Hybrid Connections WebSockets in Azure Relay

Hybrid Connections WebSockets in Azure Relay

Source: https://learn.microsoft.com/en-us/azure/azure-relay/relay-hybrid-connections-dotnet-get-started

1. Create a Namespace

Get Managed credentials 

Create Hybrid Connection 

2. Create a server application (listener)

using Microsoft.Azure.Relay;

using System;

using System.Collections.Generic;

using System.IO;

using System.Linq;

using System.Text;

using System.Threading;

using System.Threading.Tasks;

namespace myserver

{

    public class Program

    {

        private const string RelayNamespace = "sreerelay.servicebus.windows.net";

        private const string ConnectionName = "sreehybridconn";

        private const string KeyName = "RootManageSharedAccessKey";

        private const string Key = "Wtcg6qDIGI4aFts+qYH+zmHwCL1Q=";

        public static void Main(string[] args)

        {

            RunAsync().GetAwaiter().GetResult();

        }

        private static async Task RunAsync()

        {

            var cts = new CancellationTokenSource();

            var tokenProvider =

            TokenProvider.CreateSharedAccessSignatureTokenProvider(KeyName, Key);

            var listener = new HybridConnectionListener(new Uri(string.Format(

            "sb://{0}/{1}", RelayNamespace, ConnectionName)), tokenProvider);

            listener.Connecting += (o, e) => { Console.WriteLine("Connecting"); };

            listener.Offline += (o, e) => { Console.WriteLine("Offline"); };

            listener.Online += (o, e) => { Console.WriteLine("Online"); };

            await listener.OpenAsync(cts.Token);

            Console.WriteLine("Server listening");

            cts.Token.Register(() => listener.CloseAsync(CancellationToken.None));

            new Task(() => Console.In.ReadLineAsync().ContinueWith((s) => {

            cts.Cancel(); })).Start();

            while (true)

            {

                var relayConnection = await listener.AcceptConnectionAsync();

                if (relayConnection == null)

                {

                    break;

                }

                ProcessMessagesOnConnection(relayConnection, cts);

            }

            await listener.CloseAsync(cts.Token);

        }

        private static async void ProcessMessagesOnConnection(HybridConnectionStream

        relayConnection, CancellationTokenSource cts)

        {

            Console.WriteLine("New session");

            var reader = new StreamReader(relayConnection);

            var writer = new StreamWriter(relayConnection) { AutoFlush = true };

            while (!cts.IsCancellationRequested)

            {

                try

                {

                    var line = await reader.ReadLineAsync();

                    if (string.IsNullOrEmpty(line))

                    {

                        await relayConnection.ShutdownAsync(cts.Token);

                        break;

                    }

                    Console.WriteLine(line);

                    await writer.WriteLineAsync($"Echo: {line}");

                }

                catch (IOException)

                {

                    Console.WriteLine("Client closed connection");

                    break;

                }

            }

            Console.WriteLine("End session");

            await relayConnection.CloseAsync(cts.Token);

        }

    }

}

3. Create a client application (sender)

using Microsoft.Azure.Relay;

using System;

using System.Collections.Generic;

using System.IO;

using System.Linq;

using System.Text;

using System.Threading;

using System.Threading.Tasks;

namespace myclient

{

    class Program

    {

        private const string RelayNamespace = "sreerelay.servicebus.windows.net";

        private const string ConnectionName = "sreehybridconn";

        private const string KeyName = "RootManageSharedAccessKey";

        private const string Key = "Wtcg6qDIGI4aFts+qYH+zmHwCL1Q=";

        static void Main(string[] args)

        {

            RunAsync().GetAwaiter().GetResult();

        }

        private static async Task RunAsync()

        {

            Console.WriteLine("Enter lines of text to send to the server with ENTER");

            var tokenProvider =

            TokenProvider.CreateSharedAccessSignatureTokenProvider(KeyName, Key);

            var client = new HybridConnectionClient(new Uri(String.Format(

            "sb://{0}/{1}", RelayNamespace, ConnectionName)), tokenProvider);

            var relayConnection = await client.CreateConnectionAsync();

            var reads = Task.Run(async () =>

            {

                var reader = new StreamReader(relayConnection);

                var writer = Console.Out;

                do

                {

                    string line = await reader.ReadLineAsync();

                    if (String.IsNullOrEmpty(line))

                        break;

                    await writer.WriteLineAsync(line);

                }

                while (true);

            });

            var writes = Task.Run(async () =>

            {

                var reader = Console.In;

                var writer = new StreamWriter(relayConnection) { AutoFlush = true };

                do

                {

                    string line = await reader.ReadLineAsync();

                    await writer.WriteLineAsync(line);

                    if (String.IsNullOrEmpty(line))

                        break;

                }

                while (true);

            });

           

            await Task.WhenAll(reads, writes);

            await relayConnection.CloseAsync(CancellationToken.None);

        }

    }

}

OutPut:

Actionable Email Developer Dashboard

 Actionable Email Developer Dashboard:

Source:

Get started with actionable messages in Office 365: https://learn.microsoft.com/en-us/outlook/actionable-messages/get-started

Register your service with the actionable email developer dashboard: https://learn.microsoft.com/en-us/outlook/actionable-messages/email-dev-dashboard

1. Create Provider in ''Actionable Email Developer Dashboard - https://outlook.office.com/connectors/oam/publish "

2. Save "Provider Id (originator)" in notepad.

3. Approve submitted provider here: https://outlook.office.com/connectors/oam/admin

4. Prepare Json as below: 

<html>

<head>

  <meta http-equiv="Content-Type" content="text/html; charset=utf-8">

  <script type="application/adaptivecard+json">{

    "type": "AdaptiveCard",

    "version": "1.0",

    "hideOriginalBody": true,

    "originator": "Provider Id (originator) : GUID from Previous step",

    "body": [

      {

        "type": "TextBlock",

        "text": "Visit the Outlook Dev Portal",

        "size": "large"

      },

      {

        "type": "TextBlock",

        "text": "Click **Learn More** to learn more about Actionable Messages!"

      },

      {

        "type": "Input.Text",

        "id": "feedbackText",

        "placeholder": "Let us know what you think about Actionable Messages"

      }

    ],

    "actions": [

      {

        "type": "Action.Http",

        "title": "Send Feedback",

        "method": "POST",

        "url": "https://...",

        "body": "{{feedbackText.value}}"

      },

      {

        "type": "Action.OpenUrl",

        "title": "Learn More",

        "url": "https://learn.microsoft.com/outlook/actionable-messages"

      }

    ]

  }

  </script>

</head>

<body>

Visit the <a href="https://learn.microsoft.com/outlook/actionable-messages">Outlook Dev Portal</a> to learn more about Actionable Messages.

</body>

</html>

C# Code:

using Azure.Identity;

using Microsoft.Graph;

using Microsoft.Graph.Models;

using Microsoft.Graph.Users.Item.SendMail;

public class Program

{

    public static async Task Main(string[] args)

    {

        var clientId = "6e4110e7-e5b0d411db60";

        var tenantId = "bb55f134-82bf54373c6d";

        var clientSecret = "imx8Q~Q~AHcGN";

        var userFromEmail = "user1@test.onmicrosoft.com";

        var userToEmails = "user2@test.onmicrosoft.com,user3@test.onmicrosoft.com";

        var credential = new ClientSecretCredential(tenantId, clientId, clientSecret);

        var graphClient = new GraphServiceClient(credential);

        string adaptiveCardJson = @"<html>

        <head>

          <meta http-equiv='Content-Type' content='text/html; charset=utf-8'>

          <script type='application/adaptivecard+json'>{

            'type': 'AdaptiveCard',

            'version': '1.0',

            'hideOriginalBody': true,

            'originator': 'a115aabe-03994fbaf1d',

            'body': [

              {

                'type': 'TextBlock',

                'text': 'Visit the Outlook Dev Portal',

                'size': 'large'

              },

              {

                'type': 'TextBlock',

                'text': 'Click **Learn More** to learn more about Actionable Messages!'

              },

              {

                'type': 'Input.Text',

                'id': 'feedbackText',

                'placeholder': 'Let us know what you think about Actionable Messages'

              }

            ],

            'actions': [

              {

                'type': 'Action.Http',

                'title': 'Send Feedback',

                'method': 'POST',

                'url': 'https://...',

                'body': '{{feedbackText.value}}'

              },

              {

                'type': 'Action.OpenUrl',

                'title': 'Learn More',

                'url': 'https://learn.microsoft.com/outlook/actionable-messages'

              }

            ]

          }

          </script>

        </head>

        <body>

        Visit the <a href='https://learn.microsoft.com/outlook/actionable-messages'>Outlook Dev

        Portal</a> to learn more about Actionable Messages.

        </body>

        </html>";

        List<string> userToEmailList = new List<string>(userToEmails.Split(','));

        var message = new Message

        {

            Subject = "Test Subject",

            Body = new ItemBody

            {

                ContentType = BodyType.Html,

                Content = $"{adaptiveCardJson}"

            },

            ToRecipients = userToEmailList.Select(email => new Recipient { EmailAddress =

            new EmailAddress { Address = email } }).ToList(),

        };

        var sendMailRequest = new SendMailPostRequestBody { Message = message };

        await graphClient.Users[userFromEmail].SendMail.PostAsync(sendMailRequest);

        Console.ReadKey();

    }

}

OutPut:

Connect SharePoint using Azure App Application/Delegate Authentication in C#

1. Connect SharePoint using Azure App Application Authentication in C#
Create Azure app and give below Application permissions. 

using Azure.Identity;

using Microsoft.Graph;

public class Program

{

    public static async Task Main(string[] args)

    {

        string tenantId = "";

        string clientId = "";

        string clientSecret = "";

        string siteId = "283f598a-6b0f-4ba5-af06-c72a0cef8f42";

        string listId = "e9609d64-1f36-45a2-8260-743998ea2cd4";

        var credential = new ClientSecretCredential(tenantId, clientId, clientSecret);

        var graphClient = new GraphServiceClient(credential);

        var items = await graphClient.Sites[siteId].Lists[listId].Items.GetAsync();

        foreach (var item in items.Value)

        {

            Console.WriteLine($"Item ID: {item.Id}, Created By: {item.CreatedBy?.User?.DisplayName}");

        }

        Console.ReadKey();

    }

}

2. Connect SharePoint using Azure App Delegate Authentication in C#

Azure AI services | Language service | Azure Cognitive Search | Sentiment analysis and opinion mining

Azure AI services | Language service | Azure Cognitive Search | Sentiment analysis and opinion mining

1. Create a Language resource in Azure and copy languagekey.

using Azure;

using System;

using Azure.AI.TextAnalytics;

using System.Collections.Generic;

namespace Example

{

    class Program

    {

        // This example requires environment variables named "LANGUAGE_KEY" and "LANGUAGE_ENDPOINT"

        // Environment.GetEnvironmentVariable("LANGUAGE_KEY");

        static string languageKey = "9BuOuIbUCOGGygz";

       

        //Environment.GetEnvironmentVariable("LANGUAGE_ENDPOINT");

        static string languageEndpoint = "https://sreelanguage.cognitiveservices.azure.com/";

        private static readonly AzureKeyCredential credentials = new AzureKeyCredential(languageKey);

        private static readonly Uri endpoint = new Uri(languageEndpoint);

        // Example method for detecting opinions text.

        static void SentimentAnalysisWithOpinionMiningExample(TextAnalyticsClient client)

        {

            var documents = new List<string>

            {

                "The food and service were unacceptable. The concierge was nice, however."

            };

            AnalyzeSentimentResultCollection reviews = client.AnalyzeSentimentBatch(documents,

            options: new AnalyzeSentimentOptions()

            {

                IncludeOpinionMining = true

            });

            foreach (AnalyzeSentimentResult review in reviews)

            {

                Console.WriteLine($"Document sentiment: {review.DocumentSentiment.Sentiment}\n");

                Console.WriteLine($"\tPositive score:

                {review.DocumentSentiment.ConfidenceScores.Positive:0.00}");

                Console.WriteLine($"\tNegative score:

                {review.DocumentSentiment.ConfidenceScores.Negative:0.00}");

                Console.WriteLine($"\tNeutral score:

                {review.DocumentSentiment.ConfidenceScores.Neutral:0.00}\n");

                foreach (SentenceSentiment sentence in review.DocumentSentiment.Sentences)

                {

                    Console.WriteLine($"\tText: \"{sentence.Text}\"");

                    Console.WriteLine($"\tSentence sentiment: {sentence.Sentiment}");

                    Console.WriteLine($"\tSentence positive score:

                    {sentence.ConfidenceScores.Positive:0.00}");

                    Console.WriteLine($"\tSentence negative score:

                    {sentence.ConfidenceScores.Negative:0.00}");

                    Console.WriteLine($"\tSentence neutral score:

                    {sentence.ConfidenceScores.Neutral:0.00}\n");

                    foreach (SentenceOpinion sentenceOpinion in sentence.Opinions)

                    {

                        Console.WriteLine($"\tTarget: {sentenceOpinion.Target.Text}, Value:

                        {sentenceOpinion.Target.Sentiment}");

                        Console.WriteLine($"\tTarget positive score:

                        {sentenceOpinion.Target.ConfidenceScores.Positive:0.00}");

                        Console.WriteLine($"\tTarget negative score:

                        {sentenceOpinion.Target.ConfidenceScores.Negative:0.00}");

                        foreach (AssessmentSentiment assessment in sentenceOpinion.Assessments)

                        {

                            Console.WriteLine($"\t\tRelated Assessment: {assessment.Text}, Value:

                            {assessment.Sentiment}");

                            Console.WriteLine($"\t\tRelated Assessment positive score:

                            {assessment.ConfidenceScores.Positive:0.00}");

                            Console.WriteLine($"\t\tRelated Assessment negative score:

                            {assessment.ConfidenceScores.Negative:0.00}");

                        }

                    }

                }

                Console.WriteLine($"\n");

            }

        }

        static void Main(string[] args)

        {

            var client = new TextAnalyticsClient(endpoint, credentials);

            SentimentAnalysisWithOpinionMiningExample(client);

            Console.Write("Press any key to exit.");

            Console.ReadKey();

        }

    }

}

OutPut:

Azure AI services | Document intelligence | Use prebuilt Document Intelligence models

Azure AI services | Document intelligence | Use prebuilt Document Intelligence models

Source: https://github.com/MicrosoftLearning/mslearn-ai-document-intelligence

https://documentintelligence.ai.azure.com/studio

C# Code:

using Azure;

using Azure.AI.FormRecognizer.DocumentAnalysis;

// dotnet add package Azure.AI.FormRecognizer --version 4.1.0

// Store connection information

string endpoint = "https://sreedocumentintelligence.cognitiveservices.azure.com/";

string apiKey = "BxcKE20FOGiN8b";

Uri fileUri = new Uri("https://github.com/MicrosoftLearning/mslearn-ai-document-intelligence/blob

/main/Labfiles/01-prebuild-models/sample-invoice/sample-invoice.pdf?raw=true");

Console.WriteLine("\nConnecting to Forms Recognizer at: {0}", endpoint);

Console.WriteLine("Analyzing invoice at: {0}\n", fileUri.ToString());

// Create the client

var cred = new AzureKeyCredential(apiKey);

var client = new DocumentAnalysisClient(new Uri(endpoint), cred);

// Analyze the invoice

AnalyzeDocumentOperation operation = await client.AnalyzeDocumentFromUriAsync(WaitUntil.Completed,

"prebuilt-invoice", fileUri);

// Display invoice information to the user

AnalyzeResult result = operation.Value;

foreach (AnalyzedDocument invoice in result.Documents)

{

    if (invoice.Fields.TryGetValue("VendorName", out DocumentField? vendorNameField))

    {

        if (vendorNameField.FieldType == DocumentFieldType.String)

        {

            string vendorName = vendorNameField.Value.AsString();

            Console.WriteLine($"Vendor Name: '{vendorName}', with confidence

            {vendorNameField.Confidence}.");

        }

    }

    if (invoice.Fields.TryGetValue("CustomerName", out DocumentField? customerNameField))

    {

        if (customerNameField.FieldType == DocumentFieldType.String)

        {

            string customerName = customerNameField.Value.AsString();

            Console.WriteLine($"Customer Name: '{customerName}', with confidence

            {customerNameField.Confidence}.");

        }

    }

    if (invoice.Fields.TryGetValue("InvoiceTotal", out DocumentField? invoiceTotalField))

    {

        if (invoiceTotalField.FieldType == DocumentFieldType.Currency)

        {

            CurrencyValue invoiceTotal = invoiceTotalField.Value.AsCurrency();

            Console.WriteLine($"Invoice Total: '{invoiceTotal.Symbol}{invoiceTotal.Amount}',

            with confidence {invoiceTotalField.Confidence}.");

        }

    }

}

Console.WriteLine("\nAnalysis complete.\n");

OutPut:

Python Code:

from azure.core.credentials import AzureKeyCredential

from azure.ai.formrecognizer import DocumentAnalysisClient

# pip install azure-ai-formrecognizer==3.3.3

# Store connection information

endpoint = "https://sreedocumentintelligence.cognitiveservices.azure.com/"

key = "BxcKE20FOGiN8b"

fileUri = "https://github.com/MicrosoftLearning/mslearn-ai-document-intelligence/blob/main/Labfiles

/01-prebuild-models/sample-invoice/sample-invoice.pdf?raw=true"

fileLocale = "en-US"

fileModelId = "prebuilt-invoice"

print(f"\nConnecting to Forms Recognizer at: {endpoint}")

print(f"Analyzing invoice at: {fileUri}")

# Create the client

document_analysis_client = DocumentAnalysisClient(

     endpoint=endpoint, credential=AzureKeyCredential(key)

)

# Analyse the invoice

poller = document_analysis_client.begin_analyze_document_from_url(

     fileModelId, fileUri, locale=fileLocale

)

# Display invoice information to the user

receipts = poller.result()

   

for idx, receipt in enumerate(receipts.documents):

    vendor_name = receipt.fields.get("VendorName")

    if vendor_name:

        print(f"\nVendor Name: {vendor_name.value}, with confidence {vendor_name.confidence}.")

    customer_name = receipt.fields.get("CustomerName")

    if customer_name:

        print(f"Customer Name: '{customer_name.value}, with confidence {customer_name.confidence}.")

    invoice_total = receipt.fields.get("InvoiceTotal")

    if invoice_total:

        print(f"Invoice Total: '{invoice_total.value.symbol}{invoice_total.value.amount},

        with confidence {invoice_total.confidence}.")

print("\nAnalysis complete.\n")

OutPut:

Azure AI services - Detect and Analyze Faces

Azure AI services - Detect and Analyze Faces:

Source: https://github.com/MicrosoftLearning/mslearn-ai-vision

1. Azure AI services multi-service account - Create Azure resource.

Detect Faces:

C# Code:

using System;

using System.Drawing;

using Microsoft.Extensions.Configuration;

using Azure;

using System.IO;

// dotnet add package Azure.AI.Vision.ImageAnalysis -v 1.0.0-beta.3

// Import namespaces

using Azure.AI.Vision.ImageAnalysis;

namespace detect_people

{

    class Program

    {

        static void Main(string[] args)

        {

            try

            {

                // Get config settings from AppSettings

                IConfigurationBuilder builder =

                new ConfigurationBuilder().AddJsonFile("appsettings.json");

                IConfigurationRoot configuration = builder.Build();

                string aiSvcEndpoint =

                "https://sreemultiserviceaccount1.cognitiveservices.azure.com/";

                //configuration["AIServicesEndpoint"];

                string aiSvcKey = "2D9XtWQ0Yfuw3AAAEACOGFMV1"; //configuration["AIServiceKey"];

                // Get image

                string imageFile = "images/people.jpg";

                if (args.Length > 0)

                {

                    imageFile = args[0];

                }

                // Authenticate Azure AI Vision client

                ImageAnalysisClient cvClient = new ImageAnalysisClient(

                    new Uri(aiSvcEndpoint),

                    new AzureKeyCredential(aiSvcKey));

                // Analyze image

                AnalyzeImage(imageFile, cvClient);

            }

            catch (Exception ex)

            {

                Console.WriteLine(ex.Message);

            }

        }

        static void AnalyzeImage(string imageFile, ImageAnalysisClient client)

        {

            Console.WriteLine($"\nAnalyzing {imageFile} \n");

            // Use a file stream to pass the image data to the analyze call

            using FileStream stream = new FileStream(imageFile, FileMode.Open);

            // Get result with specified features to be retrieved (PEOPLE)

            ImageAnalysisResult result = client.Analyze(

                BinaryData.FromStream(stream),

                VisualFeatures.People);

            // Close the stream

            stream.Close();

            // Get people in the image

            if (result.People.Values.Count > 0)

            {

                Console.WriteLine($" People:");

                // Prepare image for drawing

                System.Drawing.Image image = System.Drawing.Image.FromFile(imageFile);

                Graphics graphics = Graphics.FromImage(image);

                Pen pen = new Pen(Color.Cyan, 3);

                // Draw bounding box around detected people

                foreach (DetectedPerson person in result.People.Values)

                {

                    if (person.Confidence > 0.5)

                    {

                        // Draw object bounding box

                        var r = person.BoundingBox;

                        Rectangle rect = new Rectangle(r.X, r.Y, r.Width, r.Height);

                        graphics.DrawRectangle(pen, rect);

                    }

                    // Return the confidence of the person detected

                    Console.WriteLine($"   Bounding box {person.BoundingBox.ToString()},

                    Confidence: {person.Confidence:F2}");

                }

                // Save annotated image

                String output_file = "people.jpg";

                image.Save(output_file);

                Console.WriteLine("  Results saved in " + output_file + "\n");

            }

        }

    }

}

OutPut:

Analyze Faces:

C# Code:

using System;

using System.IO;

using System.Linq;

using System.Drawing;

using System.Collections.Generic;

using System.Threading.Tasks;

using Microsoft.Extensions.Configuration;

// dotnet add package Azure.AI.Vision.Face -v 1.0.0-beta.2

// Import namespaces

using Azure;

using Azure.AI.Vision.Face;

namespace analyze_faces

{

    class Program

    {

        private static FaceClient faceClient;

        static async Task Main(string[] args)

        {

            try

            {

                // Get config settings from AppSettings

                IConfigurationBuilder builder =

                new ConfigurationBuilder().AddJsonFile("appsettings.json");

                IConfigurationRoot configuration = builder.Build();

                string cogSvcEndpoint =

                "https://sreemultiserviceaccount1.cognitiveservices.azure.com/";

                //configuration["AIServicesEndpoint"];

                string cogSvcKey = "2D9XtWQ0Yfuw3AAAEACOGFMV1"; //configuration["AIServiceKey"];

                // Authenticate Face client

                faceClient = new FaceClient(

                    new Uri(cogSvcEndpoint),

                    new AzureKeyCredential(cogSvcKey));

                // Menu for face functions

                Console.WriteLine("1: Detect faces\nAny other key to quit");

                Console.WriteLine("Enter a number:");

                string command = Console.ReadLine();

                switch (command)

                {

                    case "1":

                        await DetectFaces("images/people.jpg");

                        break;

                    default:

                        break;

                }

            }

            catch (Exception ex)

            {

                Console.WriteLine(ex.Message);

            }

        }

        static async Task DetectFaces(string imageFile)

        {

            Console.WriteLine($"Detecting faces in {imageFile}");

            // Specify facial features to be retrieved

            FaceAttributeType[] features = new FaceAttributeType[]

            {

     FaceAttributeType.Detection03.HeadPose,

     FaceAttributeType.Detection03.Blur,

     FaceAttributeType.Detection03.Mask

            };

            // Get faces

            using (var imageData = File.OpenRead(imageFile))

            {

                var response = await faceClient.DetectAsync(

                    BinaryData.FromStream(imageData),

                    FaceDetectionModel.Detection03,

                    FaceRecognitionModel.Recognition04,

                    returnFaceId: false,

                    returnFaceAttributes: features);

                IReadOnlyList<FaceDetectionResult> detected_faces = response.Value;

                if (detected_faces.Count() > 0)

                {

                    Console.WriteLine($"{detected_faces.Count()} faces detected.");

                    // Prepare image for drawing

                    Image image = Image.FromFile(imageFile);

                    Graphics graphics = Graphics.FromImage(image);

                    Pen pen = new Pen(Color.LightGreen, 3);

                    Font font = new Font("Arial", 4);

                    SolidBrush brush = new SolidBrush(Color.White);

                    int faceCount = 0;

                    // Draw and annotate each face

                    foreach (var face in detected_faces)

                    {

                        faceCount++;

                        Console.WriteLine($"\nFace number {faceCount}");

                        // Get face properties

                        Console.WriteLine($" - Head Pose (Yaw): {face.FaceAttributes.HeadPose.Yaw}");

                        Console.WriteLine($" - Head Pose (Pitch):

                        {face.FaceAttributes.HeadPose.Pitch}");

                        Console.WriteLine($" - Head Pose (Roll):

                        {face.FaceAttributes.HeadPose.Roll}");

                        Console.WriteLine($" - Blur: {face.FaceAttributes.Blur.BlurLevel}");

                        Console.WriteLine($" - Mask: {face.FaceAttributes.Mask.Type}");

                        // Draw and annotate face

                        var r = face.FaceRectangle;

                        Rectangle rect = new Rectangle(r.Left, r.Top, r.Width, r.Height);

                        graphics.DrawRectangle(pen, rect);

                        string annotation = $"Face number {faceCount}";

                        graphics.DrawString(annotation, font, brush, r.Left, r.Top);

                    }

                    // Save annotated image

                    String output_file = "detected_faces.jpg";

                    image.Save(output_file);

                    Console.WriteLine(" Results saved in " + output_file);

                }

            }

        }

    }

}

OutPut:

Detect Faces:

Python Code:

from dotenv import load_dotenv

import os

from PIL import Image, ImageDraw

import sys

from matplotlib import pyplot as plt

import numpy as np

#pip install azure-ai-vision-imageanalysis==1.0.0b3

# import namespaces

from azure.ai.vision.imageanalysis import ImageAnalysisClient

from azure.ai.vision.imageanalysis.models import VisualFeatures

from azure.core.credentials import AzureKeyCredential

def main():

    global cv_client

    try:

        # Get Configuration Settings

        load_dotenv()

        ai_endpoint = 'https://sreemultiserviceaccount1.cognitiveservices.azure.com/'           #os.getenv('AI_SERVICE_ENDPOINT')

        ai_key = '2D9XtWQ0Yfuw3AAAEACOGFMV1' #os.getenv('AI_SERVICE_KEY')

        # Get image

        image_file = 'images/people.jpg'

        if len(sys.argv) > 1:

            image_file = sys.argv[1]

        with open(image_file, "rb") as f:

            image_data = f.read()

         # Authenticate Azure AI Vision client

        cv_client = ImageAnalysisClient(

            endpoint=ai_endpoint,

            credential=AzureKeyCredential(ai_key)

        )

       

        # Analyze image

        AnalyzeImage(image_file, image_data, cv_client)

    except Exception as ex:

        print(ex)

def AnalyzeImage(filename, image_data, cv_client):

    print('\nAnalyzing ', filename)

     # Get result with specified features to be retrieved (PEOPLE)

    result = cv_client.analyze(

         image_data=image_data,

        visual_features=[

             VisualFeatures.PEOPLE],

    )

   

    # Identify people in the image

    if result.people is not None:

        print("\nPeople in image:")

        # Prepare image for drawing

        image = Image.open(filename)

        fig = plt.figure(figsize=(image.width/100, image.height/100))

        plt.axis('off')

        draw = ImageDraw.Draw(image)

        color = 'cyan'

         # Draw bounding box around detected people

        for detected_people in result.people.list:

            if(detected_people.confidence > 0.5):

                 # Draw object bounding box

                r = detected_people.bounding_box

                bounding_box = ((r.x, r.y), (r.x + r.width, r.y + r.height))

                draw.rectangle(bounding_box, outline=color, width=3)

                # Return the confidence of the person detected

                print(" {} (confidence: {:.2f}%)".format(detected_people.bounding_box,

                detected_people.confidence * 100))

        # Save annotated image

        plt.imshow(image)

        plt.tight_layout(pad=0)

        outputfile = 'people.jpg'

        fig.savefig(outputfile)

        print('  Results saved in', outputfile)

if __name__ == "__main__":

    main()

OutPut:

Analyze Faces:

Python Code:

from dotenv import load_dotenv

import os

from PIL import Image, ImageDraw

from matplotlib import pyplot as plt

#pip install azure-cognitiveservices-vision-face==0.6.0

# Import namespaces

from azure.cognitiveservices.vision.face import FaceClient

from azure.cognitiveservices.vision.face.models import FaceAttributeType

from msrest.authentication import CognitiveServicesCredentials

def main():

    global face_client

    try:

        # Get Configuration Settings

        load_dotenv()

        # cog_endpoint = os.getenv('AI_SERVICE_ENDPOINT')

        # cog_key = os.getenv('AI_SERVICE_KEY')

       

        cog_endpoint = 'https://sreemultiserviceaccount1.cognitiveservices.azure.com/'

        cog_key ='2D9XtWQ0Yfuw3AAAEACOGFMV1'

        # Authenticate Face client

        credentials = CognitiveServicesCredentials(cog_key)

        face_client = FaceClient(cog_endpoint, credentials)

        # Menu for face functions

        print('1: Detect faces\nAny other key to quit')

        command = input('Enter a number:')

        if command == '1':

            DetectFaces(os.path.join('images','people.jpg'))

    except Exception as ex:

        print(ex)

def DetectFaces(image_file):

    print('Detecting faces in', image_file)

    # Specify facial features to be retrieved

    features = [

        FaceAttributeType.occlusion,

        FaceAttributeType.blur,

        FaceAttributeType.glasses

    ]

    # Get faces

    with open(image_file, mode="rb") as image_data:

        detected_faces = face_client.face.detect_with_stream(

        image=image_data,

        return_face_attributes=features,

        return_face_id=False

    )

    if len(detected_faces) > 0:

        print(len(detected_faces), 'faces detected.')

        # Prepare image for drawing

        fig = plt.figure(figsize=(8, 6))

        plt.axis('off')

        image = Image.open(image_file)

        draw = ImageDraw.Draw(image)

        color = 'lightgreen'

        face_count = 0

        # Draw and annotate each face

        for face in detected_faces:

            # Get face properties

            face_count += 1

            print('\nFace number {}'.format(face_count))

            detected_attributes = face.face_attributes.as_dict()

            if 'blur' in detected_attributes:

                print(' - Blur:')

                for blur_name in detected_attributes['blur']:

                    print('   - {}: {}'.format(blur_name, detected_attributes['blur'][blur_name]))

            if 'occlusion' in detected_attributes:

                print(' - Occlusion:')

                for occlusion_name in detected_attributes['occlusion']:

                    print('   - {}: {}'.format(occlusion_name,                         detected_attributes['occlusion'][occlusion_name]))

            if 'glasses' in detected_attributes:

                print(' - Glasses: {}'.format(detected_attributes['glasses']))

            # Draw and annotate face

            r = face.face_rectangle

            bounding_box = ((r.left, r.top), (r.left + r.width, r.top + r.height))

            draw.rectangle(bounding_box, outline=color, width=5)

            annotation = 'Face number {}'.format(face_count)

            plt.annotate(annotation, (r.left, r.top), backgroundcolor=color)

        # Save annotated image

        plt.imshow(image)

        outputfile = 'detected_faces.jpg'

        fig.savefig(outputfile)

        print('\nResults saved in', outputfile)

if __name__ == "__main__":

    main()

OutPut: