How to read a text file reversely with iterator in C#
C#.NetC# Problem Overview
I need to process a large file, around 400K lines and 200 M. But sometimes I have to process from bottom up. How can I use iterator (yield return) here? Basically I don't like to load everything in memory. I know it is more efficient to use iterator in .NET.
C# Solutions
Solution 1 - C#
Reading text files backwards is really tricky unless you're using a fixed-size encoding (e.g. ASCII). When you've got variable-size encoding (such as UTF-8) you will keep having to check whether you're in the middle of a character or not when you fetch data.
There's nothing built into the framework, and I suspect you'd have to do separate hard coding for each variable-width encoding.
EDIT: This has been somewhat tested - but that's not to say it doesn't still have some subtle bugs around. It uses StreamUtil from MiscUtil, but I've included just the necessary (new) method from there at the bottom. Oh, and it needs refactoring - there's one pretty hefty method, as you'll see:
using System;
using System.Collections;
using System.Collections.Generic;
using System.IO;
using System.Text;
namespace MiscUtil.IO
{
/// <summary>
/// Takes an encoding (defaulting to UTF-8) and a function which produces a seekable stream
/// (or a filename for convenience) and yields lines from the end of the stream backwards.
/// Only single byte encodings, and UTF-8 and Unicode, are supported. The stream
/// returned by the function must be seekable.
/// </summary>
public sealed class ReverseLineReader : IEnumerable<string>
{
/// <summary>
/// Buffer size to use by default. Classes with internal access can specify
/// a different buffer size - this is useful for testing.
/// </summary>
private const int DefaultBufferSize = 4096;
/// <summary>
/// Means of creating a Stream to read from.
/// </summary>
private readonly Func<Stream> streamSource;
/// <summary>
/// Encoding to use when converting bytes to text
/// </summary>
private readonly Encoding encoding;
/// <summary>
/// Size of buffer (in bytes) to read each time we read from the
/// stream. This must be at least as big as the maximum number of
/// bytes for a single character.
/// </summary>
private readonly int bufferSize;
/// <summary>
/// Function which, when given a position within a file and a byte, states whether
/// or not the byte represents the start of a character.
/// </summary>
private Func<long,byte,bool> characterStartDetector;
/// <summary>
/// Creates a LineReader from a stream source. The delegate is only
/// called when the enumerator is fetched. UTF-8 is used to decode
/// the stream into text.
/// </summary>
/// <param name="streamSource">Data source</param>
public ReverseLineReader(Func<Stream> streamSource)
: this(streamSource, Encoding.UTF8)
{
}
/// <summary>
/// Creates a LineReader from a filename. The file is only opened
/// (or even checked for existence) when the enumerator is fetched.
/// UTF8 is used to decode the file into text.
/// </summary>
/// <param name="filename">File to read from</param>
public ReverseLineReader(string filename)
: this(filename, Encoding.UTF8)
{
}
/// <summary>
/// Creates a LineReader from a filename. The file is only opened
/// (or even checked for existence) when the enumerator is fetched.
/// </summary>
/// <param name="filename">File to read from</param>
/// <param name="encoding">Encoding to use to decode the file into text</param>
public ReverseLineReader(string filename, Encoding encoding)
: this(() => File.OpenRead(filename), encoding)
{
}
/// <summary>
/// Creates a LineReader from a stream source. The delegate is only
/// called when the enumerator is fetched.
/// </summary>
/// <param name="streamSource">Data source</param>
/// <param name="encoding">Encoding to use to decode the stream into text</param>
public ReverseLineReader(Func<Stream> streamSource, Encoding encoding)
: this(streamSource, encoding, DefaultBufferSize)
{
}
internal ReverseLineReader(Func<Stream> streamSource, Encoding encoding, int bufferSize)
{
this.streamSource = streamSource;
this.encoding = encoding;
this.bufferSize = bufferSize;
if (encoding.IsSingleByte)
{
// For a single byte encoding, every byte is the start (and end) of a character
characterStartDetector = (pos, data) => true;
}
else if (encoding is UnicodeEncoding)
{
// For UTF-16, even-numbered positions are the start of a character.
// TODO: This assumes no surrogate pairs. More work required
// to handle that.
characterStartDetector = (pos, data) => (pos & 1) == 0;
}
else if (encoding is UTF8Encoding)
{
// For UTF-8, bytes with the top bit clear or the second bit set are the start of a character
// See http://www.cl.cam.ac.uk/~mgk25/unicode.html
characterStartDetector = (pos, data) => (data & 0x80) == 0 || (data & 0x40) != 0;
}
else
{
throw new ArgumentException("Only single byte, UTF-8 and Unicode encodings are permitted");
}
}
/// <summary>
/// Returns the enumerator reading strings backwards. If this method discovers that
/// the returned stream is either unreadable or unseekable, a NotSupportedException is thrown.
/// </summary>
public IEnumerator<string> GetEnumerator()
{
Stream stream = streamSource();
if (!stream.CanSeek)
{
stream.Dispose();
throw new NotSupportedException("Unable to seek within stream");
}
if (!stream.CanRead)
{
stream.Dispose();
throw new NotSupportedException("Unable to read within stream");
}
return GetEnumeratorImpl(stream);
}
private IEnumerator<string> GetEnumeratorImpl(Stream stream)
{
try
{
long position = stream.Length;
if (encoding is UnicodeEncoding && (position & 1) != 0)
{
throw new InvalidDataException("UTF-16 encoding provided, but stream has odd length.");
}
// Allow up to two bytes for data from the start of the previous
// read which didn't quite make it as full characters
byte[] buffer = new byte[bufferSize + 2];
char[] charBuffer = new char[encoding.GetMaxCharCount(buffer.Length)];
int leftOverData = 0;
String previousEnd = null;
// TextReader doesn't return an empty string if there's line break at the end
// of the data. Therefore we don't return an empty string if it's our *first*
// return.
bool firstYield = true;
// A line-feed at the start of the previous buffer means we need to swallow
// the carriage-return at the end of this buffer - hence this needs declaring
// way up here!
bool swallowCarriageReturn = false;
while (position > 0)
{
int bytesToRead = Math.Min(position > int.MaxValue ? bufferSize : (int)position, bufferSize);
position -= bytesToRead;
stream.Position = position;
StreamUtil.ReadExactly(stream, buffer, bytesToRead);
// If we haven't read a full buffer, but we had bytes left
// over from before, copy them to the end of the buffer
if (leftOverData > 0 && bytesToRead != bufferSize)
{
// Buffer.BlockCopy doesn't document its behaviour with respect
// to overlapping data: we *might* just have read 7 bytes instead of
// 8, and have two bytes to copy...
Array.Copy(buffer, bufferSize, buffer, bytesToRead, leftOverData);
}
// We've now *effectively* read this much data.
bytesToRead += leftOverData;
int firstCharPosition = 0;
while (!characterStartDetector(position + firstCharPosition, buffer[firstCharPosition]))
{
firstCharPosition++;
// Bad UTF-8 sequences could trigger this. For UTF-8 we should always
// see a valid character start in every 3 bytes, and if this is the start of the file
// so we've done a short read, we should have the character start
// somewhere in the usable buffer.
if (firstCharPosition == 3 || firstCharPosition == bytesToRead)
{
throw new InvalidDataException("Invalid UTF-8 data");
}
}
leftOverData = firstCharPosition;
int charsRead = encoding.GetChars(buffer, firstCharPosition, bytesToRead - firstCharPosition, charBuffer, 0);
int endExclusive = charsRead;
for (int i = charsRead - 1; i >= 0; i--)
{
char lookingAt = charBuffer[i];
if (swallowCarriageReturn)
{
swallowCarriageReturn = false;
if (lookingAt == '\r')
{
endExclusive--;
continue;
}
}
// Anything non-line-breaking, just keep looking backwards
if (lookingAt != '\n' && lookingAt != '\r')
{
continue;
}
// End of CRLF? Swallow the preceding CR
if (lookingAt == '\n')
{
swallowCarriageReturn = true;
}
int start = i + 1;
string bufferContents = new string(charBuffer, start, endExclusive - start);
endExclusive = i;
string stringToYield = previousEnd == null ? bufferContents : bufferContents + previousEnd;
if (!firstYield || stringToYield.Length != 0)
{
yield return stringToYield;
}
firstYield = false;
previousEnd = null;
}
previousEnd = endExclusive == 0 ? null : (new string(charBuffer, 0, endExclusive) + previousEnd);
// If we didn't decode the start of the array, put it at the end for next time
if (leftOverData != 0)
{
Buffer.BlockCopy(buffer, 0, buffer, bufferSize, leftOverData);
}
}
if (leftOverData != 0)
{
// At the start of the final buffer, we had the end of another character.
throw new InvalidDataException("Invalid UTF-8 data at start of stream");
}
if (firstYield && string.IsNullOrEmpty(previousEnd))
{
yield break;
}
yield return previousEnd ?? "";
}
finally
{
stream.Dispose();
}
}
IEnumerator IEnumerable.GetEnumerator()
{
return GetEnumerator();
}
}
}
// StreamUtil.cs:
public static class StreamUtil
{
public static void ReadExactly(Stream input, byte[] buffer, int bytesToRead)
{
int index = 0;
while (index < bytesToRead)
{
int read = input.Read(buffer, index, bytesToRead - index);
if (read == 0)
{
throw new EndOfStreamException
(String.Format("End of stream reached with {0} byte{1} left to read.",
bytesToRead - index,
bytesToRead - index == 1 ? "s" : ""));
}
index += read;
}
}
}
Feedback very welcome. This was fun :)
Solution 2 - C#
>Attention: this approach doesn't work (explained in EDIT)
You could use File.ReadLines to get lines iterator
foreach (var line in File.ReadLines(@"C:\temp\ReverseRead.txt").Reverse())
{
if (noNeedToReadFurther)
break;
// process line here
Console.WriteLine(line);
}
EDIT:
After reading applejacks01's comment, I run some tests and it does look like .Reverse() actually loads whole file.
I used File.ReadLines() to print first line of a 40MB file - memory usage of console app was 5MB. Then, used File.ReadLines().Reverse() to print last line of same file - memory usage was 95MB.
>Conclusion > >Whatever `Reverse()' is doing, it is not a good choice for reading bottom of a big file.
Solution 3 - C#
Very fast solution for huge files: From C#, use PowerShell's Get-Content with the Tail parameter.
using System.Management.Automation;
using (PowerShell powerShell = PowerShell.Create())
{
string lastLine = powerShell.AddCommand("Get-Content")
.AddParameter("Path", @"c:\a.txt")
.AddParameter("Tail", 1)
.Invoke().FirstOrDefault()?.ToString();
}
Required reference: 'System.Management.Automation.dll' - may be somewhere like 'C:\Program Files (x86)\Reference Assemblies\Microsoft\WindowsPowerShell\3.0'
Using PowerShell incurs a small overhead but is worth it for huge files.
Solution 4 - C#
To create a file iterator you can do this:
EDIT:
This is my fixed version of a fixed-width reverse file reader:
public static IEnumerable<string> readFile()
{
using (FileStream reader = new FileStream(@"c:\test.txt",FileMode.Open,FileAccess.Read))
{
int i=0;
StringBuilder lineBuffer = new StringBuilder();
int byteRead;
while (-i < reader.Length)
{
reader.Seek(--i, SeekOrigin.End);
byteRead = reader.ReadByte();
if (byteRead == 10 && lineBuffer.Length > 0)
{
yield return Reverse(lineBuffer.ToString());
lineBuffer.Remove(0, lineBuffer.Length);
}
lineBuffer.Append((char)byteRead);
}
yield return Reverse(lineBuffer.ToString());
reader.Close();
}
}
public static string Reverse(string str)
{
char[] arr = new char[str.Length];
for (int i = 0; i < str.Length; i++)
arr[i] = str[str.Length - 1 - i];
return new string(arr);
}
Solution 5 - C#
I put the file into a list line by line, then used List.Reverse();
StreamReader objReader = new StreamReader(filename);
string sLine = "";
ArrayList arrText = new ArrayList();
while (sLine != null)
{
sLine = objReader.ReadLine();
if (sLine != null)
arrText.Add(sLine);
}
objReader.Close();
arrText.Reverse();
foreach (string sOutput in arrText)
{
...
Solution 6 - C#
I also add my solution. After reading some answers, nothing really fit to my case. I'm reading byte by byte from from behind until I find a LineFeed, then I'm returing the collected bytes as string, without using buffering.
Usage:
var reader = new ReverseTextReader(path);
while (!reader.EndOfStream)
{
Console.WriteLine(reader.ReadLine());
}
Implementation:
public class ReverseTextReader
{
private const int LineFeedLf = 10;
private const int LineFeedCr = 13;
private readonly Stream _stream;
private readonly Encoding _encoding;
public bool EndOfStream => _stream.Position == 0;
public ReverseTextReader(Stream stream, Encoding encoding)
{
_stream = stream;
_encoding = encoding;
_stream.Position = _stream.Length;
}
public string ReadLine()
{
if (_stream.Position == 0) return null;
var line = new List<byte>();
var endOfLine = false;
while (!endOfLine)
{
var b = _stream.ReadByteFromBehind();
if (b == -1 || b == LineFeedLf)
{
endOfLine = true;
}
line.Add(Convert.ToByte(b));
}
line.Reverse();
return _encoding.GetString(line.ToArray());
}
}
public static class StreamExtensions
{
public static int ReadByteFromBehind(this Stream stream)
{
if (stream.Position == 0) return -1;
stream.Position = stream.Position - 1;
var value = stream.ReadByte();
stream.Position = stream.Position - 1;
return value;
}
}
Solution 7 - C#
You can read the file one character at a time backwards and cache all characters until you reach a carriage return and/or line feed.
You then reverse the collected string and yeld it as a line.
Solution 8 - C#
There are good answers here already, and here's another LINQ-compatible class you can use which focuses on performance and support for large files. It assumes a "\r\n" line terminator.
Usage:
var reader = new ReverseTextReader(@"C:\Temp\ReverseTest.txt");
while (!reader.EndOfStream)
Console.WriteLine(reader.ReadLine());
ReverseTextReader Class:
/// <summary>
/// Reads a text file backwards, line-by-line.
/// </summary>
/// <remarks>This class uses file seeking to read a text file of any size in reverse order. This
/// is useful for needs such as reading a log file newest-entries first.</remarks>
public sealed class ReverseTextReader : IEnumerable<string>
{
private const int BufferSize = 16384; // The number of bytes read from the uderlying stream.
private readonly Stream _stream; // Stores the stream feeding data into this reader
private readonly Encoding _encoding; // Stores the encoding used to process the file
private byte[] _leftoverBuffer; // Stores the leftover partial line after processing a buffer
private readonly Queue<string> _lines; // Stores the lines parsed from the buffer
#region Constructors
/// <summary>
/// Creates a reader for the specified file.
/// </summary>
/// <param name="filePath"></param>
public ReverseTextReader(string filePath)
: this(new FileStream(filePath, FileMode.Open, FileAccess.Read, FileShare.Read), Encoding.Default)
{ }
/// <summary>
/// Creates a reader using the specified stream.
/// </summary>
/// <param name="stream"></param>
public ReverseTextReader(Stream stream)
: this(stream, Encoding.Default)
{ }
/// <summary>
/// Creates a reader using the specified path and encoding.
/// </summary>
/// <param name="filePath"></param>
/// <param name="encoding"></param>
public ReverseTextReader(string filePath, Encoding encoding)
: this(new FileStream(filePath, FileMode.Open, FileAccess.Read, FileShare.Read), encoding)
{ }
/// <summary>
/// Creates a reader using the specified stream and encoding.
/// </summary>
/// <param name="stream"></param>
/// <param name="encoding"></param>
public ReverseTextReader(Stream stream, Encoding encoding)
{
_stream = stream;
_encoding = encoding;
_lines = new Queue<string>(128);
// The stream needs to support seeking for this to work
if(!_stream.CanSeek)
throw new InvalidOperationException("The specified stream needs to support seeking to be read backwards.");
if (!_stream.CanRead)
throw new InvalidOperationException("The specified stream needs to support reading to be read backwards.");
// Set the current position to the end of the file
_stream.Position = _stream.Length;
_leftoverBuffer = new byte[0];
}
#endregion
#region Overrides
/// <summary>
/// Reads the next previous line from the underlying stream.
/// </summary>
/// <returns></returns>
public string ReadLine()
{
// Are there lines left to read? If so, return the next one
if (_lines.Count != 0) return _lines.Dequeue();
// Are we at the beginning of the stream? If so, we're done
if (_stream.Position == 0) return null;
#region Read and Process the Next Chunk
// Remember the current position
var currentPosition = _stream.Position;
var newPosition = currentPosition - BufferSize;
// Are we before the beginning of the stream?
if (newPosition < 0) newPosition = 0;
// Calculate the buffer size to read
var count = (int)(currentPosition - newPosition);
// Set the new position
_stream.Position = newPosition;
// Make a new buffer but append the previous leftovers
var buffer = new byte[count + _leftoverBuffer.Length];
// Read the next buffer
_stream.Read(buffer, 0, count);
// Move the position of the stream back
_stream.Position = newPosition;
// And copy in the leftovers from the last buffer
if (_leftoverBuffer.Length != 0)
Array.Copy(_leftoverBuffer, 0, buffer, count, _leftoverBuffer.Length);
// Look for CrLf delimiters
var end = buffer.Length - 1;
var start = buffer.Length - 2;
// Search backwards for a line feed
while (start >= 0)
{
// Is it a line feed?
if (buffer[start] == 10)
{
// Yes. Extract a line and queue it (but exclude the \r\n)
_lines.Enqueue(_encoding.GetString(buffer, start + 1, end - start - 2));
// And reset the end
end = start;
}
// Move to the previous character
start--;
}
// What's left over is a portion of a line. Save it for later.
_leftoverBuffer = new byte[end + 1];
Array.Copy(buffer, 0, _leftoverBuffer, 0, end + 1);
// Are we at the beginning of the stream?
if (_stream.Position == 0)
// Yes. Add the last line.
_lines.Enqueue(_encoding.GetString(_leftoverBuffer, 0, end - 1));
#endregion
// If we have something in the queue, return it
return _lines.Count == 0 ? null : _lines.Dequeue();
}
#endregion
#region IEnumerator<string> Interface
public IEnumerator<string> GetEnumerator()
{
string line;
// So long as the next line isn't null...
while ((line = ReadLine()) != null)
// Read and return it.
yield return line;
}
IEnumerator IEnumerable.GetEnumerator()
{
throw new NotImplementedException();
}
#endregion
}
Solution 9 - C#
I know this post is very old but as I couldn't find how to use the most voted solution, I finally found this: here is the best answer I found with a low memory cost in VB and C#
http://www.blakepell.com/2010-11-29-backward-file-reader-vb-csharp-source
Hope, I'll help others with that because it tooks me hours to finally find this post!
[Edit]
Here is the c# code :
//*********************************************************************************************************************************
//
// Class: BackwardReader
// Initial Date: 11/29/2010
// Last Modified: 11/29/2010
// Programmer(s): Original C# Source - the_real_herminator
// http://social.msdn.microsoft.com/forums/en-US/csharpgeneral/thread/9acdde1a-03cd-4018-9f87-6e201d8f5d09
// VB Converstion - Blake Pell
//
//*********************************************************************************************************************************
using System.Text;
using System.IO;
public class BackwardReader
{
private string path;
private FileStream fs = null;
public BackwardReader(string path)
{
this.path = path;
fs = new FileStream(path, FileMode.Open, FileAccess.Read, FileShare.ReadWrite);
fs.Seek(0, SeekOrigin.End);
}
public string Readline()
{
byte[] line;
byte[] text = new byte[1];
long position = 0;
int count;
fs.Seek(0, SeekOrigin.Current);
position = fs.Position;
//do we have trailing rn?
if (fs.Length > 1)
{
byte[] vagnretur = new byte[2];
fs.Seek(-2, SeekOrigin.Current);
fs.Read(vagnretur, 0, 2);
if (ASCIIEncoding.ASCII.GetString(vagnretur).Equals("rn"))
{
//move it back
fs.Seek(-2, SeekOrigin.Current);
position = fs.Position;
}
}
while (fs.Position > 0)
{
text.Initialize();
//read one char
fs.Read(text, 0, 1);
string asciiText = ASCIIEncoding.ASCII.GetString(text);
//moveback to the charachter before
fs.Seek(-2, SeekOrigin.Current);
if (asciiText.Equals("n"))
{
fs.Read(text, 0, 1);
asciiText = ASCIIEncoding.ASCII.GetString(text);
if (asciiText.Equals("r"))
{
fs.Seek(1, SeekOrigin.Current);
break;
}
}
}
count = int.Parse((position - fs.Position).ToString());
line = new byte[count];
fs.Read(line, 0, count);
fs.Seek(-count, SeekOrigin.Current);
return ASCIIEncoding.ASCII.GetString(line);
}
public bool SOF
{
get
{
return fs.Position == 0;
}
}
public void Close()
{
fs.Close();
}
}
Solution 10 - C#
I wanted to do the similar thing. Here is my code. This class will create temporary files containing chunks of the big file. This will avoid memory bloating. User can specify whether s/he wants the file reversed. Accordingly it will return the content in reverse manner.
This class can also be used to write big data in a single file without bloating memory.
Please provide feedback.
using System;
using System.Collections.Generic;
using System.Diagnostics;
using System.IO;
using System.Linq;
using System.Text;
using System.Threading.Tasks;
namespace BigFileService
{
public class BigFileDumper
{
/// <summary>
/// Buffer that will store the lines until it is full.
/// Then it will dump it to temp files.
/// </summary>
public int CHUNK_SIZE = 1000;
public bool ReverseIt { get; set; }
public long TotalLineCount { get { return totalLineCount; } }
private long totalLineCount;
private int BufferCount = 0;
private StreamWriter Writer;
/// <summary>
/// List of files that would store the chunks.
/// </summary>
private List<string> LstTempFiles;
private string ParentDirectory;
private char[] trimchars = { '/', '\\'};
public BigFileDumper(string FolderPathToWrite)
{
this.LstTempFiles = new List<string>();
this.ParentDirectory = FolderPathToWrite.TrimEnd(trimchars) + "\\" + "BIG_FILE_DUMP";
this.totalLineCount = 0;
this.BufferCount = 0;
this.Initialize();
}
private void Initialize()
{
// Delete existing directory.
if (Directory.Exists(this.ParentDirectory))
{
Directory.Delete(this.ParentDirectory, true);
}
// Create a new directory.
Directory.CreateDirectory(this.ParentDirectory);
}
public void WriteLine(string line)
{
if (this.BufferCount == 0)
{
string newFile = "DumpFile_" + LstTempFiles.Count();
LstTempFiles.Add(newFile);
Writer = new StreamWriter(this.ParentDirectory + "\\" + newFile);
}
// Keep on adding in the buffer as long as size is okay.
if (this.BufferCount < this.CHUNK_SIZE)
{
this.totalLineCount++; // main count
this.BufferCount++; // Chunk count.
Writer.WriteLine(line);
}
else
{
// Buffer is full, time to create a new file.
// Close the existing file first.
Writer.Close();
// Make buffer count 0 again.
this.BufferCount = 0;
this.WriteLine(line);
}
}
public void Close()
{
if (Writer != null)
Writer.Close();
}
public string GetFullFile()
{
if (LstTempFiles.Count <= 0)
{
Debug.Assert(false, "There are no files created.");
return "";
}
string returnFilename = this.ParentDirectory + "\\" + "FullFile";
if (File.Exists(returnFilename) == false)
{
// Create a consolidated file from the existing small dump files.
// Now this is interesting. We will open the small dump files one by one.
// Depending on whether the user require inverted file, we will read them in descending order & reverted,
// or ascending order in normal way.
if (this.ReverseIt)
this.LstTempFiles.Reverse();
foreach (var fileName in LstTempFiles)
{
string fullFileName = this.ParentDirectory + "\\" + fileName;
// FileLines will use small memory depending on size of CHUNK. User has control.
var fileLines = File.ReadAllLines(fullFileName);
// Time to write in the writer.
if (this.ReverseIt)
fileLines = fileLines.Reverse().ToArray();
// Write the lines
File.AppendAllLines(returnFilename, fileLines);
}
}
return returnFilename;
}
}
}
This service can be used as follows -
void TestBigFileDump_File(string BIG_FILE, string FOLDER_PATH_FOR_CHUNK_FILES)
{
// Start processing the input Big file.
StreamReader reader = new StreamReader(BIG_FILE);
// Create a dump file class object to handle efficient memory management.
var bigFileDumper = new BigFileDumper(FOLDER_PATH_FOR_CHUNK_FILES);
// Set to reverse the output file.
bigFileDumper.ReverseIt = true;
bigFileDumper.CHUNK_SIZE = 100; // How much at a time to keep in RAM before dumping to local file.
while (reader.EndOfStream == false)
{
string line = reader.ReadLine();
bigFileDumper.WriteLine(line);
}
bigFileDumper.Close();
reader.Close();
// Get back full reversed file.
var reversedFilename = bigFileDumper.GetFullFile();
Console.WriteLine("Check output file - " + reversedFilename);
}
Solution 11 - C#
In case anyone else comes across this, I solved it with the following PowerShell script which can easily be modified into a C# script with a small amount of effort.
[System.IO.FileStream]$fileStream = [System.IO.File]::Open("C:\Name_of_very_large_file.log", [System.IO.FileMode]::Open, [System.IO.FileAccess]::Read, [System.IO.FileShare]::ReadWrite)
[System.IO.BufferedStream]$bs = New-Object System.IO.BufferedStream $fileStream;
[System.IO.StreamReader]$sr = New-Object System.IO.StreamReader $bs;
$buff = New-Object char[] 20;
$seek = $bs.Seek($fileStream.Length - 10000, [System.IO.SeekOrigin]::Begin);
while(($line = $sr.ReadLine()) -ne $null)
{
$line;
}
This basically starts reading from the last 10,000 characters of a file, outputting each line.