ZLogger

Zero Allocation Text/Structured Logger for .NET and Unity, with StringInterpolation and Source Generator, built on top of a Microsoft.Extensions.Logging.

The usual destinations for log output are Console(Stream), File(Stream), Network(Stream), all in UTF8 format. However, since typical logging architectures are based on Strings (UTF16), this requires additional encoding costs. In ZLogger, we utilize the String Interpolation Improvement of C# 10 and by leveraging .NET 8's IUtf8SpanFormattable, we have managed to avoid the boxing of values and maintain high performance by consistently outputting directly in UTF8 from input to output.

ZLogger is built directly on top of Microsoft.Extensions.Logging. Microsoft.Extensions.Logging is an official log abstraction used in many frameworks, such as ASP.NET Core and Generic Host. However, since regular loggers have their own systems, a bridge is required to connect these systems, and this is where a lot of overhead can be observed. ZLogger eliminates the need for this bridge, thereby completely avoiding overhead.

This benchmark is for writing to a file, but the default settings of typical loggers are very slow. This is because they flush after every write. In the benchmark, to ensure fairness, careful attention was paid to set the options in each logger for maximum speed. ZLogger is designed to be the fastest by default, so there is no need to worry about any settings.

The slowness of this default setting is due to I/O, so it can be mitigated by using a faster drive. When taking benchmarks, please note that the results can vary greatly not only on your local (which is probably fast!) but also on drives attached to the cloud and in environments like Docker. One of the good points about the async-buffered setting is that it can reduce the impact of such I/O issues.

ZLogger focuses on the new syntax of C#, and fully adopts Interpolated Strings.

This allows for providing parameters to logs in the most convenient form. Also, by closely integrating with System.Text.Json's Utf8JsonWriter, it not only enables high-performance output of text logs but also makes it possible to efficiently output structured logs.

ZLogger also emphasizes console output, which is crucial in cloud-native applications. By default, it outputs with performance that can withstand destinations in cloud log management. Of course, it supports both text logs and structured logs.

ZLogger delivers its best performance with .NET 8 and above, but it is designed to maintain consistent performance with .NET Standard 2.0 and .NET 6 through a fallback to its own IUtf8SpanFormattable.

As for standard logger features, it supports loading LogLevel from json, filtering by category, and scopes, as found in Microsoft.Extensions.Logging. In terms of output destinations, it is equipped with sufficient capabilities for Console, File, RollingFile, InMemory, Stream, and an AsyncBatchingProcessor for sending logs over HTTP and similar protocols.

Table of Contents

• Getting Started
• Logging Providers
  • Console
  • File
  • RollingFile
  • Stream
  • In-Memory
  • LogProcessor
• Formatter Configurations
  • PlainText
  • JSON
    • KeyNameMutator
  • MessagePack
  • Custom Formatter
• LogInfo
• ZLoggerOptions
• ZLoggerMessage Source Generator
• Microsoft.CodeAnalysis.BannedApiAnalyzers
• Global LoggerFactory
• Unity
  • Installation
  • Basic usage
• License

Getting Started

This library is distributed via NuGet, supporting .NET Standard 2.0, .NET Standard 2.1, .NET 6(.NET 7) and .NET 8 or above. For Unity, the requirements and installation process are completely different. See the Unity section for details.

dotnet add package ZLogger

Here is the most simple sample on ASP.NET Core.

using ZLogger;

var builder = WebApplication.CreateBuilder(args);

builder.Logging.ClearProviders();
builder.Logging.AddZLoggerConsole();

You can get logger from dependency injection.

@page
@using ZLogger;
@inject ILogger<Index> logger
@{
    logger.ZLogInformation($"Requested path: {this.HttpContext.Request.Path}");
}

This simple logger setup is possible because it is integrated with Microsoft.Extensions.Logging by default. For reference, here's how you would set it up using LoggerFactory:

using Microsoft.Extensions.Logging;
using ZLogger;

using var factory = LoggerFactory.Create(logging =>
{
    logging.SetMinimumLevel(LogLevel.Trace);

    // Add ZLogger provider to ILoggingBuilder
    logging.AddZLoggerConsole();
    
    // Output Structured Logging, setup options
    // logging.AddZLoggerConsole(options => options.UseJsonFormatter());
});

var logger = factory.CreateLogger("Program");

var name = "John";
var age = 33;

// Use **Z**Log method and string interpolation to log message
logger.ZLogInformation($"Hello my name is {name}, {age} years old.");

Normally, you don't create LoggerFactory yourself. Instead, you set up a Generic Host and receive ILogger through dependency injection (DI). You can setup logger by .NET Generic Host(for ASP.NET Core) and if you want to use this in ConsoleApplication, we provides ConsoleAppFramework to use hosting abstraction.

Here is the showcase of providers.

using ZLogger;

var builder = Host.CreateApplicationBuilder();

builder.Logging
    // optional(MS.E.Logging):clear default providers(recommend to remove all)
    .ClearProviders()

    // optional(MS.E.Logging):setup minimum log level
    .SetMinimumLevel(LogLevel.Trace)
    
    // Add to output to console
    .AddZLoggerConsole();

    // Add to output to the file
    .AddZLoggerFile("/path/to/file.log")
    
    // Add to output the file that rotates at constant intervals.
    .AddZLoggerRollingFile(options =>
    {
        // File name determined by parameters to be rotated
        options.FilePathSelector = (timestamp, sequenceNumber) => $"logs/{timestamp.ToLocalTime():yyyy-MM-dd}_{sequenceNumber:000}.log";
        
        // The period of time for which you want to rotate files at time intervals.
        options.RollingInterval = RollingInterval.Day;
        
        // Limit of size if you want to rotate by file size. (KB)
        options.RollingSizeKB = 1024;        
    })    
    
    // Add to output of simple rendered strings into memory. You can subscribe to this and use it.
    .AddZLoggerInMemory(processor =>
    {
        processor.MessageReceived += renderedLogString => 
        {
            System.Console.WriteLine(renderedLogString);    
        };
    })
    
    // Add output to any steram (`System.IO.Stream`)
    .AddZLoggerStream(stream);

    // Add custom output
    .AddZLoggerLogProcessor(new YourCustomLogExporter());
    
    // Format as json
    .AddZLoggerConsole(options =>
    {
        options.UseJsonFormatter();
    })
    
    // Format as json and configure output
    .AddZLoggerConsole(options =>
    {
        options.UseJsonFormatter(formatter =>
        {
            formatter.IncludeProperties = IncludeProperties.ParameterKeyValues;
        });
    })

    // Further common settings
    .AddZLoggerConsole(options =>
    {
        // Enable LoggerExtensions.BeginScope
        options.IncludeScopes = true;
        
        // Set TimeProvider
        options.TimeProvider = yourTimeProvider
    });

Look at the use of loggers and the syntax of ZLog.

using Microsoft.Extensions.Logging;
using ZLogger;

// get ILogger<T> from DI.
public class MyClass(ILogger<MyClass> logger)
{
    // name = "Bill", city = "Kumamoto", age = 21
    public void Foo(string name, string city, int age)
    {
        // plain-text:
        // Hello, Bill lives in Kumamoto 21 years old.
        // json:
        // {"Timestamp":"2023-11-30T17:28:35.869211+09:00","LogLevel":"Information","Category":"MyClass","Message":"Hello, Bill lives in Kumamoto 21 years old.","name":"Bill","city":"Kumamoto","age":21}
        // json(IncludeProperties.ParameterKeyValues):
        // {"name":"Bill","city":"Kumamoto","age":21}
        logger.ZLogInformation($"Hello, {name} lives in {city} {age} years old.");
    
        // Explicit property name, you can use custom format string start with '@'
        logger.ZLogInformation($"Hello, {name:@user-name} id:{100:@id} {age} years old.");
    
        // Dump variables as JSON, you can use custom format string `json`
        var user = new User(1, "Alice");

        // user: {"Id":1,"Name":"Bob"}
        logger.ZLogInformation($"user: {user:json}");
    }
}

All standard .Log methods are processed as strings by ZLogger's Provider. However, by using our unique .ZLog* methods, you can process them at high performance while remaining in UTF8. Additionally, these methods support both text logs and structured logs using String Interpolation syntax.

All logging methods are completely similar as Microsoft.Extensions.Logging.LoggerExtensions, but it has Z prefix overload.

The ZLog* method uses InterpolatedStringHandler in .NET and prepare the template at compile time.

Some special custom formats are also supported. The :@ can be used when you want to explicitly give the structured log a name other than the name of the variable to capture. :json can be used to log the result of JsonSerializing an object.

The @ parameter name specification and format string can be used together.

// Today is 2023-12-19.
// {"date":"2023-12-19T11:25:34.3642389+09:00"}
logger.ZLogDebug($"Today is {DateTime.Now:@date:yyyy-MM-dd}.");

Logging Providers

By adding Providers, you can configure where the logs are output. ZLogger has the following providers.

Type	Alias	Builder Extension
ZLoggerConsoleLoggerProvider	ZLoggerConsole	AddZLoggerConsole
ZLoggerFileLoggerProvider	ZLoggerFile	AddZLoggerFile
ZLoggerRollingFileLoggerProvider	ZLoggerRollingFile	AddZLoggerRollingFile
ZLoggerStreamLoggerProvider	ZLoggerStream	AddZLoggerStream
ZLoggerInMemoryProcessorLoggerProvider	ZLoggerInMemory	AddZLoggerInMemory
ZLoggerLogProcessorLoggerProvider	ZLoggerLogProcessor	AddZLoggerLogProcessor

All Providers can take an Action that sets ZLoggerOptions as the last argument. As follows.

builder.Logging
    .ClearProviders()

    // Configure options
    .AddZLoggerConsole(options => 
    {
        options.LogToStandardErrorThreshold = LogLevel.Error;
    });
    
    // Configure options with service provider
    .AddZLoggerConsole((options, services) => 
    {
        options.TimeProvider = services.GetService<YourCustomTimeProvider>();
    });

If you are using Microsoft.Extensions.Configuration, you can set the log level through configuration. In this case, alias of Provider can be used. for example:

{
  "Logging": {
    "LogLevel": {
      "Default": "Information"
    },
    "ZLoggerConsoleLoggerProvider": {
      "LogLevel": {
        "Default": "Debug"
      }
    }
  }
}

Each Provider's behavior can be modified using the common ZLoggerOptions. For details, please refer to the ZLoggerOptions section. Additionally, you can customize structured logging (JSON Logging) using the UseFormatter method within these options. For more information on this, check the Formatter Configurations section.

Console

Console writes to the standard output. Console output is not only for development purposes, but also serves as a standard log input port in containerized and cloud environments, making performance critically important. ZLogger has been optimized to maximize console output performance.

logging.AddZLoggerConsole();

If you are using ZLoggerConsoleLoggerProvider, the following additional options are available:

Name	Description
bool OutputEncodingToUtf8	Set Console.OutputEncoding = new UTF8Encoding(false) when the provider is created. (default: true)
bool ConfigureEnableAnsiEscapeCode	If set true, then configure console option on execution and enable virtual terminal processing(enable ANSI escape code). (default: false)
LogLevel LogToStandardErrorThreshold	If set, logs at a higher level than the value will be output to standard error. (default: LogLevel.None)

File

File outputs text logs to a file. This is a Provider that writes to a single file in append mode at high speed.

logging.AddZLoggerFile("log.txt");

If you are using ZLoggerFileLoggerProvider, the following additional options are available:

Name	Description
bool fileShared	If set true, enables exclusive control of writing to the same file from multiple processes.(default: false)

RollingFile

RollingFile is a Provider that dynamically changes the output file based on certain conditions.

// output to  yyyy-MM-dd_*.log, roll by 1MB or changed date
logging.AddZLoggerRollingFile((dt, index) => $"{dt:yyyy-MM-dd}_{index}.log", 1024 * 1024);

If you are using ZLoggerRollingFileLoggerProvider, the following additional options are available:

Name	Description
Func<DateTimeOffset, int, string> fileNameSelector	The Func to consturct the file path. DateTimeOffset is date of file open time(UTC), int is number sequence.
RollingInterval rollInterval	Interval to automatically rotate files.
int rollSizeKB	Limit size of single file. If the file size is exceeded, a new file is created with the sequence number moved up.
bool fileShared	If set true, enables exclusive control of writing to the same file from multiple processes.(default: false)

Stream

Stream can output logs to any arbitrary Stream. For example, if you output to a MemoryStream, you can retrieve the rendered results in memory. If you pass a NetworkStream such as TCP, it will write logs over the network.

var ms = new MemoryStream();
logging.AddZLoggerStream(ms);

In-Memory

InMemory allows you to retrieve rendered strings as they are generated. It can be conveniently used for purposes such as accumulating logs in a List<string> or Queue<string> for display on screen.

logging.AddZLoggerInMemory(processor =>
{
    processor.MessageReceived += msg =>
    {
        Console.WriteLine($"Received:{msg}");
    };
});

If you are using ZLoggerInMemoryLoggerProvider, the following additional options are available:

Name	Description
string processorKey	If specified, InMemoryObservableLogProcessor is registered in the DI container as a keyed service and can be retrieved by name.
Action<InMemoryObservableLogProcessor> configureProcessor	Custom actions can be added that use processors instead of DI containers.

LogProcessor

LogProcessor is the most primitive Provider that allows you to customize output on a per-log basis (IZLoggerEntry) by implementing a custom IAsyncLogProcessor.

public interface IAsyncLogProcessor : IAsyncDisposable
{
    void Post(IZLoggerEntry log);
}

For example, a LogProcessor that propagates logs as string events can be written as follows:

public class SimpleInMemoryLogProcessor : IAsyncLogProcessor
{
    public event Action<string>? OnMessageReceived;

    public void Post(IZLoggerEntry log)
    {
        var msg = log.ToString();
        log.Return();
        
        OnMessageReceived?.Invoke(msg);
    }

    public ValueTask DisposeAsync()
    {
        return default;
    }
}

var processor = new SimpleInMemoryLogProcessor();
processor.OnMessageReceived += msg => Console.WriteLine(msg);

logging.AddZLoggerLogProcessor(processor);

Note that IZLoggerEntry is pooled, so you must always call Return().

Here's a more complex example. BatchingAsyncLogProcessor can batch logs together, which is useful for scenarios like sending multiple log lines via HTTP in a single request.

public class BatchingHttpLogProcessor : BatchingAsyncLogProcessor
{
    HttpClient httpClient;
    ArrayBufferWriter<byte> bufferWriter;
    IZLoggerFormatter formatter;

    public BatchingHttpLogProcessor(int batchSize, ZLoggerOptions options)
        : base(batchSize, options)
    {
        httpClient = new HttpClient();
        bufferWriter = new ArrayBufferWriter<byte>();
        formatter = options.CreateFormatter();
    }

    protected override async ValueTask ProcessAsync(IReadOnlyList<INonReturnableZLoggerEntry> list)
    {
        foreach (var item in list)
        {
            item.FormatUtf8(bufferWriter, formatter);
        }
        
        var byteArrayContent = new ByteArrayContent(bufferWriter.WrittenSpan.ToArray());
        await httpClient.PostAsync("http://foo", byteArrayContent).ConfigureAwait(false);

        bufferWriter.Clear();
    }

    protected override ValueTask DisposeAsyncCore()
    {
        httpClient.Dispose();
        return default;
    }
}

In this case, the LogEntry is NonReturnable, so there's no need to call Return().

Formatter Configurations

Both PlainText and JSON can be customized in addition to the standard log formats.

PlainText

logging.AddZLoggerConsole(options =>
{
    // Text format
    // e.g) "2023-12-01 16:41:55.775|Information|This is log message. (MyNamespace.MyApp)
    options.UsePlainTextFormatter(formatter =>
    {
        formatter.SetPrefixFormatter($"{0}|{1}|", (in MessageTemplate template, in LogInfo info) => template.Format(info.Timestamp, info.LogLevel));
        formatter.SetSuffixFormatter($" ({0})", (in MessageTemplate template, in LogInfo info) => template.Format(info.Category));
        formatter.SetExceptionFormatter((writer, ex) => Utf8StringInterpolation.Utf8String.Format(writer, $"{ex.Message}"));
    });
});

You can set Prefix and Suffix individually for text output. For performance reasons, the first argument is a special String Interpolation Template, which is formatted by the lambda expression in the second argument. For properties that can actually be retrieved with LogInfo, refer to LogInfo. It is also possible to retrieve the log file path and line number from LogInfo.

Only LogLevel supports a special format specification. By passing :short, you can get a 3-character log level notation such as TRC, DBG, INF, WRN, ERR, CRI, NON (the length of the beginning matches, making it easier to read when opened in an editor). For Timestamp, there are local | local-longdate | longdate(local, local-longdate, longdate are same, there are alias), utc | utc-longdate, datetime | local-datetime, utc-datetime, dateonly | local-dateonly, utc-dateonly, timeonly | local-timeonly, utc-timeonly. Default is local.

logging.AddZLoggerConsole(options =>
{
    options.UsePlainTextFormatter(formatter =>
    {
        // 2023-12-19 02:46:14.289 [DBG]......
        formatter.SetPrefixFormatter($"{0:utc-longdate} [{1:short}]", (template, info) => template.Format(info.Timestamp, info.LogLevel));
    });
});

SetExceptionFormatter allows you to customize the display when outputting exceptions. This can be easily converted to a string using Utf8String.Format.

JSON

You can flexibly change the JSON output format by modifying the JsonFormatter options. For example, if you set IncludeProperties to only ParameterKeyValues, you will get only the payload JSON. By default, the payload part is output directly without nesting, but if you set PropertyKeyValuesObjectName, you can output the payload JSON to a nested location. It is also possible to add values for arbitrary JSON Objects using AdditionalFormatter.

The following is an example of customization to conform to the Google Cloud Logging format. We have also changed standard key names such as Timestamp.

using System.Text.Json;
using ZLogger;
using ZLogger.Formatters;

namespace ConsoleApp;

using static IncludeProperties;
using static JsonEncodedText; // JsonEncodedText.Encode

public static class CloudLoggingExtensions
{
    // Cloud Logging Json Field
    // https://cloud.google.com/logging/docs/structured-logging?hl=en
    public static ZLoggerOptions UseCloudLoggingJsonFormat(this ZLoggerOptions options)
    {
        return options.UseJsonFormatter(formatter =>
        {
            // Category and ScopeValues is manually write in AdditionalFormatter at labels so remove from include properties.
            formatter.IncludeProperties = Timestamp | LogLevel | Message | ParameterKeyValues;

            formatter.JsonPropertyNames = JsonPropertyNames.Default with
            {
                LogLevel = Encode("severity"),
                LogLevelNone = Encode("DEFAULT"),
                LogLevelTrace = Encode("DEBUG"),
                LogLevelDebug = Encode("DEBUG"),
                LogLevelInformation = Encode("INFO"),
                LogLevelWarning = Encode("WARNING"),
                LogLevelError = Encode("ERROR"),
                LogLevelCritical = Encode("CRITICAL"),

                Message = Encode("message"),
                Timestamp = Encode("timestamp"),
            };

            formatter.PropertyKeyValuesObjectName = Encode("jsonPayload");

            // cache JsonEncodedText outside of AdditionalFormatter
            var labels = Encode("logging.googleapis.com/labels");
            var category = Encode("category");
            var eventId = Encode("eventId");
            var userId = Encode("userId");

            formatter.AdditionalFormatter = (Utf8JsonWriter writer, in LogInfo) =>
            {
                writer.WriteStartObject(labels);
                writer.WriteString(category, logInfo.Category.JsonEncoded);
                writer.WriteString(eventId, logInfo.EventId.Name);

                if (logInfo.ScopeState != null && !logInfo.ScopeState.IsEmpty)
                {
                    foreach (var item in logInfo.ScopeState.Properties)
                    {
                        if (item.Key == "userId")
                        {
                            writer.WriteString(userId, item.Value!.ToString());
                            break;
                        }
                    }
                }
                writer.WriteEndObject();
            };
        });
    }
}

The list of properties is as follows.

Name	Description
JsonPropertyNames JsonPropertyNames	Specify the name of each key in the output JSON
IncludeProperties IncludeProperties	Flags that can specify properties to be output. (default: Timestamp, LogLevel, CategoryName, Message, Exception, ScopeKeyValues, ParameterKeyValues)
JsonSerializerOptions JsonSerializerOptions	The options of System.Text.Json
JsonLogInfoFormatter? AdditionalFormatter	Action when rendering additional properties based on LogInfo.
JsonEncodedText? PropertyKeyValuesObjectName	If set, the key/value properties is nested under the specified key name.
IKeyNameMutator? KeyNameMutator	You can set the naming convention if you want to automatically convert key names.
bool UseUtcTimestamp	If true, timestamp is output in utc. (default: false)

KeyNameMutator

By default, JSON key names are output as is, so in the following character output, "user.Name" becomes the JSON key name.

var user = new User(1, "Alice");
logger.ZLogInformation($"Name: {user.Name}");

If you set this to formatter.KeyNameMutator = KeyNameMutator.LastMemberName, it becomes Name. If you set this to LastMemberNameLowerFirstCharacter, the first character is replaced with lower-case, resulting in name.

The following is a list of KeyNameMutators provided as standard:

Name	Description
LastMemberName	Returns the last member name of the source.
LowerFirstCharacter	The first character converted to lowercase.
UpperFirstCharacter	The first character converted to uppercase.
LastMemberNameLowerFirstCharacter	Returns the last member name of the source with the first character converted to lowercase.
LastMemberNameUpperFirstCharacter	Returns the last member name of the source with the first character converted to uppercase.

MessagePack

We also support structured logging output in binary format using MessagePack instead of JSON. UseMessagePackFormatter() requires a reference to the additional package ZLogger.MessagePack.

PM> Install-Package ZLogger.MessagePack

logging.AddZLoggerFile("log.bin", options =>
{
    options.UseMessagePackFormatter();
});

MessagePack extension uses MessagePack-CSharp as writer.

The list of properties is as follows.

Name	Description
MessagePackSerializerOptions MessagePackSerializerOptions	The options of MessagePack-CSharp.
IncludeProperties IncludeProperties	Flags that can specify properties to be output. (default: `Timestamp
IKeyNameMutator? KeyNameMutator	You can set the naming convention if you want to automatically convert key names.

Custom Formatter

If you want to create a formatter other than the default PlainText, Json, and MessagePack, you can implement IZloggerFormatter to create any custom output.

public interface IZLoggerFormatter
{
    bool WithLineBreak { get; }
    void FormatLogEntry<TEntry>(IBufferWriter<byte> writer, TEntry entry)
        where TEntry : IZLoggerEntry;
}

options.UseFormatter(() => new MyFormatter());

LogInfo

Additional information about when each log was written can be obtained from this LogInfo struct.

Name	Description
LogCategory Category	The category name set for each logger. And holds JsonEncodedText and utf8 byte sequence representations.
Timestamp Timestamp	Timestamp
LogLevel LogLevel	LogLevel of Microsoft.Extensions.Logging
EventId EventId	EventId of Microsoft.Extensions.Logging
Exception? Exception	Exception given as argument when logging.
LogScopeState? ScopeState	Additional properties set by ILogger.BeginScope(...) (if ZLoggerOptions.IncludeScopes = true)
ThreadInfo ThreadInfo	Additional properties set by ZLoggerOptions.CaptureThreadInfo = true)
object? Context	Additional context
string? MemberName	Caller MemberName
string? FilePath	Caller FilePath
int LineNumber	Caller LineNumber

ZLoggerOptions

The following are common option items for all providers.

Name	Description
bool IncludeScopes { get; set; }	Enable ILogger.BeginScope, default is false.
bool IsFormatLogImmediatelyInStandardLog { get; set; }	Fallback of standard logger.Log, message stringify immediately or not. Default is true.
bool CaptureThreadInfo { get; set; }	Capture information about the thread that generated a log entry. Default is false.
TimeProvider? TimeProvider { get; set; }	Gets or sets the time provider for the logger. The Timestamp of LogInfo is generated by TimeProvider's GetUtcNow() and LocalTimeZone when TimeProvider is set. The default value is null, which means use the system standard.
Action<Exception>? InternalErrorLogger { get; set; }	InternalErrorLogger is a delegate that is called when an exception occurs in the log writing process (such as a serialization error). The default value is null, which means errors are ignored.
CreateFormatter()	Create an formatter to use in ZLoggerProvider.
UseFormatter(Func<IZLoggerFormatter> formatterFactory)	Set the formatter that defines the output format of the log.
UsePlainTextFormatter(Action<PlainTextZLoggerFormatter>? configure = null)	Use the built-in plain text formatter.
UseJsonFormatter(Action<SystemTextJsonZLoggerFormatter>? configure = null)	Use the built-in json formatter. (implementation of System.Text.Json)

By default, UsePlainTextFormatter is set. Also, only one formatter can be set for one provider. If you want to use multiple formatters, you need to add multiple providers.

// Show plain text log for console, json log for file
logging.AddZLoggerConsole(options => options.UsePlainTextFormatter());
logging.AddZLoggerFile("json.log", options => options.UseJsonFormatter());

ZLoggerMessage Source Generator

A log method generator similar to .NET 6's Compile-time logging source generation is bundled as standard.

public static partial class MyLogger
{
    [ZLoggerMessage(LogLevel.Information, "Bar: {x} {y}")]
    public static partial void Bar(this ILogger<Foo> logger, int x, int y);
}

This can achieve the highest performance. It's also possible to use special format specifiers like :json.

Microsoft.CodeAnalysis.BannedApiAnalyzers

Microsoft.CodeAnalysis.BannedApiAnalyzers is an interesting analyzer, you can prohibit the normal Log method and induce the user to call ZLogger's ZLog method.

All you have to do is prepare the following configuration.

T:Microsoft.Extensions.Logging.LoggerExtensions;Don't use this, use ZLog*** instead.
T:System.Console;Don't use this, use logger instead.

Global LoggerFactory

Like the traditional log manager, how to get and store logger per type without DI(such as static readonly ILogger logger = LogManager.GetLogger()). You can get ILoggerFactory from IHost before Run and set to the global static loggerfactory store.

using var host = Host.CreateDefaultBuilder()
    .ConfigureLogging(logging =>
    {
        logging.ClearProviders();
        logging.AddZLoggerConsole();
    })
    .Build(); // use Build instead of Run directly

// get configured loggerfactory.
var loggerFactory = host.Services.GetRequiredService<ILoggerFactory>();

LogManager.SetLoggerFactory(loggerFactory, "Global");

// Run after set global logger.
await host.RunAsync();

// -----

// Own static logger manager
public static class LogManager
{
    static ILogger globalLogger = default!;
    static ILoggerFactory loggerFactory = default!;

    public static void SetLoggerFactory(ILoggerFactory loggerFactory, string categoryName)
    {
        LogManager.loggerFactory = loggerFactory;
        LogManager.globalLogger = loggerFactory.CreateLogger(categoryName);
    }

    public static ILogger Logger => globalLogger;

    // standard LoggerFactory caches logger per category so no need to cache in this manager
    public static ILogger<T> GetLogger<T>() where T : class => loggerFactory.CreateLogger<T>();
    public static ILogger GetLogger(string categoryName) => loggerFactory.CreateLogger(categoryName);
}

You can use this logger manager like following.

public class Foo
{
    static readonly ILogger<Foo> logger = LogManager.GetLogger<Foo>();

    public void Foo(int x)
    {
        logger.ZLogDebug($"do do do: {x}");
    }
}

Unity

Installation

ZLogger uses some of the compile time features of C# 10, and ZLogger.Generator uses some of the features of C# 11.

To use them in Unity, needs to check the Unity version and set up the compiler.

• Unity 2022.2 or newer
  • Standard ZLogger features are available.
  • Unity internally embeds the .NET SDK 6. So C# 10 is available via compiler arguments.
• Unity 2022.3.12f1 or newer
  • ZLogger source generator available.
  • Unity internaly update .NET SDK 6. So C# 11 features are in preview.

Prerequirements:

• Install NuGetForUnity
  • Required to install the dlls of ZLogger and its dependencies.
• Install CsprojModifier
  • Required to develop in the IDE with a new language version.
• Install ZLogger.Unity package via git url.
  • Add https://github.com/Cysharp/ZLogger.git?path=src/ZLogger.Unity/Assets/ZLogger.Unity to Package Manager

Installation steps:

1. Setup the C# compiler for unity.

   • Add a text file named csc.rsp with the following contents under your Assets/.

     • -langVersion:10 -nullable
       

   • Note:
     • If you are using assembly definition, put it in the same folder as the asmdef that references ZLogger.
     • If you are using Unity 2022.3.12f1 or newer, you can use langVersion:preview allows parts of C# 11 features.

2. Setup the C# compiler for your IDE.

   • Add a text file named LangVersion.props with the following contents

     • <Project xmlns="http://schemas.microsoft.com/developer/msbuild/2003">
         <PropertyGroup>
           <LangVersion>10.0</LangVersion>
           <Nullable>enable</Nullable>
         </PropertyGroup>
       </Project>

   • Open Project Settings and [C# Project Modifier] section under the [Editor].
   • Add the .props file you just created, to the list of [Additional project imports].
   • Note:
     • If you are using assembly definition, add your additional csproj in the list of [The project to be addef for import].
     • If you want to use ZLoggerMessage Source Generator, require Unity 2022.3.12f1 and change to <LangVersion>11</LangVersion>

3. Install ZLogger nuget package.

   • Open [Nuget] -> [Manage Nuget Packages] in the menu bar.
   • Search ZLogger, and press [Install].

Basic usage

The basic functions of ZLogger are also available in Unity as follows. Use LoggerFactory directly to create loggers.

var loggerFactory = LoggerFactory.Create(logging =>
{
    logging.SetMinimumLevel(LogLevel.Trace);
    logging.AddZLoggerUnityDebug(); // log to UnityDebug
});

var logger = loggerFactory.CreateLogger<YourClass>();

var name = "foo";
logger.ZLogInformation($"Hello, {name}!");

Also supports StructuredLogging(JSON), and FileProvider.

var loggerFactory = LoggerFactory.Create(logging =>
{
    logging.AddZLoggerFile("/path/to/logfile", options =>
    {
        options.UseJsonFormatter();
    });
});

Unity 2022.3.12f1 and enables -langVersion:preview supports Source Generator.

public static partial class LogExtensions
{
    [ZLoggerMessage(LogLevel.Debug, "Hello, {name}")]
    public static partial void Hello(this ILogger<NewBehaviourScript> logger, string name);
}

License

This library is licensed under the MIT License.