Using Microsoft.VisualStudio.Services.Client how can I list all available iterations in my project?
I can connect happily to my VSO instance but I have no idea where to go from there.
VssConnection connection = new VssConnection(_collectionUri, _credentials);
ProjectHttpClient projClient = connection.GetClientAsync<ProjectHttpClient>().Result;
Refer to this code to get iterations:
var connection = new VssConnection(u, c);
var workItemTracking = connection.GetClient<WorkItemTrackingHttpClient>();
Microsoft.TeamFoundation.Core.WebApi.ProjectHttpClient projClient = connection.GetClientAsync<Microsoft.TeamFoundation.Core.WebApi.ProjectHttpClient>().Result;
var projects= projClient.GetProjects().Result;
foreach(var p in projects)
{
var iteration = workItemTracking.GetClassificationNodeAsync(project: p.Name, structureGroup: Microsoft.TeamFoundation.WorkItemTracking.WebApi.Models.TreeStructureGroup.Iterations, depth: 5).Result;
GetIterations(iteration);
}
static void GetIterations(Microsoft.TeamFoundation.WorkItemTracking.WebApi.Models.WorkItemClassificationNode currentIteration)
{
Console.WriteLine(currentIteration.Name);
if(currentIteration.Children!=null)
{
foreach (var ci in currentIteration.Children)
{
GetIterations(ci);
}
}
}
Related
Azure Search V11
I can't get this to work. But with the standard FieldBuilder the index is created.
private static async Task CreateIndexAsync(SearchIndexClient indexClient, string indexName, Type type)
{
var builder = new FieldBuilder
{
Serializer = new JsonObjectSerializer(new JsonSerializerOptions {PropertyNamingPolicy = new CamelCaseNamingPolicy()})
};
var searchFields = builder.Build(type).ToArray();
var definition = new SearchIndex(indexName, searchFields);
await indexClient.CreateIndexAsync(definition);
}
`
public class CamelCaseNamingPolicy : JsonNamingPolicy
{
public override string ConvertName(string name)
{
return char.ToLower(name[0]) + name.Substring(1);
}
}
See our sample for FieldBuilder. Basically, you must use a naming policy for both FieldBuilder and the SearchClient:
var clientOptions = new SearchClientOptions
{
Serializer = new JsonObjectSerializer(
new JsonSerializerOptions
{
PropertyNamingPolicy = JsonNamingPolicy.CamelCase,
}),
};
var builder = new FieldBuilder
{
Serializer = clientOptions.Serializer,
};
var index = new SearchIndex("name")
{
Fields = builder.Build(type),
};
var indexClient = new SearchIndexClient(uri, clientOptions);
await indexClient.CreateIndexAsync(index);
await Task.DelayAsync(5000); // can take a little while
var searchClient = new SearchClient(uri, clientOptions);
var response = await searchClient.SearchAsync("whatever");
While this sample works (our sample code comes from oft-executed tests), if you have further troubles, please be sure to post the exact exception message you are getting.
On the Dynamic LINQ website there's an example using the Like function.
I am unable to get it to work with ef core 3.1
[Test]
public void DynamicQuery()
{
using var context = new SamDBContext(Builder.Options);
var config = new ParsingConfig { ResolveTypesBySimpleName = true };
var lst = context.Contacts.Where(config, "DynamicFunctions.Like(FirstName, \"%Ann%\")".ToList();
lst.Should().HaveCountGreaterThan(1);
}
Example from the Dynamic LINQ website
var example1 = Cars.Where(c => EF.Functions.Like(c.Brand, "%t%"));
example1.Dump();
var config = new ParsingConfig { ResolveTypesBySimpleName = true };
var example2 = Cars.Where(config, "DynamicFunctions.Like(Brand, \"%t%\")");
example2.Dump();
Looks like my code. But I am getting the following error
System.Linq.Dynamic.Core.Exceptions.ParseException : No property or field 'DynamicFunctions' exists in type 'Contact'
you don't need the ResolveTypesBySimpleName, implement your wont type provider.
The piece below people to use PostgreSQL ILike with unnaccent
public class LinqCustomProvider : DefaultDynamicLinqCustomTypeProvider
{
public override HashSet<Type> GetCustomTypes()
{
var result = base.GetCustomTypes();
result.Add(typeof(NpgsqlFullTextSearchDbFunctionsExtensions));
result.Add(typeof(NpgsqlDbFunctionsExtensions));
result.Add(typeof(DbFunctionsExtensions));
result.Add(typeof(DbFunctions));
result.Add(typeof(EF));
return result;
}
}
// ....
var expressionString = $"EF.Functions.ILike(EF.Functions.Unaccent(People.Name), \"%{value}%\")";
var config = new ParsingConfig()
{
DateTimeIsParsedAsUTC = true,
CustomTypeProvider = new LinqCustomProvider()
};
return query.Where(config, expressionString);
Hope this helps people, took me some time to get this sorted.
I want to save the document in a collection my method is as below but it is not saving at all.
internal static void InitializeDb()
{
var db = GetConnection();
var collection = db.GetCollection<BsonDocument>("locations");
var locations = new List<BsonDocument>();
var json = JObject.Parse(File.ReadAllText(#"..\..\test_files\TestData.json"));
foreach (var d in json["locations"])
{
using (var jsonReader = new JsonReader(d.ToString()))
{
var context = BsonDeserializationContext.CreateRoot(jsonReader);
var document = collection.DocumentSerializer.Deserialize(context);
locations.Add(document);
}
}
collection.InsertManyAsync(locations);
}
If I made async and await then it runs lately, I need to run this first and then only test the data.
For future reference, wait() at end of async method work like synchronously
internal static void InitializeDb()
{
var db = GetConnection();
var collection = db.GetCollection<BsonDocument>("locations");
var locations = new List<BsonDocument>();
var json = JObject.Parse(File.ReadAllText(#"..\..\test_files\TestData.json"));
foreach (var d in json["locations"])
{
using (var jsonReader = new JsonReader(d.ToString()))
{
var context = BsonDeserializationContext.CreateRoot(jsonReader);
var document = collection.DocumentSerializer.Deserialize(context);
locations.Add(document);
}
}
collection.InsertManyAsync(locations).wait();
}
I have managed to create document and do some complex searching too but facing problem in grouping some search result.
There are books which are displayed after search which is fine. Along with this Author grouping with count need to done which will be based on same search query.
Example,
Author Name | Count
A | 12
B | 2
I am using Lucene.Net 3.0.3.0 which does not support grouping but there might be some work around. I need same feature with price ranges too.
Everything is possible if you write a custom Collector. What you describe are facets, and can easily be solved by counting the document values yourself. The core part is calling the IndexSearcher.Search overload accepting a collector. The collector should read values, usually implemented with a field-cache implementation and do the calculation needed.
This is a short demonstration using some classes from my demo-project Corelicious.Lucene.
var postTypes = new Dictionary<Int32, Int32>();
searcher.Search(query, new DelegatingCollector((reader, doc, scorer) => {
var score = scorer.Score();
if (score > 0) {
var postType = SingleFieldCache.Default.GetInt32(reader, "PostTypeId", doc);
if (postType.HasValue) {
if (postTypes.ContainsKey(postType.Value)) {
postTypes[postType.Value]++;
} else {
postTypes[postType.Value] = 1;
}
}
}
}));
Full code:
using System;
using System.Collections.Generic;
using System.IO;
using System.Linq;
using System.Text.RegularExpressions;
using System.Xml;
using Corelicious.Lucene;
using Lucene.Net.Analysis;
using Lucene.Net.Analysis.Standard;
using Lucene.Net.Documents;
using Lucene.Net.Index;
using Lucene.Net.QueryParsers;
using Lucene.Net.Search;
using Lucene.Net.Store;
using Directory = Lucene.Net.Store.Directory;
using Version = Lucene.Net.Util.Version;
namespace ConsoleApplication {
public static class Program {
public static void Main(string[] args) {
Console.WriteLine ("Creating directory...");
var directory = new RAMDirectory();
var analyzer = new StandardAnalyzer(Version.LUCENE_30);
CreateIndex(directory, analyzer);
var userQuery = "calculate pi";
var queryParser = new QueryParser(Version.LUCENE_30, "Body", analyzer);
var query = queryParser.Parse(userQuery);
Console.WriteLine("Query: '{0}'", query);
var indexReader = IndexReader.Open(directory, readOnly: true);
var searcher = new IndexSearcher(indexReader);
var postTypes = new Dictionary<Int32, Int32>();
searcher.Search(query, new DelegatingCollector((reader, doc, scorer) => {
var score = scorer.Score();
if (score > 0) {
var postType = SingleFieldCache.Default.GetInt32(reader, "PostTypeId", doc);
if (postType.HasValue) {
if (postTypes.ContainsKey(postType.Value)) {
postTypes[postType.Value]++;
} else {
postTypes[postType.Value] = 1;
}
}
}
}));
Console.WriteLine("Post type summary");
Console.WriteLine("Post type | Count");
foreach(var pair in postTypes.OrderByDescending(x => x.Value)) {
var postType = (PostType)pair.Key;
Console.WriteLine("{0,-10} | {1}", postType, pair.Value);
}
Console.ReadLine ();
}
public enum PostType {
Question = 1,
Answer = 2,
Tag = 4
}
public static void CreateIndex(Directory directory, Analyzer analyzer) {
using (var writer = new IndexWriter(directory, analyzer, true, IndexWriter.MaxFieldLength.UNLIMITED))
using (var xmlStream = File.OpenRead("/Users/sisve/Downloads/Stack Exchange Data Dump - Sept 2011/Content/092011 Mathematics/posts.xml"))
using (var xmlReader = XmlReader.Create(xmlStream)) {
while (xmlReader.ReadToFollowing("row")) {
var tags = xmlReader.GetAttribute("Tags") ?? String.Empty;
var title = xmlReader.GetAttribute("Title") ?? String.Empty;
var body = xmlReader.GetAttribute("Body");
var doc = new Document();
// tags are stored as <tag1><tag2>
foreach (Match match in Regex.Matches(tags, "<(.*?)>")) {
doc.Add(new Field("Tags", match.Groups[1].Value, Field.Store.NO, Field.Index.NOT_ANALYZED));
}
doc.Add(new Field("Title", title, Field.Store.NO, Field.Index.ANALYZED));
doc.Add(new Field("Body", body, Field.Store.NO, Field.Index.ANALYZED));
doc.Add(new Field("PostTypeId", xmlReader.GetAttribute("PostTypeId"), Field.Store.NO, Field.Index.NOT_ANALYZED));
writer.AddDocument(doc);
}
writer.Optimize();
writer.Commit();
}
}
}
}
Graph of objects stored in the database and the same object graph is serialized into a binary package. Package is transmitted over the network to the client, then it is necessary to merge data from the package and data from the database.
Source code of merge:
//objList - data from package
var objectIds = objList.Select(row => row.ObjectId).ToArray();
//result - data from Database
var result = SomeService.Instance.LoadObjects(objectIds);
foreach (var OSobj in objList)
{
var obj = result.Objects.ContainsKey(OSobj.ObjectId)
? result.Objects[OSobj.ObjectId]
: result.Objects.CreateNew(OSobj.ObjectId);
var targetObject = result.DataObjects.Where(x => x.ObjectId == OSobj.ObjectId).FirstOrDefault();
targetObject.StopTracking();
var importedProperties = ImportProperties(targetObject.Properties, OSobj.Properties);
targetObject.Properties.Clear();
foreach (var property in importedProperties)
{
targetObject.Properties.Add(property);
}
targetObject.StartTracking();
}
return result;
And code of ImportProperties method:
static List<Properties> ImportProperties(
IEnumerable<Properties> targetProperties,
IEnumerable<Properties> sourceProperties)
{
Func<Guid, bool> hasElement = targetProperties
.ToDictionary(e => e.PropertyId, e => e)
.ContainsKey;
var tempTargetProperties = new List<Properties>();
foreach (var sourceProperty in sourceProperties)
{
if (!hasElement(sourceProperty.PropertyId))
{
sourceProperty.AcceptChanges();
tempTargetProperties.Add(sourceProperty.MarkAsAdded());
}
else
{
sourceProperty.AcceptChanges();
tempTargetProperties.Add(sourceProperty.MarkAsModified());
}
}
return tempTargetProperties;
}
Server save incoming changes like this :
_context.ApplyChanges("OSEntities.Objects", entity);
_context.SaveChanges(SaveOptions.DetectChangesBeforeSave);
When the server tries to save the changes occur exception:
AcceptChanges cannot continue because the object's key values conflict with another object in the ObjectStateManager. Make sure that the key values are unique before calling AcceptChanges.
But if I change the code of ImportProperties method, the error does not occur and the changes are saved successfully:
static List<Properties> ImportProperties(
IEnumerable<Properties> targetProperties,
IEnumerable<Properties> sourceProperties)
{
Func<Guid, bool> hasElement = targetProperties.ToDictionary(e => e.PropertyId, e => e).ContainsKey;
var tempTargetProperties = new List<Properties>();
foreach (var sourceProperty in sourceProperties)
{
if (!hasElement(sourceProperty.PropertyId))
{
var newProp = new Properties
{
ElementId = sourceProperty.ElementId,
Name = sourceProperty.Name,
ObjectId = sourceProperty.ObjectId,
PropertyId = sourceProperty.PropertyId,
Value = sourceProperty.Value
};
tempTargetProperties.Add(newProp);
}
else
{
var modifiedProp = new Properties
{
ElementId = sourceProperty.ElementId,
Name = sourceProperty.Name,
ObjectId = sourceProperty.ObjectId,
PropertyId = sourceProperty.PropertyId,
Value = sourceProperty.Value
};
modifiedProp.MarkAsModified();
tempTargetProperties.Add(modifiedProp);
}
}
return tempTargetProperties;
}
Why is there an exception?
When you transport an object graph (Entity with n-level deep navigation properties) to a client application the entities will record any changes made in their respective change trackers. When entity (or object graph) is sent back to the server side of the application basically all you need to do is:
try
{
using(Entities context = new Entities())
{
context.ApplyChanges(someEntity);
context.SaveChanges();
}
}
catch
{
...
}
I don't see the need of all the code above you posted. What are you trying to achieve with that code?