileCount, (int)Math.Ceiling((double)itemsCount / (double)_dataItemsPerFile), "Data file count unexpected");
// creating empty folder
IRepositoryFile file = targetFolder.RootDataFolder.Seek(firstTime.AddMinutes(itemsCount * _itemsIntervalMinutes / 3), false);
_emptyDataFolder = file.ContainingFolder;
for (
file = _emptyDataFolder.FindFirstDataFile(false);
file != null && file.ContainingFolder == _emptyDataFolder;
file = file.GetNext(false))
{
file.Delete();
--_expectedFileCount;
}
Assert.AreEqual(0, _emptyDataFolder.DataFileBrowser.FileCount);
Console.WriteLine("Expected file count after removing file by file: {0}", _expectedFileCount);
//
IDataFolder dfolderToDelete = _emptyDataFolder.ParentDataFolder.GetNextSiblingInTree(false).GetNextSiblingInTree(false);
Assert.AreEqual(1, dfolderToDelete.Level);
_deletedDataFolder = new RepoFileContainerDescriptor()
{
Start = dfolderToDelete.Start,
End = dfolderToDelete.End,
Level = dfolderToDelete.Level,
RelativePath = dfolderToDelete.RelativePath
};
_expectedFileCount -= dfolderToDelete.GetSubfolders(DateTime.MinValue, false).Sum((f) => f.DataFileBrowser.FileCount);
Console.WriteLine("Expected file count after removing data folder {0}: {1}", dfolderToDelete.PathInRepository, _expectedFileCount);
Console.WriteLine("Removing folder {0}", dfolderToDelete.PathInRepository);
dfolderToDelete.Delete(false);
Assert.IsFalse(dfolderToDelete.Exists);
}
} //lock
}
public RepositorySetJsonProvider(IDataFolder rootFolder)
{
this.rootFolder = rootFolder;
}
public SeekFileResult(DateTime seekTime, IDataFolder foundFolder, IRepositoryFileName foundFile)
{
this.SeekDateTime = seekTime;
this.RepositoryFile = new RepositoryFile(containingFolder: foundFolder, fileName: foundFile);
}
private bool IsCovering(IDataFolder folder, DateTime timestamp)
{
return(timestamp >= folder.Start && timestamp < folder.End);
}
