public void RandomizedThreadedLookups()
{
string path = Path.GetFullPath("TestData\\RandomizedThreadedLookups");
if (!Directory.Exists(path))
{
Directory.CreateDirectory(path);
}
List <KeyValuePair <Key, Value> > items = new List <KeyValuePair <Key, Value> > ();
int num_items = 10000;
var mt = new MemTable();
for (int i = 0; i < num_items; i++)
{
var k0 = Key.Random(40);
var v0 = Value.Random(200);
mt.Add(k0, v0);
items.Add(new KeyValuePair <Key, Value> (k0, v0));
}
mt.WriteToSortedBlockTable("TestData\\RandomizedThreadedLookups", 10, 10);
var cache = new RazorCache();
var sbt = new SortedBlockTable(cache, "TestData\\RandomizedThreadedLookups", 10, 10);
var indexCache = new RazorCache();
List <Thread> threads = new List <Thread> ();
for (int t = 0; t < 10; t++)
{
threads.Add(new Thread((num) => {
for (int k = 0; k < num_items / 10; k++)
{
var pair = items [k * (int)num];
Value value;
Assert.IsTrue(SortedBlockTable.Lookup("TestData\\RandomizedThreadedLookups", 10, 10, indexCache, pair.Key, out value, ExceptionHandling.ThrowAll, null));
Assert.AreEqual(pair.Value, value);
}
}));
}
var timer = new Stopwatch();
timer.Start();
int threadNum = 0;
threads.ForEach((t) => t.Start(threadNum++));
threads.ForEach((t) => t.Join());
timer.Stop();
Console.WriteLine("Randomized (threaded) read sbt table at a throughput of {0} MB/s (avg {1} ms per lookup)", (double)mt.Size / timer.Elapsed.TotalSeconds / (1024.0 * 1024.0), (double)timer.Elapsed.TotalSeconds / (double)num_items);
sbt.Close();
}
static void DumpFile(string baseDir, int level, int version)
{
RazorCache cache = new RazorCache();
var tablefile = new SortedBlockTable(cache, baseDir, level, version);
try {
tablefile.DumpContents(msg => Console.WriteLine(msg));
} finally {
tablefile.Close();
}
}
static void DumpFile(string baseDir, int level, int version)
{
RazorCache cache = new RazorCache();
var tablefile = new SortedBlockTable(cache, baseDir, level, version);
try {
tablefile.DumpContents(msg => Console.WriteLine(msg));
} finally {
tablefile.Close();
}
}
public void EnumerateFromKeys()
{
string path = Path.GetFullPath("TestData\\EnumerateFromKeys");
if (!Directory.Exists(path))
{
Directory.CreateDirectory(path);
}
List <KeyValuePair <Key, Value> > items = new List <KeyValuePair <Key, Value> > ();
int num_items = 10000;
var mt = new MemTable();
for (int i = 0; i < num_items; i++)
{
var k0 = Key.Random(40);
var v0 = Value.Random(200);
mt.Add(k0, v0);
items.Add(new KeyValuePair <Key, Value> (k0, v0));
}
mt.WriteToSortedBlockTable("TestData\\EnumerateFromKeys", 10, 10);
var cache = new RazorCache();
var sbt = new SortedBlockTable(cache, "TestData\\EnumerateFromKeys", 10, 10);
try {
var indexCache = new RazorCache();
var timer = new Stopwatch();
timer.Start();
Assert.AreEqual(10000, sbt.EnumerateFromKey(indexCache, new Key(new byte[] { 0 }, 0)).Count());
timer.Stop();
Console.WriteLine("Counted from beginning at a throughput of {0} MB/s", (double)mt.Size / timer.Elapsed.TotalSeconds / (1024.0 * 1024.0));
items = items.OrderBy((a) => a.Key).ToList();
timer.Reset();
timer.Start();
Assert.AreEqual(5000, sbt.EnumerateFromKey(indexCache, items [5000].Key).Count());
timer.Stop();
Console.WriteLine("Counted from halfway at a throughput of {0} MB/s", (double)mt.Size / 2 / timer.Elapsed.TotalSeconds / (1024.0 * 1024.0));
Assert.AreEqual(0, sbt.EnumerateFromKey(indexCache, new Key(new byte[] { 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF }, 0xFF)).Count());
} finally {
sbt.Close();
}
}
public void LevelMergeDuplicateValuesTest()
{
string path = Path.GetFullPath("TestData\\LevelMergeDuplicateValuesTest");
if (!Directory.Exists(path))
Directory.CreateDirectory(path);
foreach (string file in Directory.GetFiles(path)) {
File.Delete(file);
}
int num_tables_to_merge = 4;
int items_per_table = 2500;
int totalData = 0;
for (int i = 0; i < num_tables_to_merge; i++) {
var mt = new MemTable();
for (int j = 0; j < items_per_table; j++) {
int numToStore = j % 100;
var key = new Key(new ByteArray(BitConverter.GetBytes(numToStore)));
var value = new Value(BitConverter.GetBytes(j));
mt.Add(key, value);
}
mt.WriteToSortedBlockTable("TestData\\LevelMergeDuplicateValuesTest", 0, i);
totalData += mt.Size;
}
var cache = new RazorCache();
var timer = new Stopwatch();
timer.Start();
Manifest mf = new Manifest("TestData\\LevelMergeDuplicateValuesTest");
SortedBlockTable.MergeTables(cache, mf, 1, new List<PageRef>{
new PageRef { Level = 0, Version = 0},
new PageRef { Level = 0, Version = 1},
new PageRef { Level = 0, Version = 2},
new PageRef { Level = 0, Version = 3}
}, ExceptionHandling.ThrowAll, null);
timer.Stop();
// Open the block table and scan it to check the stored values
var sbt = new SortedBlockTable(cache, mf.BaseFileName, 1, 1);
try {
var pairs = sbt.Enumerate().ToList();
Assert.AreEqual(100, pairs.Count());
Assert.AreEqual(2400, BitConverter.ToInt32(pairs.First().Value.ValueBytes, 0));
} finally {
sbt.Close();
}
Console.WriteLine("Wrote a multilevel merge with duplicates at a throughput of {0} MB/s", (double)totalData / timer.Elapsed.TotalSeconds / (1024.0 * 1024.0));
}
public void RandomizedLookups()
{
string path = Path.GetFullPath("TestData\\RandomizedKeys");
if (!Directory.Exists(path))
{
Directory.CreateDirectory(path);
}
List <KeyValuePair <Key, Value> > items = new List <KeyValuePair <Key, Value> > ();
int num_items = 10000;
var mt = new MemTable();
for (int i = 0; i < num_items; i++)
{
var k0 = Key.Random(40);
var v0 = Value.Random(200);
mt.Add(k0, v0);
items.Add(new KeyValuePair <Key, Value> (k0, v0));
}
mt.WriteToSortedBlockTable("TestData\\RandomizedKeys", 10, 10);
var cache = new RazorCache();
var sbt = new SortedBlockTable(cache, "TestData\\RandomizedKeys", 10, 10);
var indexCache = new RazorCache();
var timer = new Stopwatch();
timer.Start();
foreach (var pair in items)
{
Value value;
Assert.IsTrue(SortedBlockTable.Lookup("TestData\\RandomizedKeys", 10, 10, indexCache, pair.Key, out value, ExceptionHandling.ThrowAll, null));
Assert.AreEqual(pair.Value, value);
}
timer.Stop();
Value randomValue;
Assert.IsFalse(SortedBlockTable.Lookup("TestData\\RandomizedKeys", 10, 10, indexCache, Key.Random(40), out randomValue, ExceptionHandling.ThrowAll, null));
Console.WriteLine("Randomized read sbt table at a throughput of {0} MB/s (avg {1} ms per lookup)", (double)mt.Size / timer.Elapsed.TotalSeconds / (1024.0 * 1024.0), (double)timer.Elapsed.TotalSeconds / (double)num_items);
sbt.Close();
}
public void ReadKeys()
{
string path = Path.GetFullPath("TestData\\ReadKeys");
if (!Directory.Exists(path))
{
Directory.CreateDirectory(path);
}
var mt = new MemTable();
for (int i = 0; i < 10000; i++)
{
var k0 = Key.Random(40);
var v0 = Value.Random(200);
mt.Add(k0, v0);
}
mt.WriteToSortedBlockTable("TestData\\ReadKeys", 0, 10);
var cache = new RazorCache();
var sbt = new SortedBlockTable(cache, "TestData\\ReadKeys", 0, 10);
var timer = new Stopwatch();
timer.Start();
Assert.AreEqual(10000, sbt.Enumerate().Count());
timer.Stop();
Console.WriteLine("Counted sorted table at a throughput of {0} MB/s", (double)mt.Size / timer.Elapsed.TotalSeconds / (1024.0 * 1024.0));
// Confirm that the items are sorted.
Key lastKey = Key.Empty;
timer.Reset();
timer.Start();
foreach (var pair in sbt.Enumerate())
{
Assert.IsTrue(lastKey.CompareTo(pair.Key) < 0);
lastKey = pair.Key;
}
timer.Stop();
Console.WriteLine("Read & verify sorted table at a throughput of {0} MB/s", (double)mt.Size / timer.Elapsed.TotalSeconds / (1024.0 * 1024.0));
sbt.Close();
}
static void CheckBlockTableFiles(string baseDir)
{
Console.WriteLine("Checking Block Table Files '{0}'", baseDir);
RazorCache cache = new RazorCache();
foreach (string file in Directory.GetFiles(baseDir, "*.sbt", SearchOption.TopDirectoryOnly)) {
var fileparts = Path.GetFileNameWithoutExtension(file).Split('-');
int level = int.Parse(fileparts[0]);
int version = int.Parse(fileparts[1]);
Console.WriteLine("Level: {0} Version: {1}", level, version);
var tablefile = new SortedBlockTable(cache, baseDir, level, version);
try {
tablefile.ScanCheck();
} finally {
tablefile.Close();
}
}
}
static void CheckBlockTableFiles(string baseDir)
{
Console.WriteLine("Checking Block Table Files '{0}'", baseDir);
RazorCache cache = new RazorCache();
foreach (string file in Directory.GetFiles(baseDir, "*.sbt", SearchOption.TopDirectoryOnly))
{
var fileparts = Path.GetFileNameWithoutExtension(file).Split('-');
int level = int.Parse(fileparts[0]);
int version = int.Parse(fileparts[1]);
Console.WriteLine("Level: {0} Version: {1}", level, version);
var tablefile = new SortedBlockTable(cache, baseDir, level, version);
try {
tablefile.ScanCheck();
} finally {
tablefile.Close();
}
}
}
public void LevelMergeDuplicateValuesTest()
{
string path = Path.GetFullPath("TestData\\LevelMergeDuplicateValuesTest");
if (!Directory.Exists(path))
{
Directory.CreateDirectory(path);
}
foreach (string file in Directory.GetFiles(path))
{
File.Delete(file);
}
int num_tables_to_merge = 4;
int items_per_table = 2500;
int totalData = 0;
for (int i = 0; i < num_tables_to_merge; i++)
{
var mt = new MemTable();
for (int j = 0; j < items_per_table; j++)
{
int numToStore = j % 100;
var key = new Key(new ByteArray(BitConverter.GetBytes(numToStore)));
var value = new Value(BitConverter.GetBytes(j));
mt.Add(key, value);
}
mt.WriteToSortedBlockTable("TestData\\LevelMergeDuplicateValuesTest", 0, i);
totalData += mt.Size;
}
var cache = new RazorCache();
var timer = new Stopwatch();
timer.Start();
Manifest mf = new Manifest("TestData\\LevelMergeDuplicateValuesTest");
SortedBlockTable.MergeTables(cache, mf, 1, new List <PageRef> {
new PageRef {
Level = 0, Version = 0
},
new PageRef {
Level = 0, Version = 1
},
new PageRef {
Level = 0, Version = 2
},
new PageRef {
Level = 0, Version = 3
}
}, ExceptionHandling.ThrowAll, null);
timer.Stop();
// Open the block table and scan it to check the stored values
var sbt = new SortedBlockTable(cache, mf.BaseFileName, 1, 1);
try {
var pairs = sbt.Enumerate().ToList();
Assert.AreEqual(100, pairs.Count());
Assert.AreEqual(2400, BitConverter.ToInt32(pairs.First().Value.ValueBytes, 0));
} finally {
sbt.Close();
}
Console.WriteLine("Wrote a multilevel merge with duplicates at a throughput of {0} MB/s", (double)totalData / timer.Elapsed.TotalSeconds / (1024.0 * 1024.0));
}
public void EnumerateFromKeys()
{
string path = Path.GetFullPath("TestData\\EnumerateFromKeys");
if (!Directory.Exists(path))
Directory.CreateDirectory(path);
List<KeyValuePair<Key, Value>> items = new List<KeyValuePair<Key, Value>>();
int num_items = 10000;
var mt = new MemTable();
for (int i = 0; i < num_items; i++) {
var k0 = Key.Random(40);
var v0 = Value.Random(200);
mt.Add(k0, v0);
items.Add(new KeyValuePair<Key, Value>(k0, v0));
}
mt.WriteToSortedBlockTable("TestData\\EnumerateFromKeys", 10, 10);
var cache = new RazorCache();
var sbt = new SortedBlockTable(cache, "TestData\\EnumerateFromKeys", 10, 10);
try {
var indexCache = new RazorCache();
var timer = new Stopwatch();
timer.Start();
Assert.AreEqual(10000, sbt.EnumerateFromKey(indexCache, new Key(new byte[] { 0 }, 0)).Count());
timer.Stop();
Console.WriteLine("Counted from beginning at a throughput of {0} MB/s", (double)mt.Size / timer.Elapsed.TotalSeconds / (1024.0 * 1024.0));
items = items.OrderBy((a) => a.Key).ToList();
timer.Reset();
timer.Start();
Assert.AreEqual(5000, sbt.EnumerateFromKey(indexCache, items[5000].Key).Count());
timer.Stop();
Console.WriteLine("Counted from halfway at a throughput of {0} MB/s", (double)mt.Size / 2 / timer.Elapsed.TotalSeconds / (1024.0 * 1024.0));
Assert.AreEqual(0, sbt.EnumerateFromKey(indexCache, new Key(new byte[] { 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF }, 0xFF)).Count());
} finally {
sbt.Close();
}
}
public void ReadKeys()
{
string path = Path.GetFullPath("TestData\\ReadKeys");
if (!Directory.Exists(path))
Directory.CreateDirectory(path);
var mt = new MemTable();
for (int i = 0; i < 10000; i++) {
var k0 = Key.Random(40);
var v0 = Value.Random(200);
mt.Add(k0, v0);
}
mt.WriteToSortedBlockTable("TestData\\ReadKeys", 0, 10);
var cache = new RazorCache();
var sbt = new SortedBlockTable(cache, "TestData\\ReadKeys", 0, 10);
var timer = new Stopwatch();
timer.Start();
Assert.AreEqual(10000, sbt.Enumerate().Count());
timer.Stop();
Console.WriteLine("Counted sorted table at a throughput of {0} MB/s", (double)mt.Size / timer.Elapsed.TotalSeconds / (1024.0 * 1024.0));
// Confirm that the items are sorted.
Key lastKey = Key.Empty;
timer.Reset();
timer.Start();
foreach (var pair in sbt.Enumerate()) {
Assert.IsTrue(lastKey.CompareTo(pair.Key) < 0);
lastKey = pair.Key;
}
timer.Stop();
Console.WriteLine("Read & verify sorted table at a throughput of {0} MB/s", (double)mt.Size / timer.Elapsed.TotalSeconds / (1024.0 * 1024.0));
sbt.Close();
}
public void RandomizedThreadedLookups()
{
string path = Path.GetFullPath("TestData\\RandomizedThreadedLookups");
if (!Directory.Exists(path))
Directory.CreateDirectory(path);
List<KeyValuePair<Key, Value>> items = new List<KeyValuePair<Key, Value>>();
int num_items = 10000;
var mt = new MemTable();
for (int i = 0; i < num_items; i++) {
var k0 = Key.Random(40);
var v0 = Value.Random(200);
mt.Add(k0, v0);
items.Add(new KeyValuePair<Key, Value>(k0, v0));
}
mt.WriteToSortedBlockTable("TestData\\RandomizedThreadedLookups", 10, 10);
var cache = new RazorCache();
var sbt = new SortedBlockTable(cache, "TestData\\RandomizedThreadedLookups", 10, 10);
var indexCache = new RazorCache();
List<Thread> threads = new List<Thread>();
for (int t = 0; t < 10; t++) {
threads.Add(new Thread((num) => {
for (int k = 0; k < num_items / 10; k++) {
var pair = items[k * (int)num];
Value value;
Assert.IsTrue(SortedBlockTable.Lookup("TestData\\RandomizedThreadedLookups", 10, 10, indexCache, pair.Key, out value, ExceptionHandling.ThrowAll, null));
Assert.AreEqual(pair.Value, value);
}
}));
}
var timer = new Stopwatch();
timer.Start();
int threadNum = 0;
threads.ForEach((t) => t.Start(threadNum++));
threads.ForEach((t) => t.Join());
timer.Stop();
Console.WriteLine("Randomized (threaded) read sbt table at a throughput of {0} MB/s (avg {1} ms per lookup)", (double)mt.Size / timer.Elapsed.TotalSeconds / (1024.0 * 1024.0), (double)timer.Elapsed.TotalSeconds / (double)num_items);
sbt.Close();
}
public void RandomizedLookups()
{
string path = Path.GetFullPath("TestData\\RandomizedKeys");
if (!Directory.Exists(path))
Directory.CreateDirectory(path);
List<KeyValuePair<Key, Value>> items = new List<KeyValuePair<Key, Value>>();
int num_items = 10000;
var mt = new MemTable();
for (int i = 0; i < num_items; i++) {
var k0 = Key.Random(40);
var v0 = Value.Random(200);
mt.Add(k0, v0);
items.Add(new KeyValuePair<Key, Value>(k0, v0));
}
mt.WriteToSortedBlockTable("TestData\\RandomizedKeys", 10, 10);
var cache = new RazorCache();
var sbt = new SortedBlockTable(cache, "TestData\\RandomizedKeys", 10, 10);
var indexCache = new RazorCache();
var timer = new Stopwatch();
timer.Start();
foreach (var pair in items) {
Value value;
Assert.IsTrue(SortedBlockTable.Lookup("TestData\\RandomizedKeys", 10, 10, indexCache, pair.Key, out value, ExceptionHandling.ThrowAll, null));
Assert.AreEqual(pair.Value, value);
}
timer.Stop();
Value randomValue;
Assert.IsFalse(SortedBlockTable.Lookup("TestData\\RandomizedKeys", 10, 10, indexCache, Key.Random(40), out randomValue, ExceptionHandling.ThrowAll, null));
Console.WriteLine("Randomized read sbt table at a throughput of {0} MB/s (avg {1} ms per lookup)", (double)mt.Size / timer.Elapsed.TotalSeconds / (1024.0 * 1024.0), (double)timer.Elapsed.TotalSeconds / (double)num_items);
sbt.Close();
}
public void V1SortedBlockTableFile()
{
var cache = new RazorCache();
var sbt = new SortedBlockTable(cache, @"..\FormatTestData\V1", 0, 10);
Assert.AreEqual(1000, sbt.Enumerate().Count());
// Confirm that the items are sorted.
KeyEx lastKey = KeyEx.Empty;
foreach (var pair in sbt.Enumerate()) {
Assert.IsTrue(lastKey.CompareTo(pair.Key) < 0);
lastKey = pair.Key;
}
sbt.Close();
}
