MessagePack for C# (.NET, .NET Core, Unity, Xamarin)
.NET Runtime
MessagePack for C# (.NET, .NET Core, Unity, Xamarin) | .NET Runtime | |
---|---|---|
19 | 615 | |
5,348 | 14,266 | |
2.5% | 2.5% | |
7.2 | 10.0 | |
1 day ago | 2 days ago | |
C# | C# | |
GNU General Public License v3.0 or later | MIT License |
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MessagePack for C# (.NET, .NET Core, Unity, Xamarin)
- .NET 9 will be putting BinaryFormatter out to pasture
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Fury: 170x faster than JDK, fast serialization powered by JIT and Zero-copy
Given it's a binary serialization framework, it should not be too difficult, because the domain is well-explored and numerous libraries exist in C# which address same goals that Fury does.
More popular/newer examples are https://github.com/Cysharp/MemoryPack (which is similar to Fury with its own spec, C#-code first schema), https://github.com/MessagePack-CSharp/MessagePack-CSharp or even gRPC / Protobuf tooling https://github.com/grpc/grpc-dotnet
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Native AOT Overview
With Unity/IL2CPP stuff: For general-purpose serialization libraries like JSON, you sometimes need to provide hints to make sure types are included: https://github.com/jilleJr/Newtonsoft.Json-for-Unity/wiki/Fi...
For schema serialization on known types, there are codegen tools (i.e. moc for MessagePack): https://github.com/neuecc/MessagePack-CSharp
MessagePack is migrating to Rosalyn code generators, so basically invisible codegen. Cysharp's newer serialization library, MessagePack, already uses this: https://github.com/Cysharp/MemoryPack
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Dupes in bonelab?
Thanks, I'm sure I'll need it, though I do have my own platform with serialization set up already that I'm hoping I can port relatively easily (It's backended with MessagePack C# which is a lovely serializer for Unity.)
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Does MessagePack-CSharp support OneOf type?
In the Road map of features #119 for MessagePack-CSharp, they checked the box for:
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Dotnet API super slow?
Try MessagePack for serialization. It will help to reduce the size of the message and the time of serialization.
- Need persistent data across runs of your Unity game? Don't use PlayerPrefs for your game state! Here's how you can easily store your arbitrary game state in files instead.
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Practice resources for handling and optimizing large game data sets?
I mentioned JSON, but there are many formats that are much more efficient. I can mention FlatBuffers, MessagePack and ProtoBuf. These are the ones I've used myself, and personally I'm most comfortable with MessagePack and ProtoBuf. I don't think the performance would be an issue if you had to choose between these three, it's mostly the API that is different.
- any good binary serializers that are not assembly dependent
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LIVE: Otimizando aplicações .NET com MessagePack.
Biblioteca Nuget para C#
.NET Runtime
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The search for easier safe systems programming
.NET has explicit tailcalls - they are heavily used by and were made for F#.
https://learn.microsoft.com/en-us/dotnet/api/system.reflecti...
https://github.com/dotnet/runtime/blob/main/docs/design/feat...
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Arena-Based Parsers
The description indicates it is not production ready, and is archived at the same time.
If you pull all stops in each respective language, C# will always end up winning at parsing text as it offers C structs, pointers, zero-cost interop, Rust-style struct generics, cross-platform SIMD API and simply has better compiler. You can win back some performance in Go by writing hot parts in Go's ASM dialect at much greater effort for a specific platform.
For example, Go has to resort to this https://github.com/golang/go/blob/4ed358b57efdad9ed710be7f4f... in order to efficiently scan memory, while in C# you write the following once and it compiles to all supported ISAs with their respective SIMD instructions for a given vector width: https://github.com/dotnet/runtime/blob/56e67a7aacb8a644cc6b8... (there is a lot of code because C# covers much wider range of scenarios and does not accept sacrificing performance in odd lengths and edge cases, which Go does).
Another example is computing CRC32: you have to write ASM for Go https://github.com/golang/go/blob/4ed358b57efdad9ed710be7f4f..., in C# you simply write standard vectorized routine once https://github.com/dotnet/runtime/blob/56e67a7aacb8a644cc6b8... (its codegen is competitive with hand-intrinsified C++ code).
There is a lot more of this. Performance and low-level primitives to achieve it have been an area of focus of .NET for a long time, so it is disheartening to see one tenth of effort in Go to receive so much spotlight.
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Airline keeps mistaking 101-year-old woman for baby
It's an interesting "time is a circle" problem given that a century only has 100 years and then we loop around again. 2-digit years is convenient for people in many situations but they are very lossy, and horrible for machines.
It reminds me of this breaking change to .Net from last year.[1][2] Maybe AA just needs to update .Net which would pad them out until the 2050's when someone born in the 1950s would be having...exactly the same problem in the article. (It is configurable now so you could just keep pushing it each decade, until it wraps again).
Or they could use 4-digit years.
[1] https://github.com/dotnet/runtime/issues/75148
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The software industry rapidly convergng on 3 languages: Go, Rust, and JavaScript
These can also be passed as arguments to `dotnet publish` if necessary.
Reference:
- https://learn.microsoft.com/en-us/dotnet/core/deploying/nati...
- https://github.com/dotnet/runtime/blob/main/src/coreclr/nati...
- https://github.com/dotnet/runtime/blob/5b4e770daa190ce69f402... (full list of recognized keys for IlcInstructionSet)
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The Performance Impact of C++'s `final` Keyword
Yes, that is true. I'm not sure about JVM implementation details but the reason the comment says "virtual and interface" calls is to outline the difference. Virtual calls in .NET are sufficiently close[0] to virtual calls in C++. Interface calls, however, are coded differently[1].
Also you are correct - virtual calls are not terribly expensive, but they encroach on ever limited* CPU resources like indirect jump and load predictors and, as noted in parent comments, block inlining, which is highly undesirable for small and frequently called methods, particularly when they are in a loop.
* through great effort of our industry to take back whatever performance wins each generation brings with even more abstractions that fail to improve our productivity
[0] https://github.com/dotnet/coreclr/blob/4895a06c/src/vm/amd64...
[1] https://github.com/dotnet/runtime/blob/main/docs/design/core... (mind you, the text was initially written 18 ago, wow)
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Java 23: The New Features Are Officially Announced
If you care about portable SIMD and performance, you may want to save yourself trouble and skip to C# instead, it also has an extensive guide to using it: https://github.com/dotnet/runtime/blob/69110bfdcf5590db1d32c...
CoreLib and many new libraries are using it heavily to match performance of manually intensified C++ code.
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Locally test and validate your Renovate configuration files
DEBUG: packageFiles with updates (repository=local) "config": { "nuget": [ { "deps": [ { "datasource": "nuget", "depType": "nuget", "depName": "Microsoft.Extensions.Hosting", "currentValue": "7.0.0", "updates": [ { "bucket": "non-major", "newVersion": "7.0.1", "newValue": "7.0.1", "releaseTimestamp": "2023-02-14T13:21:52.713Z", "newMajor": 7, "newMinor": 0, "updateType": "patch", "branchName": "renovate/dotnet-monorepo" }, { "bucket": "major", "newVersion": "8.0.0", "newValue": "8.0.0", "releaseTimestamp": "2023-11-14T13:23:17.653Z", "newMajor": 8, "newMinor": 0, "updateType": "major", "branchName": "renovate/major-dotnet-monorepo" } ], "packageName": "Microsoft.Extensions.Hosting", "versioning": "nuget", "warnings": [], "sourceUrl": "https://github.com/dotnet/runtime", "registryUrl": "https://api.nuget.org/v3/index.json", "homepage": "https://dot.net/", "currentVersion": "7.0.0", "isSingleVersion": true, "fixedVersion": "7.0.0" } ], "packageFile": "RenovateDemo.csproj" } ] }
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Chrome Feature: ZSTD Content-Encoding
https://github.com/dotnet/runtime/issues/59591
Support zstd Content-Encoding:
- Writing x86 SIMD using x86inc.asm (2017)
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Why choose async/await over threads?
We might not be that far away already. There is this issue[1] on Github, where Microsoft and the community discuss some significant changes.
There is still a lot of questions unanswered, but initial tests look promising.
Ref: https://github.com/dotnet/runtime/issues/94620
What are some alternatives?
Json.NET - Json.NET is a popular high-performance JSON framework for .NET
Ryujinx - Experimental Nintendo Switch Emulator written in C#
Protobuf.NET - Protocol Buffers library for idiomatic .NET
ASP.NET Core - ASP.NET Core is a cross-platform .NET framework for building modern cloud-based web applications on Windows, Mac, or Linux.
Protobuf - Protocol Buffers - Google's data interchange format
actix-web - Actix Web is a powerful, pragmatic, and extremely fast web framework for Rust.
ZeroFormatter - Infinitely Fast Deserializer for .NET, .NET Core and Unity.
WASI - WebAssembly System Interface
Msgpack-Cli - MessagePack implementation for Common Language Infrastructure / msgpack.org[C#]
CoreCLR - CoreCLR is the runtime for .NET Core. It includes the garbage collector, JIT compiler, primitive data types and low-level classes.
FlatSharp - Fast, idiomatic C# implementation of Flatbuffers
vgpu_unlock - Unlock vGPU functionality for consumer grade GPUs.