mirror of https://github.com/microsoft/autogen.git
45 lines
2.0 KiB
C#
45 lines
2.0 KiB
C#
// Copyright (c) Microsoft Corporation. All rights reserved.
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// Example08_LMStudio.cs
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#region lmstudio_using_statements
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using AutoGen.Core;
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using AutoGen.LMStudio;
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#endregion lmstudio_using_statements
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namespace AutoGen.BasicSample;
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public class Example08_LMStudio
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{
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public static async Task RunAsync()
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{
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#region lmstudio_example_1
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var config = new LMStudioConfig("localhost", 1234);
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var lmAgent = new LMStudioAgent("asssistant", config: config)
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.RegisterPrintMessage();
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await lmAgent.SendAsync("Can you write a piece of C# code to calculate 100th of fibonacci?");
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// output from assistant (the output below is generated using llama-2-chat-7b, the output may vary depending on the model used)
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//
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// Of course! To calculate the 100th number in the Fibonacci sequence using C#, you can use the following code:```
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// using System;
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// class FibonacciSequence {
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// static int Fibonacci(int n) {
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// if (n <= 1) {
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// return 1;
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// } else {
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// return Fibonacci(n - 1) + Fibonacci(n - 2);
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// }
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// }
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// static void Main() {
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// Console.WriteLine("The 100th number in the Fibonacci sequence is: " + Fibonacci(100));
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// }
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// }
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// ```
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// In this code, we define a function `Fibonacci` that takes an integer `n` as input and returns the `n`-th number in the Fibonacci sequence. The function uses a recursive approach to calculate the value of the sequence.
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// The `Main` method simply calls the `Fibonacci` function with the argument `100`, and prints the result to the console.
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// Note that this code will only work for positive integers `n`. If you want to calculate the Fibonacci sequence for other types of numbers, such as real or complex numbers, you will need to modify the code accordingly.
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#endregion lmstudio_example_1
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}
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}
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