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ZString

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Zero Allocation StringBuilder for .NET Core and Unity.

  • Struct StringBuilder to avoid allocation of builder itself
  • Rent write buffer from ThreadStatic or ArrayPool
  • All append methods are generics(Append<T>(T value)) and write to buffer directly instead of concatenate value.ToString
  • T1~T16 AppendFormat(AppendFormat<T1,...,T16>(string format, T1 arg1, ..., T16 arg16) avoids boxing of struct argument
  • Also T1~T16 Concat(Concat<T1,...,T16>(T1 arg1, ..., T16 arg16)) avoid boxing and value.ToString allocation
  • Convinient ZString.Format/Concat/Join methods can replace instead of String.Format/Concat/Join
  • Can build both Utf16(Span<char>) and Utf8(Span<byte>) directly
  • Can use inner buffer to avoid allocate final string
  • Integrated with Unity TextMeshPro to avoid string allocation

image

This graph compares following codes.

  • "x:" + x + " y:" + y + " z:" + z
  • ZString.Concat("x:", x, " y:", y, " z:", z)
  • string.Format("x:{0} y:{1} z:{2}", x, y, z)
  • ZString.Format("x:{0} y:{1} z:{2}", x, y, z)
  • new StringBuilder(), Append(), .ToString()
  • ZString.CreateStringBuilder(), Append(), .ToString()

"x:" + x + " y:" + y + " z:" + z is converted to String.Concat(new []{ "x:", x.ToString(), " y:", y.ToString(), " z:", z.ToString() }) by C# compiler. It has each .ToString allocation and params array allocation. string.Format calls String.Format(string, object, object, object) so each arguments causes int -> object boxing.

All ZString methods only allocate final string. Also, ZString has enabled to access inner buffer so if output target has stringless api(like Unity TextMeshPro's SetCharArray), you can achieve completely zero allocation.

The blog post of detailed explanation by author: medium@neuecc/ZString

Related project for loggin using with ZString, Cysharp/ZLogger - Zero Allocation Text/Strcutured Logger.

Table of Contents

Getting Started

For .NET Core, use NuGet.

PM> Install-Package ZString

For Unity, check the releases page, download ZString.Unity.unitypackage.

using Cysharp.Text; // namespace

async void Example(int x, int y, int z)
{
    // same as x + y + z
    _ = ZString.Concat(x, y, z);

    // also can use numeric format strings
    _ = ZString.Format("x:{0}, y:{1:000}, z:{2:P}",x, y, z);

    _ = ZString.Join(',', x, y, z);

    // for Unity, direct write(avoid string allocation completely) to TextMeshPro
    tmp.SetTextFormat("Position: {0}, {1}, {2}", x, y, z);

    // create StringBuilder
    using(var sb = ZString.CreateStringBuilder())
    {
        sb.Append("foo");
        sb.AppendLine(42);
        sb.AppendFormat("{0} {1:.###}", "bar", 123.456789);

        // and build final string
        var str = sb.ToString();

        // for Unity, direct write to TextMeshPro
        tmp.SetText(sb);

        // write to destination buffer
        sb.TryCopyTo(dest, out var written);
    }

    // prepare format, return value should store to field(like RegexOptions.Compile)
    var prepared = ZString.PrepareUtf16<int, int>("x:{0}, y:{1:000}");
    _ = prepared.Format(10, 20);

    // C# 8.0, Using declarations
    // create Utf8 StringBuilder that build Utf8 directly to avoid encoding
    using var sb2 = ZString.CreateUtf8StringBuilder();

    sb2.Concat("foo:", x, ", bar:", y);

    // directly write to steam or dest to avoid allocation
    await sb2.WriteToAsync(stream);
    sb2.CopyTo(bufferWritter);
    sb2.TryCopyTo(dest, out var written);
}

Reference

static class ZString

method returns description
CreateStringBuilder() Utf16ValueStringBuilder Create the Utf16 string StringBuilder.
CreateStringBuilder(bool notNested) Utf16ValueStringBuilder Create the Utf16 string StringBuilder, when true uses thread-static buffer that is faster but must return immediately.
CreateUtf8StringBuilder() Utf8ValueStringBuilder Create the Utf8(Span<byte>) StringBuilder.
CreateUtf8StringBuilder(bool notNested) Utf8ValueStringBuilder Create the Utf8(Span<byte>) StringBuilder, when true uses thread-static buffer that is faster but must return immediately.
Join(char/string, T[]/IE<T>) string Concatenates the elements of an array, using the specified seperator between each element.
PrepareUtf16<T1,..,T16>(string) Utf16PreparedFormat<T1,...,T16> Prepare string format to avoid parse template in each operation.
PrepareUtf8<T1,..,T16>(string) Utf8PreparedFormat<T1,...,T16> Prepare string format to avoid parse template in each operation.
Concat<T1,..,T16>(T1,..,T16) string Concatenates the string representation of some specified values.
Format<T1,..,T16>(string, T1,..,T16) string Replaces one or more format items in a string with the string representation of some specified values.
Utf8Format<T1,..,T16>(IBufferWriter<byte>, T1,..,T16) void Replaces one or more format items in a string with the string representation of some specified values.

struct Utf16ValueStringBuilder : IBufferWriter<char>, IDisposable

method returns description
Length int Length of written buffer.
AsSpan() ReadOnlySpan<char> Get the written buffer data.
AsMemory() ReadOnlyMemory<char> Get the written buffer data.
AsArraySegment() ArraySegment<char> Get the written buffer data.
Dispose() void Return the inner buffer to pool.
Append<T>(T value) void Appends the string representation of a specified value to this instance.
Append<T>(T value, string format) void Appends the string representation of a specified value to this instance with numeric format strings.
AppendJoin(char/string, T[]/IE<T>) void Concatenates and appends the elements of an array, using the specified seperator between each element.
AppendLine() void Appends the default line terminator to the end of this instance.
AppendLine<T>(T value) void Appends the string representation of a specified value followed by the default line terminator to the end of this instance.
AppendLine<T>(T value, string format) void Appends the string representation of a specified value with numeric format strings followed by the default line terminator to the end of this instance.
AppendFormat<T1,..,T16>(string, T1,..,T16) void Appends the string returned by processing a composite format string, each format item is replaced by the string representation of arguments.
TryCopyTo(Span<char>, out int) bool Copy inner buffer to the destination span.
ToString() string Converts the value of this instance to a System.String.
GetMemory(int sizeHint) Memory<char> IBufferWriter.GetMemory.
GetSpan(int sizeHint) Span<char> IBufferWriter.GetSpan.
Advance(int count) void IBufferWriter.Advance.
static RegisterTryFormat<T>(TryFormat<T>) void Register custom formatter.

struct Utf8ValueStringBuilder : IBufferWriter<byte>, IDisposable

method returns description
Length int Length of written buffer.
AsSpan() ReadOnlySpan<char> Get the written buffer data.
AsMemory() ReadOnlyMemory<char> Get the written buffer data.
AsArraySegment() ArraySegment<char> Get the written buffer data.
Dispose() void Return the inner buffer to pool.
Append<T>(T value) void Appends the string representation of a specified value to this instance.
Append<T>(T value, StandardFormat format) void Appends the string representation of a specified value to this instance with numeric format strings.
AppendJoin(char/string, T[]/IE<T>) void Concatenates and appends the elements of an array, using the specified seperator between each element.
AppendLine() void Appends the default line terminator to the end of this instance.
AppendLine<T>(T value) void Appends the string representation of a specified value followed by the default line terminator to the end of this instance.
AppendLine<T>(T value, StandardFormat format) void Appends the string representation of a specified value with numeric format strings followed by the default line terminator to the end of this instance.
AppendFormat<T1,..,T16>(string, T1,..,T16) void Appends the string returned by processing a composite format string, each format item is replaced by the string representation of arguments.
CopyTo(IBufferWriter<byte>) void Copy inner buffer to the buffer writer.
TryCopyTo(Span<byte>, out int) bool Copy inner buffer to the destination span.
WriteToAsync(Stream stream) Task Write inner buffer to stream.
ToString() string Encode the innner utf8 buffer to a System.String.
GetMemory(int sizeHint) Memory<char> IBufferWriter.GetMemory.
GetSpan(int sizeHint) Span<char> IBufferWriter.GetSpan.
Advance(int count) void IBufferWriter.Advance.
static RegisterTryFormat<T>(TryFormat<T>) void Register custom formatter.

class Utf16PreparedFormat<T1,..,T16>

method returns description
Format string Replaces one or more format items in a string with the string representation of some specified values.
FormatTo<TBufferWriter>(ref TBufferWriter, T1,..,T16) void Replaces one or more format items in a string with the string representation of some specified values.

class Utf8PreparedFormat<T1,..,T16>

method returns description
Format string Replaces one or more format items in a string with the string representation of some specified values.
FormatTo<TBufferWriter>(ref TBufferWriter, T1,..,T16) void Replaces one or more format items in a string with the string representation of some specified values.

static class TextMeshProExtensions(Unity only)

method returns description
SetText(Utf16ValueStringBuilder) void Set inner buffer to text mesh pro directly to avoid string allocation.
SetTextFormat<T1,..,T16>(string, T1,..,T16) void Set formatted string without string allocation.

Unity

In Unity, if you encount the following error

The type 'Unsafe' exists in both 'System.Runtime.CompilerServices.Unsafe, Version=4.0.6.0, Culture=neutral, PublicKeyToken=b03f5f7f11d50a3a' and 'System.Runtime.CompilerServices.Unsafe, Version=4.0.4.0, Culture=neutral, PublicKeyToken=b03f5f7f11d50a3a'

This is caused from dll conflict, for example Unity Collections package includes System.Runtime.CompilerServices.Unsafe.dll but ZString provides System.Runtime.CompilerServices.Unsafe.dll to Plugins.

Detail of issue in Unity Forum - [Bug 1214643][2019.3.0f5] System.Runtime.CompilerServices.Unsafe clashes with imported dll

Workround:

  • Copy Collections from Library/PackageCache to %Project Folder%/Packages
  • Remove CompilerServices.Unsafe dll from said folder

Advanced Tips

ZString.CreateStringBuilder(notNested:true) is a special optimized parameter that uses ThreadStatic buffer instead of rent from ArrayPool. It is slightly faster but can not use in nested.

using(var sb = ZString.CreateStringBuilder(true))
{
    sb.Append("foo");

    using var sb2 = ZString.CreateStringBuilder(true); // NG, nested stringbuilder uses conflicted same buffer
    var str = ZString.Concat("x", 100); // NG, ZString.Concat/Join/Format uses threadstatic buffer
}
// OK, return buffer immediately.
using(var sb = ZString.CreateStringBuilder(true))
{
    sb.Append("foo");
    return sb.ToString();
}

ZString.CreateStringBuilder() is same as ZString.CreateStringBuilder(notNested:false).


In default, SByte, Int16, Int32, Int64, Byte, UInt16, UInt32, UInt64, Single, Double, TimeSpan, DateTime, DateTimeOffset, Decimal, Guid, String, Char are used there own formatter to avoid .ToString() allocation, write directly to buffer. If not exists there list type, used .ToString() and copy string data.

If you want to avoid to convert string in custom type, you can register your own formatter.

Utf16ValueStringBuilder.RegisterTryFormat((MyStruct value, Span<char> destination, out int charsWritten, ReadOnlySpan<char> format) =>
{
    // write value to destionation and set size to charsWritten.
    charsWritten = 0;
    return true;
});

Utf8ValueStringBuilder.RegisterTryFormat((MyStruct value, Span<byte> destination, out int written, StandardFormat format) =>
{
    written = 0;
    return true;
});

CreateStringBuilder and CreateUtf8StringBuilder must use with using. Because their builder rent 64K buffer from ArrayPool. If not return buffer, allocate 64K buffer when string builder is created.


Utf16ValueStringBuilder and Utf8ValueStringBuilder are mutable struct, be careful to copy by passing method. Use ref and try-finally.

void Build()
{
    var sb = ZString.CreateStringBuilder();
    try
    {
        BuildHeader(ref sb);
        BuildMessage(ref sb);
    }
    finally
    {
        // when use with `ref`, can not use `using`.
        sb.Dispose();
    }
}


void BuildHeader(ref Utf16ValueStringBuilder builder)
{
    //..
}

void BuildMessage(ref Utf16ValueStringBuilder builder)
{
    //..
}

Utf8Format, Utf8StringBuilder uses Utf8Formatter.TryFormat and there format string is not same as standard format. It uses StandardFormat, combinate of symbol char and precision. Supported format string symbol can find in Utf8Formatter.TryFormat document(For example Int32 supports G, D, N, X and Boolean supports G, I). Precision(zero padding) can pass after symbol like D2. For example sb.AppendFormat("{0:D2}:{1:D2}:{2:D2}", hour, minute, second).

TryFormat(DateTime) and TryFormat(TimeSpan) symbol is too restricted than standard string format. If you want to use custom format, deconstruct there Day, Hour, etc.


Utf8ValueStringBuilder and Utf16ValueStringBuilder implements IBufferWriter so you can pass serializer(such as JsonSerializer of System.Text.Json). But be careful to boxing copy, ValueStringBuilder is mutable struct. For example,

using var sb = ZString.CreateUtf8StringBuilder();
IBufferWriter<byte> boxed = sb;
var writer = new Utf8JsonWriter(boxed);
JsonSerializer.Serialize(writer, ....);

using var unboxed = (Utf8ValueStringBuilder)boxed;
var str = unboxed.ToString();

License

This library is licensed under the MIT License.

.NET Standard 2.0 and Unity version borrows dotnet/runtime conversion methods, there exists under ZString/Number directory. This third-party license follows runtime/LICENSE.TXT.

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