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#region Copyright notice and license
// Protocol Buffers - Google's data interchange format
// Copyright 2008 Google Inc. All rights reserved.
// http://github.com/jskeet/dotnet-protobufs/
// Original C++/Java/Python code:
// http://code.google.com/p/protobuf/
//
// Redistribution and use in source and binary forms, with or without
// modification, are permitted provided that the following conditions are
// met:
//
// * Redistributions of source code must retain the above copyright
// notice, this list of conditions and the following disclaimer.
// * Redistributions in binary form must reproduce the above
// copyright notice, this list of conditions and the following disclaimer
// in the documentation and/or other materials provided with the
// distribution.
// * Neither the name of Google Inc. nor the names of its
// contributors may be used to endorse or promote products derived from
// this software without specific prior written permission.
//
// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
// "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
// LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
// A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
// OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
// SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
// LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
// DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
// THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
#endregion
using System;
using System.Collections.Generic;
using System.Diagnostics;
using System.IO;
using System.Runtime.Serialization.Json;
using System.Text;
using System.Threading;
using Google.ProtocolBuffers.Serialization;
using Google.ProtocolBuffers.TestProtos;
namespace Google.ProtocolBuffers.ProtoBench
{
/// <summary>
/// Simple benchmarking of arbitrary messages.
/// </summary>
public sealed class Program
{
private static TimeSpan MinSampleTime = TimeSpan.FromSeconds(2);
private static TimeSpan TargetTime = TimeSpan.FromSeconds(30);
private static bool Verbose = false, FastTest = false, OtherFormats = false;
// Avoid a .NET 3.5 dependency
private delegate void Action();
private delegate void BenchmarkTest(string name, long dataSize, Action action);
private static BenchmarkTest RunBenchmark;
[STAThread]
public static int Main(string[] args)
{
List<string> temp = new List<string>(args);
Verbose = temp.Remove("/verbose") || temp.Remove("-verbose");
OtherFormats = temp.Remove("/formats") || temp.Remove("-formats");
if (true == (FastTest = (temp.Remove("/fast") || temp.Remove("-fast"))))
TargetTime = TimeSpan.FromSeconds(10);
RunBenchmark = BenchmarkV1;
if (temp.Remove("/v2") || temp.Remove("-v2"))
{
Process.GetCurrentProcess().PriorityClass = ProcessPriorityClass.RealTime;
Process.GetCurrentProcess().ProcessorAffinity = new IntPtr(1);
RunBenchmark = BenchmarkV2;
}
if (temp.Remove("/all") || temp.Remove("-all"))
{
if(FastTest)
TargetTime = TimeSpan.FromSeconds(5);
foreach (KeyValuePair<string, string> item in MakeTests())
{
temp.Add(item.Key);
temp.Add(item.Value);
}
}
args = temp.ToArray();
if (args.Length < 2 || (args.Length%2) != 0)
{
Console.Error.WriteLine("Usage: ProtoBench [/fast] <descriptor type name> <input data>");
Console.Error.WriteLine("The descriptor type name is the fully-qualified message name,");
Console.Error.WriteLine("including assembly - e.g. Google.ProtocolBuffers.BenchmarkProtos.Message1,ProtoBench");
Console.Error.WriteLine("(You can specify multiple pairs of descriptor type name and input data.)");
return 1;
}
bool success = true;
for (int i = 0; i < args.Length; i += 2)
{
success &= RunTest(args[i], args[i + 1], null);
}
return success ? 0 : 1;
}
/// <summary>
/// Runs a single test. Error messages are displayed to Console.Error, and the return value indicates
/// general success/failure.
/// </summary>
public static bool RunTest(string typeName, string file, byte[] inputData)
{
Console.WriteLine("Benchmarking {0} with file {1}", typeName, file);
IMessage defaultMessage;
try
{
defaultMessage = MessageUtil.GetDefaultMessage(typeName);
}
catch (ArgumentException e)
{
Console.Error.WriteLine(e.Message);
return false;
}
try
{
ExtensionRegistry registry = ExtensionRegistry.Empty;
inputData = inputData ?? File.ReadAllBytes(file);
MemoryStream inputStream = new MemoryStream(inputData);
ByteString inputString = ByteString.CopyFrom(inputData);
IMessage sampleMessage = defaultMessage.WeakCreateBuilderForType().WeakMergeFrom(inputString, registry).WeakBuild();
IDictionary<string, object> dictionary = null;
byte[] jsonBytes = null, xmlBytes = null;/*no pun intended, well... maybe for xml*/
if (OtherFormats)
{
using (MemoryStream temp = new MemoryStream())
{
XmlFormatWriter.CreateInstance(temp).WriteMessage(sampleMessage);
xmlBytes = temp.ToArray();
}
using (MemoryStream temp = new MemoryStream())
{
JsonFormatWriter.CreateInstance(temp).WriteMessage(sampleMessage);
jsonBytes = temp.ToArray();
}
dictionary = new Dictionary<string, object>(StringComparer.Ordinal);
new DictionaryWriter(dictionary).WriteMessage(sampleMessage);
}
//Serializers
if(!FastTest) RunBenchmark("Serialize to byte string", inputData.Length, () => sampleMessage.ToByteString());
RunBenchmark("Serialize to byte array", inputData.Length, () => sampleMessage.ToByteArray());
if (!FastTest) RunBenchmark("Serialize to memory stream", inputData.Length,
() => sampleMessage.WriteTo(new MemoryStream()));
if (OtherFormats)
{
RunBenchmark("Serialize to xml", xmlBytes.Length, () =>
{
XmlFormatWriter.CreateInstance(new MemoryStream(), Encoding.UTF8).WriteMessage(sampleMessage);
});
RunBenchmark("Serialize to json", jsonBytes.Length, () =>
{
JsonFormatWriter.CreateInstance().WriteMessage(sampleMessage);
});
RunBenchmark("Serialize to json via xml", jsonBytes.Length,
() =>
XmlFormatWriter.CreateInstance(JsonReaderWriterFactory.CreateJsonWriter(new MemoryStream(), Encoding.UTF8))
.SetOptions(XmlWriterOptions.OutputJsonTypes)
.WriteMessage(sampleMessage)
);
RunBenchmark("Serialize to dictionary", sampleMessage.SerializedSize, () => new DictionaryWriter().WriteMessage(sampleMessage));
}
//Deserializers
if (!FastTest) RunBenchmark("Deserialize from byte string", inputData.Length,
() => defaultMessage.WeakCreateBuilderForType()
.WeakMergeFrom(inputString, registry)
.WeakBuild()
);
RunBenchmark("Deserialize from byte array", inputData.Length,
() => defaultMessage.WeakCreateBuilderForType()
.WeakMergeFrom(CodedInputStream.CreateInstance(inputData), registry)
.WeakBuild()
);
if (!FastTest) RunBenchmark("Deserialize from memory stream", inputData.Length,
() => {
inputStream.Position = 0;
defaultMessage.WeakCreateBuilderForType().WeakMergeFrom(
CodedInputStream.CreateInstance(inputStream), registry)
.WeakBuild();
});
if (OtherFormats)
{
RunBenchmark("Deserialize from xml", xmlBytes.Length, () => XmlFormatReader.CreateInstance(xmlBytes).Merge(defaultMessage.WeakCreateBuilderForType()).WeakBuild());
RunBenchmark("Deserialize from json", jsonBytes.Length, () => JsonFormatReader.CreateInstance(jsonBytes).Merge(defaultMessage.WeakCreateBuilderForType()).WeakBuild());
RunBenchmark("Deserialize from json via xml", jsonBytes.Length,
() => XmlFormatReader.CreateInstance(JsonReaderWriterFactory.CreateJsonReader(jsonBytes, System.Xml.XmlDictionaryReaderQuotas.Max))
.SetOptions(XmlReaderOptions.ReadNestedArrays).Merge(defaultMessage.WeakCreateBuilderForType()).WeakBuild());
RunBenchmark("Deserialize from dictionary", sampleMessage.SerializedSize, () => new DictionaryReader(dictionary).Merge(defaultMessage.WeakCreateBuilderForType()).WeakBuild());
}
Console.WriteLine();
return true;
}
catch (Exception e)
{
Console.Error.WriteLine("Error: {0}", e.Message);
Console.Error.WriteLine();
Console.Error.WriteLine("Detailed exception information: {0}", e);
return false;
}
}
private static void BenchmarkV2(string name, long dataSize, Action action)
{
Thread.BeginThreadAffinity();
TimeSpan elapsed = TimeSpan.Zero;
long runs = 0;
long totalCount = 0;
double best = double.MinValue, worst = double.MaxValue;
action();
// Run it progressively more times until we've got a reasonable sample
int iterations = 100;
elapsed = TimeAction(action, iterations);
while (elapsed.TotalMilliseconds < 1000)
{
elapsed += TimeAction(action, iterations);
iterations *= 2;
}
TimeSpan target = TimeSpan.FromSeconds(1);
elapsed = TimeAction(action, iterations);
iterations = (int)((target.Ticks * iterations) / (double)elapsed.Ticks);
elapsed = TimeAction(action, iterations);
iterations = (int)((target.Ticks * iterations) / (double)elapsed.Ticks);
elapsed = TimeAction(action, iterations);
iterations = (int)((target.Ticks * iterations) / (double)elapsed.Ticks);
double first = (iterations * dataSize) / (elapsed.TotalSeconds * 1024 * 1024);
if (Verbose) Console.WriteLine("Round ---: Count = {1,6}, Bps = {2,8:f3}", 0, iterations, first);
elapsed = TimeSpan.Zero;
int max = (int)TargetTime.TotalSeconds;
while (runs < max)
{
TimeSpan cycle = TimeAction(action, iterations);
// Accumulate and scale for next cycle.
double bps = (iterations * dataSize) / (cycle.TotalSeconds * 1024 * 1024);
if (Verbose) Console.WriteLine("Round {1,3}: Count = {2,6}, Bps = {3,8:f3}",
0, runs, iterations, bps);
best = Math.Max(best, bps);
worst = Math.Min(worst, bps);
runs++;
elapsed += cycle;
totalCount += iterations;
iterations = (int) ((target.Ticks*totalCount)/(double) elapsed.Ticks);
}
Thread.EndThreadAffinity();
Console.WriteLine("{1}: averages {2} per {3:f3}s for {4} runs; avg: {5:f3}mbps; best: {6:f3}mbps; worst: {7:f3}mbps",
0, name, totalCount / runs, elapsed.TotalSeconds / runs, runs,
(totalCount * dataSize) / (elapsed.TotalSeconds * 1024 * 1024), best, worst);
}
private static void BenchmarkV1(string name, long dataSize, Action action)
{
// Make sure it's JITted
action();
// Run it progressively more times until we've got a reasonable sample
int iterations = 1;
TimeSpan elapsed = TimeAction(action, iterations);
while (elapsed < MinSampleTime)
{
iterations *= 2;
elapsed = TimeAction(action, iterations);
}
// Upscale the sample to the target time. Do this in floating point arithmetic
// to avoid overflow issues.
iterations = (int) ((TargetTime.Ticks/(double) elapsed.Ticks)*iterations);
elapsed = TimeAction(action, iterations);
Console.WriteLine("{0}: {1} iterations in {2:f3}s; {3:f3}MB/s",
name, iterations, elapsed.TotalSeconds,
(iterations*dataSize)/(elapsed.TotalSeconds*1024*1024));
}
private static TimeSpan TimeAction(Action action, int iterations)
{
GC.Collect();
GC.GetTotalMemory(true);
GC.WaitForPendingFinalizers();
Stopwatch sw = Stopwatch.StartNew();
for (int i = 0; i < iterations; i++)
{
action();
}
sw.Stop();
return sw.Elapsed;
}
private static IEnumerable<KeyValuePair<string, string>> MakeTests()
{
//Aggregate Tests
yield return MakeWorkItem("all-types", MakeTestAllTypes());
yield return MakeWorkItem("repeated-100", MakeRepeatedTestAllTypes(100));
yield return MakeWorkItem("packed-100", MakeTestPackedTypes(100));
//Discrete Tests
foreach (KeyValuePair<string, Action<TestAllTypes.Builder>> item in MakeTestAllTypes())
yield return MakeWorkItem(item.Key, new[] { item });
foreach (KeyValuePair<string, Action<TestAllTypes.Builder>> item in MakeRepeatedTestAllTypes(100))
yield return MakeWorkItem(item.Key, new[] { item });
foreach (KeyValuePair<string, Action<TestPackedTypes.Builder>> item in MakeTestPackedTypes(100))
yield return MakeWorkItem(item.Key, new[] { item });
}
private static IEnumerable<KeyValuePair<string, Action<TestAllTypes.Builder>>> MakeTestAllTypes()
{
// Many of the raw type serializers below perform poorly due to the numerous fields defined
// in TestAllTypes.
//single values
yield return MakeItem<TestAllTypes.Builder>("int32", 1, x => x.SetOptionalInt32(1001));
yield return MakeItem<TestAllTypes.Builder>("int64", 1, x => x.SetOptionalInt64(1001));
yield return MakeItem<TestAllTypes.Builder>("uint32", 1, x => x.SetOptionalUint32(1001));
yield return MakeItem<TestAllTypes.Builder>("uint64", 1, x => x.SetOptionalUint64(1001));
yield return MakeItem<TestAllTypes.Builder>("sint32", 1, x => x.SetOptionalSint32(-1001));
yield return MakeItem<TestAllTypes.Builder>("sint64", 1, x => x.SetOptionalSint64(-1001));
yield return MakeItem<TestAllTypes.Builder>("fixed32", 1, x => x.SetOptionalFixed32(1001));
yield return MakeItem<TestAllTypes.Builder>("fixed64", 1, x => x.SetOptionalFixed64(1001));
yield return MakeItem<TestAllTypes.Builder>("sfixed32", 1, x => x.SetOptionalSfixed32(-1001));
yield return MakeItem<TestAllTypes.Builder>("sfixed64", 1, x => x.SetOptionalSfixed64(-1001));
yield return MakeItem<TestAllTypes.Builder>("float", 1, x => x.SetOptionalFloat(1001.1001f));
yield return MakeItem<TestAllTypes.Builder>("double", 1, x => x.SetOptionalDouble(1001.1001));
yield return MakeItem<TestAllTypes.Builder>("bool", 1, x => x.SetOptionalBool(true));
yield return MakeItem<TestAllTypes.Builder>("string", 1, x => x.SetOptionalString("this is a string value"));
yield return MakeItem<TestAllTypes.Builder>("bytes", 1, x => x.SetOptionalBytes(ByteString.CopyFromUtf8("this is an array of bytes")));
yield return MakeItem<TestAllTypes.Builder>("group", 1, x => x.SetOptionalGroup(new TestAllTypes.Types.OptionalGroup.Builder().SetA(1001)));
yield return MakeItem<TestAllTypes.Builder>("message", 1, x => x.SetOptionalNestedMessage(new TestAllTypes.Types.NestedMessage.Builder().SetBb(1001)));
yield return MakeItem<TestAllTypes.Builder>("enum", 1, x => x.SetOptionalNestedEnum(TestAllTypes.Types.NestedEnum.FOO));
}
private static IEnumerable<KeyValuePair<string, Action<TestAllTypes.Builder>>> MakeRepeatedTestAllTypes(int size)
{
//repeated values
yield return MakeItem<TestAllTypes.Builder>("repeated-int32", size, x => x.AddRepeatedInt32(1001));
yield return MakeItem<TestAllTypes.Builder>("repeated-int64", size, x => x.AddRepeatedInt64(1001));
yield return MakeItem<TestAllTypes.Builder>("repeated-uint32", size, x => x.AddRepeatedUint32(1001));
yield return MakeItem<TestAllTypes.Builder>("repeated-uint64", size, x => x.AddRepeatedUint64(1001));
yield return MakeItem<TestAllTypes.Builder>("repeated-sint32", size, x => x.AddRepeatedSint32(-1001));
yield return MakeItem<TestAllTypes.Builder>("repeated-sint64", size, x => x.AddRepeatedSint64(-1001));
yield return MakeItem<TestAllTypes.Builder>("repeated-fixed32", size, x => x.AddRepeatedFixed32(1001));
yield return MakeItem<TestAllTypes.Builder>("repeated-fixed64", size, x => x.AddRepeatedFixed64(1001));
yield return MakeItem<TestAllTypes.Builder>("repeated-sfixed32", size, x => x.AddRepeatedSfixed32(-1001));
yield return MakeItem<TestAllTypes.Builder>("repeated-sfixed64", size, x => x.AddRepeatedSfixed64(-1001));
yield return MakeItem<TestAllTypes.Builder>("repeated-float", size, x => x.AddRepeatedFloat(1001.1001f));
yield return MakeItem<TestAllTypes.Builder>("repeated-double", size, x => x.AddRepeatedDouble(1001.1001));
yield return MakeItem<TestAllTypes.Builder>("repeated-bool", size, x => x.AddRepeatedBool(true));
yield return MakeItem<TestAllTypes.Builder>("repeated-string", size, x => x.AddRepeatedString("this is a string value"));
yield return MakeItem<TestAllTypes.Builder>("repeated-bytes", size, x => x.AddRepeatedBytes(ByteString.CopyFromUtf8("this is an array of bytes")));
yield return MakeItem<TestAllTypes.Builder>("repeated-group", size, x => x.AddRepeatedGroup(new TestAllTypes.Types.RepeatedGroup.Builder().SetA(1001)));
yield return MakeItem<TestAllTypes.Builder>("repeated-message", size, x => x.AddRepeatedNestedMessage(new TestAllTypes.Types.NestedMessage.Builder().SetBb(1001)));
yield return MakeItem<TestAllTypes.Builder>("repeated-enum", size, x => x.AddRepeatedNestedEnum(TestAllTypes.Types.NestedEnum.FOO));
}
private static IEnumerable<KeyValuePair<string, Action<TestPackedTypes.Builder>>> MakeTestPackedTypes(int size)
{
//packed values
yield return MakeItem<TestPackedTypes.Builder>("packed-int32", size, x => x.AddPackedInt32(1001));
yield return MakeItem<TestPackedTypes.Builder>("packed-int64", size, x => x.AddPackedInt64(1001));
yield return MakeItem<TestPackedTypes.Builder>("packed-uint32", size, x => x.AddPackedUint32(1001));
yield return MakeItem<TestPackedTypes.Builder>("packed-uint64", size, x => x.AddPackedUint64(1001));
yield return MakeItem<TestPackedTypes.Builder>("packed-sint32", size, x => x.AddPackedSint32(-1001));
yield return MakeItem<TestPackedTypes.Builder>("packed-sint64", size, x => x.AddPackedSint64(-1001));
yield return MakeItem<TestPackedTypes.Builder>("packed-fixed32", size, x => x.AddPackedFixed32(1001));
yield return MakeItem<TestPackedTypes.Builder>("packed-fixed64", size, x => x.AddPackedFixed64(1001));
yield return MakeItem<TestPackedTypes.Builder>("packed-sfixed32", size, x => x.AddPackedSfixed32(-1001));
yield return MakeItem<TestPackedTypes.Builder>("packed-sfixed64", size, x => x.AddPackedSfixed64(-1001));
yield return MakeItem<TestPackedTypes.Builder>("packed-float", size, x => x.AddPackedFloat(1001.1001f));
yield return MakeItem<TestPackedTypes.Builder>("packed-double", size, x => x.AddPackedDouble(1001.1001));
yield return MakeItem<TestPackedTypes.Builder>("packed-bool", size, x => x.AddPackedBool(true));
yield return MakeItem<TestPackedTypes.Builder>("packed-enum", size, x => x.AddPackedEnum(ForeignEnum.FOREIGN_FOO));
}
private static KeyValuePair<string, Action<T>> MakeItem<T>(string name, int repeated, Action<T> build) where T : IBuilderLite, new()
{
if (repeated == 1)
return new KeyValuePair<string, Action<T>>(name, build);
return new KeyValuePair<string, Action<T>>(
String.Format("{0}[{1}]", name, repeated),
x =>
{
for (int i = 0; i < repeated; i++)
build(x);
}
);
}
private static KeyValuePair<string, string> MakeWorkItem<T>(string name, IEnumerable<KeyValuePair<string, Action<T>>> builders) where T : IBuilderLite, new()
{
T builder = new T();
foreach (KeyValuePair<string, Action<T>> item in builders)
item.Value(builder);
IMessageLite msg = builder.WeakBuild();
string fname = Path.Combine(AppDomain.CurrentDomain.BaseDirectory, "unittest_" + name + ".dat");
File.WriteAllBytes(fname, msg.ToByteArray());
return new KeyValuePair<string, string>(String.Format("{0},{1}", msg.GetType().FullName, msg.GetType().Assembly.GetName().Name), fname);
}
}
}
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