ConcurrentBag - Add Multiple Items?

The Concat method is an approach contained at public Enumerable static class that support System.Linq library (inner .NET System.Core assembly).

BUT, the Concat contains limits to provide the "add range" requirement to ConcurrentBag<T> object, with a behavior as image bellow (at line 47 in Visual Studio):

To Concat method matches the "add range" requirement, it's necessary to renew the current ConcurrentBag<T> object instance; if the program needs to add multiples ranges, it's necessary to makes auto-reference instances from current ConcurrentBag<T> (recursively) for each range.

Then, I do not use Concat approach and if I may do a recommendation, I DO NOT RECOMMEND. I follow a similar example from Eric's answer, where I developed a derived class from ConcurrentBag<T> that provides me the AddRange method using the ConcurrentBag<T> base method to add IEnumerable<T> items to the derived instance, as bellow:

public class ConcurrentBagCompleted<T> : ConcurrentBag<T>
{
    public ConcurrentBagCompleted() : base() { }

    public ConcurrentBagCompleted(IEnumerable<T> collection):base(collection)
    {
    }

    public void AddRange(IEnumerable<T> collection)
    {
        Parallel.ForEach(collection, item =>
        {
            base.Add(item);
        });
    }
}

I faced a similar issue, trying to process smaller chunks of data in parallel, because one large chunk was timing out the web service I was using to access my data on the sending side but I did not want things to run slower by processing each chunk serially. Processing the data record by record was even slower - since the service I was calling could handle bulk requests, it would be better to submit as many as possible without timing out.

Like Vlad said, concatting a concurrent bag to a list of an object type doesn't return a concurrent bag, so concat won't work! (It took me a while to realize I couldn't do that.)

Try this instead - create a List<T>, and then create a ConcurrentBag<List<T>>. On each parallel iteration, it will be adding a new list to the concurrent bag. When the parallel loop is done, loop through the ConcurrentBag and concat (or union if you want to eliminate possible duplicates) to the first List<T> that you created to "flatten" everything into one list.

Concat is an extension method provided by LINQ. It is an immutable operation that returns another IEnumerable that can enumerate the source collection followed immediately by the specified collection. It does not, in any way, change the source collection.

You will need to add your items to the ConcurrentBag one at a time.

(I know this is an old post, thought I'd add a little something).

Like others have said: yes, you need to add them one by one. In my case, I added a small extension method to make things a bit cleaner, but under the hood it does the same thing:

    public static void AddRange<T>(this ConcurrentBag<T> @this, IEnumerable<T> toAdd)
    {
        foreach (var element in toAdd)
        {
            @this.Add(element);
        }
    }

And then:

    ConcurrentBag<int> ccBag = new ConcurrentBag<int>();
    var listOfThings = new List<int>() { 1, 2, 4, 5, 6, 7, 8, 9 };
    ccBag.AddRange(listOfThings);

I also looked at using AsParallel to add within the extension method, but after running some tests on adding a list of strings of various sizes, it was consistantly slower to use AsParallel (as shown here) as opposed to the traditional for loop.

    public static void AddRange<T>(this ConcurrentBag<T> @this, IEnumerable<T> toAdd)
    {
        toAdd.AsParallel().ForAll(t => @this.Add(t));
    }