Sublime.FastIDs.TypeId.Serialization.SystemTextJson
1.0.2
dotnet add package Sublime.FastIDs.TypeId.Serialization.SystemTextJson --version 1.0.2
NuGet\Install-Package Sublime.FastIDs.TypeId.Serialization.SystemTextJson -Version 1.0.2
<PackageReference Include="Sublime.FastIDs.TypeId.Serialization.SystemTextJson" Version="1.0.2" />
paket add Sublime.FastIDs.TypeId.Serialization.SystemTextJson --version 1.0.2
#r "nuget: Sublime.FastIDs.TypeId.Serialization.SystemTextJson, 1.0.2"
// Install Sublime.FastIDs.TypeId.Serialization.SystemTextJson as a Cake Addin #addin nuget:?package=Sublime.FastIDs.TypeId.Serialization.SystemTextJson&version=1.0.2 // Install Sublime.FastIDs.TypeId.Serialization.SystemTextJson as a Cake Tool #tool nuget:?package=Sublime.FastIDs.TypeId.Serialization.SystemTextJson&version=1.0.2
TypeId (Spec v0.3.0)
High-performance C# implementation of TypeId.
Here's an example of a TypeID of type user:
user_2x4y6z8a0b1c2d3e4f5g6h7j8k
└──┘ └────────────────────────┘
type uuid suffix (base32)
Why another library?
This implementation is comparable or faster (sometimes 3x faster) in all common scenarios than other .NET implementations. It also allocates up to 5x less memory, reducing GC pressure.
See the Benchmarks wiki for more details.
Why should you care?
You may think that generating, parsing, or serializing a single TypeId is very fast regardless of the implementation. To some degree, that's true. But small inefficiencies accumulate quickly, and they are very hard to spot in a large system. Most likely, there are millions of IDs parsed and serialized across your whole application daily. There is no single place with "slow" performance to spot in the profiler, so it's very hard to notice these inefficiencies.
GC is another important factor. If every small library generates tons of short-lived objects for no reason, the GC will trigger much more frequently, impacting your whole application. The tricky part? There is nothing you can do about it because the memory is allocated inside 3rd party code.
There is no reason to use inefficient building blocks in your application. With this library, you get the same high-level, easy-to-use API. You don't have to deal with "weird" performance-oriented approaches. However, I plan to expose additional performance-oriented APIs in the near future for those who need them.
Installation
Install from NuGet: https://www.nuget.org/packages/FastIDs.TypeId
Usage
The library exposes two types optimized for slightly different use-cases. For better understanding refer to TypeId vs TypeIdDecoded section in wiki.
This readme covers the basic operation you need to know to use the library.
Import
using FastIDs.TypeId;
Creating a TypeId
TypeId can be generated using static methods of TypeId
and TypeIdDecoded
classes. Both have the same API and will create an instance of TypeIdDecoded
struct. Examples in this section only use TypeId
for simplicity.
Generate new ID:
var typeIdDecoded = TypeId.New("prefix");
It's also possible to create a TypeID without a prefix by passing the empty string:
var typeIdDecodedWithoutPrefix = TypeId.New("");
Note: If the prefix is empty, the separator _
is omitted in the string representation.
Create TypeId from existing UUIDv7:
Guid uuidV7 = new Guid("01890a5d-ac96-774b-bcce-b302099a8057");
var typeIdDecoded = TypeId.FromUuidV7("prefix", uuidV7);
Both TypeId.New(prefix)
and TypeId.FromUuidV7(prefix, guid)
validate provided prefix.
You can skip this validation by using overloads with bool validateType
parameter set to false
.
The best case to do so is when you're 100% sure your prefix is correct and you want to squeeze extra bits of performance.
var typeIdDecoded = TypeId.New("prefix", false) // skips validation and creates a valid TypeId instance.
var invalidTypeIdDecoded = TypeId.New("123", false) // doesn't throw FormatException despite invalid type provided
var shouldThrowIdDecoded = TypeId.New("123") // throws FormatException
Conversion between TypeId
and TypeIdDecoded
Convert TypeIdDecoded
to TypeId
:
TypeId typeId = typeIdDecoded.Encode();
Convert TypeId
to TypeIdDecoded
:
TypeIdDecoded typeIdDecoded = typeId.Decode();
TypeId
serialization to string
All the following examples assume that there is a typeId
variable created this way:
TypeId typeId = TypeId.FromUuidV7("type", new Guid("01890a5d-ac96-774b-bcce-b302099a8057")).Encode();
Get string representation
string typeIdString = typeId.ToString();
// returns "type_01h455vb4pex5vsknk084sn02q" (without quotes)
It's possible to get only type:
ReadOnlySpan<char> typeSpan = typeId.Type;
string type = typeSpan.ToString();
// both are "type" (without quotes)
It's also possible to get only the suffix:
ReadOnlySpan<char> suffixSpan = typeId.Suffix;
string suffix = suffixSpan.ToString();
// both are "01h455vb4pex5vsknk084sn02q" (without quotes)
Note: if TypeID doesn't have a type (i.e. type is an empty string), values returned from Suffix
and ToString()
are equal.
var typeId = TypeId.FromUuidV7("", new Guid("01890a5d-ac96-774b-bcce-b302099a8057")).Encode();
Console.WriteLine($"{typeId.Suffix.ToString()} == {typeId.ToString()}");
// prints: "01h455vb4pex5vsknk084sn02q == 01h455vb4pex5vsknk084sn02q" (without quotes)
TypeIdDecoded
serialization to string
All the following examples assume that there is a typeIdDecoded
variable created this way:
TypeIdDecoded typeIdDecoded = TypeId.FromUuidV7("type", new Guid("01890a5d-ac96-774b-bcce-b302099a8057"));
Get string representation
string typeIdString = typeIdDecoded.ToString();
// returns "type_01h455vb4pex5vsknk084sn02q" (without quotes)
It's possible to get only type:
string type = typeIdDecoded.Type;
// returns "type" (without quotes)
It's also possible to get only the suffix:
string suffix = typeIdDecoded.GetSuffix();
// returns "01h455vb4pex5vsknk084sn02q" (without quotes)
Span<char> suffixSpan = stackalloc char[26];
int charsWritten = typeIdDecoded.GetSuffix(suffixSpan);
// `charsWritten` is 26, and `suffixSpan` contains "01h455vb4pex5vsknk084sn02q" (without quotes)
Note: if TypeID doesn't have a type (i.e. type is an empty string), values returned from GetSuffix()
and ToString()
are equal.
var typeIdDecoded = TypeId.FromUuidV7("", new Guid("01890a5d-ac96-774b-bcce-b302099a8057"));
Console.WriteLine($"{typeIdDecoded.GetSuffix()} == {typeIdDecoded.ToString()}");
// prints: "01h455vb4pex5vsknk084sn02q == 01h455vb4pex5vsknk084sn02q" (without quotes)
Parsing
String representation can only be parsed into TypeId
.
Parse existing string representation to the TypeId
instance:
TypeId typeId = TypeId.Parse("type_01h455vb4pex5vsknk084sn02q");
The Parse(string input)
method will throw a FormatException
in case of incorrect format of the passed value. Use the TryParse(string input, out TypeId result)
method to avoid throwing the exception:
if (TypeId.TryParse("type_01h455vb4pex5vsknk084sn02q", out TypeId typeId))
// TypeId is successfully parsed here.
else
// Unable to parse TypeId from the provided string.
Match type
Both TypeId
and TypeIdDecoded
have the same API for checking if the type equals the provided value.
bool isSameType = typeId.HasType("your_type"); // also has overload for ReadOnlySpan<char>
Equality
Both TypeId
and TypeIdDecoded
structs implement the IEquatable<T>
interface with all its benefits:
typeId.Equals(other)
ortypeId == other
to check if IDs are same.!typeId.Equals(other)
ortypeId != other
to check if IDs are different.- Use
TypeId
as a key inDictionary
orHashSet
.
UUIDv7 component operations
TypeIdDecoded
provides the API for accessing the UUIDv7 component of the TypeID.
Get Guid
:
Guid uuidv7 = typeIdDecoded.Id;
Get the creation timestamp (part of the UUIDv7 component):
DateTimeOffset timestamp = typeIdDecoded.GetTimestamp();
Json Serialization
NuGet packages are available for working with JSON.
You can use the extension method ConfigureForTypeId
on the JsonSerializerSettings
type for Json.Net
or on the JsonSerializerOptions
type for System.Text.Json
to automatically serialize a TypeId
or a TypeIdDecoded
to a string.
If you are using SwashBuckle, you will need to configure your service as follows:
builder.Services.AddSwaggerGen(c =>
{
c.SwaggerDoc("v1", new OpenApiInfo { Title = "api", Version = "v1" });
c.MapType(typeof(TypeId), () => new OpenApiSchema { Type = "string", Example = new OpenApiString("prefix_01h93ech7jf5ktdwg6ye383x34") });
c.MapType(typeof(TypeIdDecoded), () => new OpenApiSchema { Type = "string", Example = new OpenApiString("prefix_01h93ech7jf5ktdwg6ye383x34") });
});
Product | Versions Compatible and additional computed target framework versions. |
---|---|
.NET | net8.0 is compatible. net8.0-android was computed. net8.0-browser was computed. net8.0-ios was computed. net8.0-maccatalyst was computed. net8.0-macos was computed. net8.0-tvos was computed. net8.0-windows was computed. |
-
net8.0
- FastIDs.TypeId (>= 1.0.0)
- System.Text.Json (>= 6.0.0)
NuGet packages
This package is not used by any NuGet packages.
GitHub repositories
This package is not used by any popular GitHub repositories.
Version | Downloads | Last updated |
---|---|---|
1.0.2 | 444 | 9/16/2024 |