> public record TaggedNumber(int Number, List<string> Tags) ... var original = new TaggedNumber(1, new List<string> { "A", "B" }); var copy = original with { Tags = new List<string> { "A", "B", "C"} };
Good afternoon. I have a question. How do I append the list of tags, without writing out { "A", "B", "C"} explicitly?
You can create a copy of a list, with an extra element, by doing something like:
with { Tags = original.Tags.Append("C").ToList() }
However, if you want your records to be immutable (and you probably should, if you're following the approach of doing modifications by creating a copy), then you pr...
[milleniumbug] there is an arbitrary set of possible operations on collections
[milleniumbug] heck, the user can write their own ones
[milleniumbug] but noooo, the all possible operations have to be put in the common base class
[milleniumbug] the common base class is also written by someone who is the most vulnerable to the fragile base class problem because it's the standard library so literally everyone adds their own shit there
[milleniumbug] this mindset results in a Java .get(int) which is either O(n) or O(1) and let's hope no one passes me a collection which has O(n) .get to my function which assumes O(1) get
[milleniumbug] Squirrelkiller, imagine if C# had no ICollection<T> class and LinkedList<T> implemented IList<T> where the indexer would do a linear search
[milleniumbug] well, okay, Java has Collection<T>. Why Java LinkedList is implementing List<T>
the difference between a List and Collection is that in List, the elements are ordered
myHashSet[15] makes no sense
myLinkedList[15] does
even though it is an O(n) operation
it is only the api that matters
algorithms can check if their input list is random access by the marker interface if the input does not support it, then the algo can convert it to new ArrayList(input) for example
what is missing in both languages, and even kotlin, is the distinction between structural mutation and element mutation collections
for example, Array<E> : ElementMutableList<E> and ArrayList<E> : StructureMutableList<E>
where you can set elements in the array to other values, but you cant add or remove elements
[milleniumbug] I'll be fine with myLinkedList[15] non-existing and myList.SlowAsShitAt(15) working and potentially being implemented as myArray[15] where it's fast
I got "stuck" on a tech design wherein it should already be done but CTO is insisting for more info that is out of scope. PO agrees it met all of the requirements but I somehow got convinved with the CTO that what he said is still within scope (although initially I disagreed). Lead dev came in to the rescue and re align us all like a boss. Question, how do you become like that lead dev?
[milleniumbug] again, I ain't gonna have every possible operation in the interface just so someone can potentially come up with a better implementation, this adds extra complexity in "holy shit just look at all the methods when I use resharper implement interface shortcut"
I think one of the reason I am afraid to disagree/say no is I lack the skill to counter argue on the spot, but after a few days, I would come up with a good response but the decision has already been made
> chiefly British, informal. : to argue or disagree about something that is not important, that cannot be changed, etc.
why is there LazyList? IEnumerable missing those operators exactly because of the nature of not knowing when to finish (eg no Count property, which doesn't iterate through) Use IEnumerable as is
I've already accepted we're a 3rd world country and there's nothing I can do. People give me crap for deciding to stop voting for people I think would be better off hanging than standing at a podium, but I just sit back and silently laugh at their hopeless optimism.
I have this interface:
public interface IDataStore
{
Guid Create(string name);
bool SaveObject(Guid transcationId,Guid id);
T LoadObject<T>(Guid transcationId,Guid id);
bool DeleteObject<T>(Guid t, Guid id, object obj);
//void Dump(Guid t);
bool Close(Guid t);
}
what is b...
