Mythosia 1.2.3
See the version list below for details.
dotnet add package Mythosia --version 1.2.3
NuGet\Install-Package Mythosia -Version 1.2.3
<PackageReference Include="Mythosia" Version="1.2.3" />
paket add Mythosia --version 1.2.3
#r "nuget: Mythosia, 1.2.3"
// Install Mythosia as a Cake Addin #addin nuget:?package=Mythosia&version=1.2.3 // Install Mythosia as a Cake Tool #tool nuget:?package=Mythosia&version=1.2.3
Mythosia
This project supports custom functions that are not directly provided by .NET as extension methods so that they can be conveniently used within the project. <br/> The extensions supported by this project include the following. <br/>
To string or To Byte array
using Mythosia;
var data = "=".Repeat(10); // data is "=========="
var data = "12345".ToDefaultArray(); // Equal with Encoding.Default.GetBytes("12345");
var data = "12345".ToASCIIArray(); // Equal with Encoding.ASCII.GetBytes("12345");
var data = "12345".ToUTF8Array(); // Equal with Encoding.UTF8.GetBytes("12345");
var data = "12345".ToUTF32Array(); // Equal with Encoding.UTF32.GetBytes("12345");
IEnumerable<byte> data = new List<byte>() { 0x45, 0x46, 0x47, 0x48, 0x49 };
var result = data.AsOrToArray(); // if data is byte[] then return data (O(1)) else return data.ToArray() (O(n));
data.ToDefaultString(); // Equal with Encoding.Default.GetString(data.AsOrToByteArray(), 0, data.Count());
data.ToASCIIString(); // Equal with Encoding.ASCII.GetString(data.AsOrToByteArray(), 0, data.Count());
data.ToUTF8String(); // Equal with Encoding.UTF8.GetString(data.AsOrToByteArray(), 0, data.Count());
data.ToUTF32String(); // Equal with Encoding.UTF32.GetString(data.AsOrToByteArray(), 0, data.Count());
To numeric string (sbyte, byte, short, ushort, int, uint, float, double)
using Mythosia;
var result = 56.IsInRange(0, 100); // result is true
var result = 56.IsInRange(0, 30); // result is false
// see https://m.blog.naver.com/alluck/220931066035
var data = 56000000.ToSIPrefix(); // data is "56 M" (find the unit that can present the best simple)
var data = 56000000.ToSIPrefix(SIPrefixUnit.Kilo); // data is "56000 k"
var data = 56000000.ToSIPrefix(SIPrefixUnit.Giga, 5); // data is "0.056 G" (the second param means the maximum number of digits after decimal point)
var data = 1.4235123.ToSIPrefix(); // data is "1.42" (find the unit that can present the best simple)
var data = 1.4235123.ToSIPrefix(SIPrefixUnit.Mili); // data is "1423.51 m"
var data = 1.4235123.ToSIPrefix(SIPrefixUnit.Mili, 5); // data is "1423.5123 m"
var data = 1.4235123.ToSIPrefix(SIPrefixUnit.Micro); // data is "1423512.3 u"
var data = 423.42031.HostToNetworkEndian(); // change endian (host to big)
var data = 234.52.ToByteArray(); // Equal with BitConverter.GetBytes(234.52);
To Numeric array (ushort, uint, ulong)
using Mythosia;
List<byte> test = new List<byte>() { 10, 16, 15, 30, 45, 65, 90, 32 };
// if system endian is little endian then result is 0x100a, 0x1e0f, 0x412d, 0x205a
// if system endian is big endian then result is 0x0a10, 0x0f1e, 0x2d41, 0x5a20
var result = test.ToUShortArray();
// if system endian is little endian then result is 0x1e0f100a, 0x205a412d
// if system endian is big endian then result is 0x0a100f1e, 0x2d415a20
var result = test.ToUIntArray();
// if system endian is little endian then result is 0x205a412d1e0f100a
// if system endian is big endian then result is 0x0a100f1e2d415a20
var result = test.ToULongArray();
Notation
using Mythosia;
private List<byte> test = new List<byte>() { 10, 16, 15, 30, 45, 65 };
// binary
test.ToBinaryString(); // result is "000010100001000000001111000111100010110101000001"
test.ToBinaryString(BinaryPartitionSize.Bit2) // result is "00 00 10 10 00 01 00 00 00 00 11 11 00 01 11 10 00 10 11 01 01 00 00 01"
test.ToBinaryString(BinaryPartitionSize.HalfByte) // result is "0000 1010 0001 0000 0000 1111 0001 1110 0010 1101 0100 0001"
test.ToBinaryString(BinaryPartitionSize.Byte) // result is "00001010 00010000 00001111 00011110 00101101 01000001"
test.ToBinaryString(BinaryPartitionSize.Byte, "0b") // result is "0b00001010 0b00010000 0b00001111 0b00011110 0b00101101 0b01000001"
// hex
var result = test.ToHexStringL(); // result is "0a100f1e2d41"
var result = test.ToHexStringL(HexPartitionSize.Byte); // result is "0a 10 0f 1e 2d 41
var result = test.ToHexStringL(HexPartitionSize.Byte2); // result is "0a10 0f1e 2d41"
var result = test.ToHexStringU(HexPartitionSize.Byte2); // result is "0A10 0F1E 2D41"
var result = test.ToHexStringU(HexPartitionSize.Byte2, "0x"); // result is "0x0A10 0x0F1E 0x2D41"
var result = test.ToHexStringU(HexPartitionSize.Byte2, "", "h"); // result is "0A10h 0F1Eh 2D41h"
Enumerable (included ConcurrentBag)
var result = test.ToEncodedString(Encoding.GetEncoding("ISO-8859-1")); // convert string as "ISO-8859-1" format
var result = test.ToASCIIString(); // equal with Encoding.ASCII.GetString(test.ToArray(), 0, test.Count());
var result = test.IndexOf(new List(){ 0xab, 0x01 }); // return the index that subsequence is finded.
test.AddExceptNull(item); // add item if item is not null
new List<byte> newItems = new List<bye>(){ 0x01, 0x02 };
test.AddRangeParallel(newItems); // add items as parallel
Delegate
using Mythosia;
// If you have a function that success or fails according to condition as below.
bool WireConnect()
{
// Check whether the wire is connected
// If connected to wire return true else false.
}
// Here you may want to call the function to repeat to specified timeout.
// Then you can solute just by calling the function "RetryIfFailed" as below.
void Test()
{
var func = WireConnect; // you need c# 10.0
bool result = func.RetryIfFailed(30000); // Call WireConnect function to repeat while a maximum of 30,000 ms (the 30s) or until success
if(result) Console.WriteLine("Success");
else Console.WriteLine("Failed");
}
Stream
using Mythosia;
[StructLayout(LayoutKind.Sequential, Pack = 1)]
public class TestMarshalClass
{
public int a;
public int b;
}
TestMarshalClass test = new();
var serializeData = test.SerializeUsingMarshal(); // Serialize
test.DeSerializeUsingMarshal(serializeData); // Deserialize to test
Enum
using Mythosia;
public enum CarBrand
{
[Description("Mercedes")] Benz = 0,
[Description("Bayerische Motoren Werke AG")] BMW,
}
CarBrand test = CarBrand.Benz;
var value = test.ToDescription(); // value is "Mercedes"
var enum = value.GetEnumFromDescription<CarBrand>(); // enum is CarBrand.Benz
int carBrand = 1;
var result = carBrand.ToEnum<CarBrand>(); // result is CarBrand.BMW
var result = "BMW".GetEnumFromName<CarBrand>(); // result is CarBrand.BMW
Json Serialize, Deserialize
using Mythosia;
public class TestClass
{
public int A { get; set; } = 10;
public string B { get; set; } = string.Empty;
}
var testClass = new TestClass();
// serialize, deserialize with System.Text.Json
var jsonString = testClass.ToJsonStringS();
var compareClass = jsonString.FromJsonStringS<TestClass>();
// serialize, deserialize with Newtonsoft.Json
var jsonString = testClass.ToJsonStringN();
var compareClass = jsonString.FromJsonStringN<TestClass>();
| Product | Versions Compatible and additional computed target framework versions. |
|---|---|
| .NET | net5.0 was computed. net5.0-windows was computed. net6.0 was computed. net6.0-android was computed. net6.0-ios was computed. net6.0-maccatalyst was computed. net6.0-macos was computed. net6.0-tvos was computed. net6.0-windows was computed. net7.0 was computed. net7.0-android was computed. net7.0-ios was computed. net7.0-maccatalyst was computed. net7.0-macos was computed. net7.0-tvos was computed. net7.0-windows was computed. net8.0 was computed. 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. |
| .NET Core | netcoreapp3.0 was computed. netcoreapp3.1 was computed. |
| .NET Standard | netstandard2.1 is compatible. |
| MonoAndroid | monoandroid was computed. |
| MonoMac | monomac was computed. |
| MonoTouch | monotouch was computed. |
| Tizen | tizen60 was computed. |
| Xamarin.iOS | xamarinios was computed. |
| Xamarin.Mac | xamarinmac was computed. |
| Xamarin.TVOS | xamarintvos was computed. |
| Xamarin.WatchOS | xamarinwatchos was computed. |
-
.NETStandard 2.1
- Newtonsoft.Json (>= 13.0.1)
- System.Text.Json (>= 8.0.3)
NuGet packages (4)
Showing the top 4 NuGet packages that depend on Mythosia:
| Package | Downloads |
|---|---|
|
Mythosia.Integrity
From this version, you can use the polymorphism. Please see the GitHub readme file. support checksum8: 1. xor (using in NMEA format) 2. modulo-256 3. 2's complement support CRC8: 1. CRC8 2. CRC8 Maxim support CRC16: 1. CRC16 2. CRC16 (modbus) 3. CRC16 CCITT (xModem) 4. CRC16 DNP support CRC32 1. CRC32 |
|
|
Mythosia.Security.Cryptography
support symmetric algorithm 1. AES128 2. AES192 3. AES256 4. 3DES 5. DES 6. SEED support HashCode for IV (Integrity Verification) 1. SHA1 2. SHA256 3. SHA384 4. SHA512 5. MD2 6. MD4 7. MD5 refer to https://github.com/AJ-comp/Mythosia/tree/master/Mythosia.Security.Cryptography for detail. |
|
|
Mythosia.Azure.Storage.Blobs
**New Features**: This update introduces an extension method to automatically convert strings into valid Azure Blob Storage container names. Azure Blob Storage imposes strict naming rules requiring lowercase letters, numbers, and hyphens, with specific constraints on hyphen placement and name length. This new feature ensures that container names comply with these rules by transforming arbitrary input strings into valid container names seamlessly. **Key Benefits**: - Converts camelCase or PascalCase strings to lowercase with hyphens automatically. - Replaces disallowed characters with hyphens, ensuring valid naming conventions. - Handles name length constraints (minimum 3 characters, maximum 63 characters). - Simplifies compliance with Azure Blob Storage naming standards, reducing errors and improving consistency. **Usage Example**: ```csharp using Mythosia.Azure.Storage.Blobs; // Convert a string to a valid container name string validName = "PhonoMaster@123".ToBlobContainerName(); // Output: "phono-master-123" ``` |
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|
Mythosia.AI
## Package Summary The `Mythosia.AI` library provides an abstraction for various AI models, including support for **OpenAI GPT-4** and **Anthropic Claude** models. This library allows easy interaction with AI services, enabling both synchronous completion and streaming capabilities for models like GPT-3.5, GPT-4, Claude, and more. This library abstracts the HTTP requests required to communicate with the APIs and provides a unified interface for various AI models, making it easier to integrate into any C# or ASP.NET Core project. ### Supported Models - OpenAI GPT-4 and GPT-4 Turbo - OpenAI GPT-3.5 Turbo - Claude 3.x variants (Claude3_5Sonnet, Claude3Opus, Claude3Haiku) ### Key Features - Synchronous completion and streaming support for AI models - Customizable model selection, temperature, and max tokens - Abstraction over the complexity of managing HTTP requests and responses - Extendable structure for adding support for new AI models ## How to Use To use this library, create an instance of either `ChatGptService` or `ClaudeService` depending on the AI model you're working with. Here's an example: |
GitHub repositories
This package is not used by any popular GitHub repositories.
| Version | Downloads | Last updated |
|---|---|---|
| 1.3.0 | 74 | 10/25/2024 |
| 1.2.4 | 68 | 10/23/2024 |
| 1.2.3 | 286 | 6/17/2024 |
| 1.2.2 | 1,081 | 10/16/2023 |
| 1.2.1 | 1,101 | 8/20/2023 |
| 1.2.0 | 1,634 | 8/9/2023 |
| 1.1.5 | 1,157 | 7/17/2023 |
| 1.1.4 | 1,162 | 7/3/2023 |
| 1.1.3 | 1,186 | 7/3/2023 |
| 1.1.2 | 1,055 | 6/28/2023 |
| 1.1.1 | 1,288 | 6/25/2023 |
| 1.1.0 | 1,121 | 6/23/2023 |
| 1.0.3 | 1,129 | 6/23/2023 |
| 1.0.2 | 1,096 | 6/21/2023 |
| 1.0.1 | 1,315 | 6/19/2023 |
| 1.0.0 | 1,200 | 6/18/2023 |