I am using AspNetCore Identity to manage users, and I am trying to "flatten" an array of errors returned from creating a user with a password that doesnt meet the criteria, this is what I have at the moment but ideally I would like a oneliner
var result = await userManager.CreateAsync(user, registerDto.Password);
if(!result.Succeeded){
string errorDesc = "";
foreach (var error in result.Errors)
{
errorDesc += error.Description;
}
return BadRequest(errorDesc);
}
something like this would be nice return BadRequest(String.Join(", ",result.Errors)); but this doesn't work as the errors are objects with a code and a description
this probably could be even more "onelinered" like return !result.Succeded ? BadRequest(String.Join(", ", results.Errors.Select(x=>x.Description)) : Ok(result);
Yes but the parent is duplicated for each item... its hard for me to explain thus to search. I think I might have to solution now, I'm gonna test it then change to fiddle so I can show you what I wanted :)
It would require me to overwrite equals etc. in the test project. It would just be the example in and output I have now in the fiddle. Give me a sec ok
@Wietlol Wait explain the in and output...? ehm maybe we should just go to a prive chat and I'll explain roughly what the in and output is. But the input is always A thing with itself as children (so infinitely deep)
In computer science, tree traversal (also known as tree search and walking the tree) is a form of graph traversal and refers to the process of visiting (e.g. retrieving, updating, or deleting) each node in a tree data structure, exactly once. Such traversals are classified by the order in which the nodes are visited. The following algorithms are described for a binary tree, but they may be generalized to other trees as well.
== Types ==
Unlike linked lists, one-dimensional arrays and other linear data structures, which are canonically traversed in linear order, trees may be traversed in multiple...
basically, you want to traverse your tree in depth-first pre-order
public static IEnumerable<T> SelectRecursivePreOrder<T>(this IEnumerable<T> elements, Func<T, IEnumerable<T>> selector)
{
foreach (T element in elements)
{
yield return element;
foreach (T child in selector(element).SelectRecursivePreOrder(selector))
yield return child;
}
}