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agent-framework/dotnet/samples/GettingStarted/Workflows/SharedStates/Program.cs
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Jacob Alber 94a5ba3448 .NET: [BREAKING] refactor: Normalize WorkflowBuilder APIs (#1935)
* [BREAKING] refactor: Normalize WorkflowBuilder APIs

* "partitioner" => "assigner"
* normalize ordering so sources always to the left of targets for edges
* normalize parameter ordering so sources and targets are always first arguments
* remove `params` (users should use collection expressions instead)

* refactor: Align name with Python
2025-11-05 19:50:01 +00:00

119 lines
4.6 KiB
C#

// Copyright (c) Microsoft. All rights reserved.
using Microsoft.Agents.AI.Workflows;
namespace WorkflowSharedStatesSample;
/// <summary>
/// This sample introduces the concept of shared states within a workflow.
/// It demonstrates how multiple executors can read from and write to shared states,
/// allowing for more complex data sharing and coordination between tasks.
/// </summary>
/// <remarks>
/// Pre-requisites:
/// - Foundational samples should be completed first.
/// - This sample also uses the fan-out and fan-in patterns to achieve parallel processing.
/// </remarks>
public static class Program
{
private static async Task Main()
{
// Create the executors
var fileRead = new FileReadExecutor();
var wordCount = new WordCountingExecutor();
var paragraphCount = new ParagraphCountingExecutor();
var aggregate = new AggregationExecutor();
// Build the workflow by connecting executors sequentially
var workflow = new WorkflowBuilder(fileRead)
.AddFanOutEdge(fileRead, [wordCount, paragraphCount])
.AddFanInEdge([wordCount, paragraphCount], aggregate)
.WithOutputFrom(aggregate)
.Build();
// Execute the workflow with input data
await using Run run = await InProcessExecution.RunAsync(workflow, "Lorem_Ipsum.txt");
foreach (WorkflowEvent evt in run.NewEvents)
{
if (evt is WorkflowOutputEvent outputEvent)
{
Console.WriteLine(outputEvent.Data);
}
}
}
}
/// <summary>
/// Constants for shared state scopes.
/// </summary>
internal static class FileContentStateConstants
{
public const string FileContentStateScope = "FileContentState";
}
internal sealed class FileReadExecutor() : Executor<string, string>("FileReadExecutor")
{
public override async ValueTask<string> HandleAsync(string message, IWorkflowContext context, CancellationToken cancellationToken = default)
{
// Read file content from embedded resource
string fileContent = Resources.Read(message);
// Store file content in a shared state for access by other executors
string fileID = Guid.NewGuid().ToString("N");
await context.QueueStateUpdateAsync(fileID, fileContent, scopeName: FileContentStateConstants.FileContentStateScope, cancellationToken);
return fileID;
}
}
internal sealed class FileStats
{
public int ParagraphCount { get; set; }
public int WordCount { get; set; }
}
internal sealed class WordCountingExecutor() : Executor<string, FileStats>("WordCountingExecutor")
{
public override async ValueTask<FileStats> HandleAsync(string message, IWorkflowContext context, CancellationToken cancellationToken = default)
{
// Retrieve the file content from the shared state
var fileContent = await context.ReadStateAsync<string>(message, scopeName: FileContentStateConstants.FileContentStateScope, cancellationToken)
?? throw new InvalidOperationException("File content state not found");
int wordCount = fileContent.Split([' ', '\n', '\r'], StringSplitOptions.RemoveEmptyEntries).Length;
return new FileStats { WordCount = wordCount };
}
}
internal sealed class ParagraphCountingExecutor() : Executor<string, FileStats>("ParagraphCountingExecutor")
{
public override async ValueTask<FileStats> HandleAsync(string message, IWorkflowContext context, CancellationToken cancellationToken = default)
{
// Retrieve the file content from the shared state
var fileContent = await context.ReadStateAsync<string>(message, scopeName: FileContentStateConstants.FileContentStateScope, cancellationToken)
?? throw new InvalidOperationException("File content state not found");
int paragraphCount = fileContent.Split(['\n', '\r'], StringSplitOptions.RemoveEmptyEntries).Length;
return new FileStats { ParagraphCount = paragraphCount };
}
}
internal sealed class AggregationExecutor() : Executor<FileStats>("AggregationExecutor")
{
private readonly List<FileStats> _messages = [];
public override async ValueTask HandleAsync(FileStats message, IWorkflowContext context, CancellationToken cancellationToken = default)
{
this._messages.Add(message);
if (this._messages.Count == 2)
{
// Aggregate the results from both executors
var totalParagraphCount = this._messages.Sum(m => m.ParagraphCount);
var totalWordCount = this._messages.Sum(m => m.WordCount);
await context.YieldOutputAsync($"Total Paragraphs: {totalParagraphCount}, Total Words: {totalWordCount}", cancellationToken);
}
}
}