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I am looking for a better pattern for working with a list of elements which each need processed and then depending on the outcome are removed from the list.
You can't use .Remove(element) inside a foreach (var element in X) (because it results in Collection was modified; enumeration operation may not execute. exception)... you also can't use for (int i = 0; i < elements.Count(); i++) and .RemoveAt(i) because it disrupts your current position in the collection relative to i.
Is there an elegant way to do this?
Iterate your list in reverse with a for loop:
for (int i = safePendingList.Count - 1; i >= 0; i--)
{
// some code
// safePendingList.RemoveAt(i);
}
Example:
var list = new List<int>(Enumerable.Range(1, 10));
for (int i = list.Count - 1; i >= 0; i--)
{
if (list[i] > 5)
list.RemoveAt(i);
}
list.ForEach(i => Console.WriteLine(i));
Alternately, you can use the RemoveAll method with a predicate to test against:
safePendingList.RemoveAll(item => item.Value == someValue);
Here's a simplified example to demonstrate:
var list = new List<int>(Enumerable.Range(1, 10));
Console.WriteLine("Before:");
list.ForEach(i => Console.WriteLine(i));
list.RemoveAll(i => i > 5);
Console.WriteLine("After:");
list.ForEach(i => Console.WriteLine(i));
foreach (var item in list.ToList()) {
list.Remove(item);
}
If you add ".ToList()" to your list (or the results of a LINQ query), you can remove "item" directly from "list" without the dreaded "Collection was modified; enumeration operation may not execute." error. The compiler makes a copy of "list", so that you can safely do the remove on the array.
While this pattern is not super efficient, it has a natural feel and is flexible enough for almost any situation. Such as when you want to save each "item" to a DB and remove it from the list only when the DB save succeeds.
A simple and straightforward solution:
Use a standard for-loop running backwards on your collection and RemoveAt(i) to remove elements.
Reverse iteration should be the first thing to come to mind when you want to remove elements from a Collection while iterating over it.
Luckily, there is a more elegant solution than writing a for loop which involves needless typing and can be error prone.
ICollection<int> test = new List<int>(new int[] {1, 2, 3, 4, 5, 6, 7, 8, 9, 10});
foreach (int myInt in test.Reverse<int>())
{
if (myInt % 2 == 0)
{
test.Remove(myInt);
}
}
Using the ToArray() on a generic list allows you to do a Remove(item) on your generic List:
List<String> strings = new List<string>() { "a", "b", "c", "d" };
foreach (string s in strings.ToArray())
{
if (s == "b")
strings.Remove(s);
}
Select the elements you do want rather than trying to remove the elements you don't want. This is so much easier (and generally more efficient too) than removing elements.
var newSequence = (from el in list
where el.Something || el.AnotherThing < 0
select el);
I wanted to post this as a comment in response to the comment left by Michael Dillon below, but it's too long and probably useful to have in my answer anyway:
Personally, I'd never remove items one-by-one, if you do need removal, then call RemoveAll which takes a predicate and only rearranges the internal array once, whereas Remove does an Array.Copy operation for every element you remove. RemoveAll is vastly more efficient.
And when you're backwards iterating over a list, you already have the index of the element you want to remove, so it would be far more efficient to call RemoveAt, because Remove first does a traversal of the list to find the index of the element you're trying to remove, but you already know that index.
So all in all, I don't see any reason to ever call Remove in a for-loop. And ideally, if it is at all possible, use the above code to stream elements from the list as needed so no second data structure has to be created at all.
Using .ToList() will make a copy of your list, as explained in this question:
ToList()-- Does it Create a New List?
By using ToList(), you can remove from your original list, because you're actually iterating over a copy.
foreach (var item in listTracked.ToList()) {
if (DetermineIfRequiresRemoval(item)) {
listTracked.Remove(item)
}
}
If the function that determines which items to delete has no side effects and doesn't mutate the item (it's a pure function), a simple and efficient (linear time) solution is:
list.RemoveAll(condition);
If there are side effects, I'd use something like:
var toRemove = new HashSet<T>();
foreach(var item in items)
{
...
if(condition)
toRemove.Add(item);
}
items.RemoveAll(toRemove.Contains);
This is still linear time, assuming the hash is good. But it has an increased memory use due to the hashset.
Finally if your list is only an IList<T> instead of a List<T> I suggest my answer to How can I do this special foreach iterator?. This will have linear runtime given typical implementations of IList<T>, compared with quadratic runtime of many other answers.
As any remove is taken on a condition you can use
list.RemoveAll(item => item.Value == someValue);
List<T> TheList = new List<T>();
TheList.FindAll(element => element.Satisfies(Condition)).ForEach(element => TheList.Remove(element));
You can't use foreach, but you could iterate forwards and manage your loop index variable when you remove an item, like so:
for (int i = 0; i < elements.Count; i++)
{
if (<condition>)
{
// Decrement the loop counter to iterate this index again, since later elements will get moved down during the remove operation.
elements.RemoveAt(i--);
}
}
Note that in general all of these techniques rely on the behaviour of the collection being iterated. The technique shown here will work with the standard List(T). (It is quite possible to write your own collection class and iterator that does allow item removal during a foreach loop.)
For loops are a bad construct for this.
Using while
var numbers = new List<int>(Enumerable.Range(1, 3));
while (numbers.Count > 0)
{
numbers.RemoveAt(0);
}
But, if you absolutely must use for
var numbers = new List<int>(Enumerable.Range(1, 3));
for (; numbers.Count > 0;)
{
numbers.RemoveAt(0);
}
Or, this:
public static class Extensions
{
public static IList<T> Remove<T>(
this IList<T> numbers,
Func<T, bool> predicate)
{
numbers.ForEachBackwards(predicate, (n, index) => numbers.RemoveAt(index));
return numbers;
}
public static void ForEachBackwards<T>(
this IList<T> numbers,
Func<T, bool> predicate,
Action<T, int> action)
{
for (var i = numbers.Count - 1; i >= 0; i--)
{
if (predicate(numbers[i]))
{
action(numbers[i], i);
}
}
}
}
Usage:
var numbers = new List<int>(Enumerable.Range(1, 10)).Remove((n) => n > 5);
However, LINQ already has RemoveAll() to do this
var numbers = new List<int>(Enumerable.Range(1, 10));
numbers.RemoveAll((n) => n > 5);
Lastly, you are probably better off using LINQ's Where() to filter and create a new list instead of mutating the existing list. Immutability is usually good.
var numbers = new List<int>(Enumerable.Range(1, 10))
.Where((n) => n <= 5)
.ToList();
Using Remove or RemoveAt on a list while iterating over that list has intentionally been made difficult, because it is almost always the wrong thing to do. You might be able to get it working with some clever trick, but it would be extremely slow. Every time you call Remove it has to scan through the entire list to find the element you want to remove. Every time you call RemoveAt it has to move subsequent elements 1 position to the left. As such, any solution using Remove or RemoveAt, would require quadratic time, O(n²).
Use RemoveAll if you can. Otherwise, the following pattern will filter the list in-place in linear time, O(n).
// Create a list to be filtered
IList<int> elements = new List<int>(new int[] {1, 2, 3, 4, 5, 6, 7, 8, 9, 10});
// Filter the list
int kept = 0;
for (int i = 0; i < elements.Count; i++) {
// Test whether this is an element that we want to keep.
if (elements[i] % 3 > 0) {
// Add it to the list of kept elements.
elements[kept] = elements[i];
kept++;
}
}
// Unfortunately IList has no Resize method. So instead we
// remove the last element of the list until: elements.Count == kept.
while (kept < elements.Count) elements.RemoveAt(elements.Count-1);
I would reassign the list from a LINQ query that filtered out the elements you didn't want to keep.
list = list.Where(item => ...).ToList();
Unless the list is very large there should be no significant performance problems in doing this.
The best way to remove items from a list while iterating over it is to use RemoveAll(). But the main concern written by people is that they have to do some complex things inside the loop and/or have complex compare cases.
The solution is to still use RemoveAll() but use this notation:
var list = new List<int>(Enumerable.Range(1, 10));
list.RemoveAll(item =>
{
// Do some complex operations here
// Or even some operations on the items
SomeFunction(item);
// In the end return true if the item is to be removed. False otherwise
return item > 5;
});
By assuming that predicate is a Boolean property of an element, that if it is true, then the element should be removed:
int i = 0;
while (i < list.Count())
{
if (list[i].predicate == true)
{
list.RemoveAt(i);
continue;
}
i++;
}
In C# one easy way is to mark the ones you wish to delete then create a new list to iterate over...
foreach(var item in list.ToList()){if(item.Delete) list.Remove(item);}
or even simpler use linq....
list.RemoveAll(p=>p.Delete);
but it is worth considering if other tasks or threads will have access to the same list at the same time you are busy removing, and maybe use a ConcurrentList instead.
I wish the "pattern" was something like this:
foreach( thing in thingpile )
{
if( /* condition#1 */ )
{
foreach.markfordeleting( thing );
}
elseif( /* condition#2 */ )
{
foreach.markforkeeping( thing );
}
}
foreachcompleted
{
// then the programmer's choices would be:
// delete everything that was marked for deleting
foreach.deletenow(thingpile);
// ...or... keep only things that were marked for keeping
foreach.keepnow(thingpile);
// ...or even... make a new list of the unmarked items
others = foreach.unmarked(thingpile);
}
This would align the code with the process that goes on in the programmer's brain.
foreach(var item in list.ToList())
{
if(item.Delete) list.Remove(item);
}
Simply create an entirely new list from the first one. I say "Easy" rather than "Right" as creating an entirely new list probably comes at a performance premium over the previous method (I haven't bothered with any benchmarking.) I generally prefer this pattern, it can also be useful in overcoming Linq-To-Entities limitations.
for(i = list.Count()-1;i>=0;i--)
{
item=list[i];
if (item.Delete) list.Remove(item);
}
This way cycles through the list backwards with a plain old For loop. Doing this forwards could be problematic if the size of the collection changes, but backwards should always be safe.
Just wanted to add my 2 cents to this in case this helps anyone, I had a similar problem but needed to remove multiple elements from an array list while it was being iterated over. the highest upvoted answer did it for me for the most part until I ran into errors and realized that the index was greater than the size of the array list in some instances because multiple elements were being removed but the index of the loop didn't keep track of that. I fixed this with a simple check:
ArrayList place_holder = new ArrayList();
place_holder.Add("1");
place_holder.Add("2");
place_holder.Add("3");
place_holder.Add("4");
for(int i = place_holder.Count-1; i>= 0; i--){
if(i>= place_holder.Count){
i = place_holder.Count-1;
}
// some method that removes multiple elements here
}
There is an option that hasn't been mentioned here.
If you don't mind adding a bit of code somewhere in your project, you can add and extension to List to return an instance of a class that does iterate through the list in reverse.
You would use it like this :
foreach (var elem in list.AsReverse())
{
//Do stuff with elem
//list.Remove(elem); //Delete it if you want
}
And here is what the extension looks like:
public static class ReverseListExtension
{
public static ReverseList<T> AsReverse<T>(this List<T> list) => new ReverseList<T>(list);
public class ReverseList<T> : IEnumerable
{
List<T> list;
public ReverseList(List<T> list){ this.list = list; }
public IEnumerator GetEnumerator()
{
for (int i = list.Count - 1; i >= 0; i--)
yield return list[i];
yield break;
}
}
}
This is basically list.Reverse() without the allocation.
Like some have mentioned you still get the drawback of deleting elements one by one, and if your list is massively long some of the options here are better. But I think there is a world where someone would want the simplicity of list.Reverse(), without the memory overhead.
Copy the list you are iterating. Then remove from the copy and interate the original. Going backwards is confusing and doesn't work well when looping in parallel.
var ids = new List<int> { 1, 2, 3, 4 };
var iterableIds = ids.ToList();
Parallel.ForEach(iterableIds, id =>
{
ids.Remove(id);
});
I would do like this
using System.IO;
using System;
using System.Collections.Generic;
class Author
{
public string Firstname;
public string Lastname;
public int no;
}
class Program
{
private static bool isEven(int i)
{
return ((i % 2) == 0);
}
static void Main()
{
var authorsList = new List<Author>()
{
new Author{ Firstname = "Bob", Lastname = "Smith", no = 2 },
new Author{ Firstname = "Fred", Lastname = "Jones", no = 3 },
new Author{ Firstname = "Brian", Lastname = "Brains", no = 4 },
new Author{ Firstname = "Billy", Lastname = "TheKid", no = 1 }
};
authorsList.RemoveAll(item => isEven(item.no));
foreach(var auth in authorsList)
{
Console.WriteLine(auth.Firstname + " " + auth.Lastname);
}
}
}
OUTPUT
Fred Jones
Billy TheKid
I found myself in a similar situation where I had to remove every nth element in a given List<T>.
for (int i = 0, j = 0, n = 3; i < list.Count; i++)
{
if ((j + 1) % n == 0) //Check current iteration is at the nth interval
{
list.RemoveAt(i);
j++; //This extra addition is necessary. Without it j will wrap
//down to zero, which will throw off our index.
}
j++; //This will always advance the j counter
}
The cost of removing an item from the list is proportional to the number of items following the one to be removed. In the case where the first half of the items qualify for removal, any approach which is based upon removing items individually will end up having to perform about N*N/4 item-copy operations, which can get very expensive if the list is large.
A faster approach is to scan through the list to find the first item to be removed (if any), and then from that point forward copy each item which should be retained to the spot where it belongs. Once this is done, if R items should be retained, the first R items in the list will be those R items, and all of the items requiring deletion will be at the end. If those items are deleted in reverse order, the system won't end up having to copy any of them, so if the list had N items of which R items, including all of the first F, were retained,
it will be necessary to copy R-F items, and shrink the list by one item N-R times. All linear time.
My approach is that I first create a list of indices, which should get deleted. Afterwards I loop over the indices and remove the items from the initial list. This looks like this:
var messageList = ...;
// Restrict your list to certain criteria
var customMessageList = messageList.FindAll(m => m.UserId == someId);
if (customMessageList != null && customMessageList.Count > 0)
{
// Create list with positions in origin list
List<int> positionList = new List<int>();
foreach (var message in customMessageList)
{
var position = messageList.FindIndex(m => m.MessageId == message.MessageId);
if (position != -1)
positionList.Add(position);
}
// To be able to remove the items in the origin list, we do it backwards
// so that the order of indices stays the same
positionList = positionList.OrderByDescending(p => p).ToList();
foreach (var position in positionList)
{
messageList.RemoveAt(position);
}
}
Trace the elements to be removed with a property, and remove them all after process.
using System.Linq;
List<MyProperty> _Group = new List<MyProperty>();
// ... add elements
bool cond = false;
foreach (MyProperty currObj in _Group)
{
// here it is supposed that you decide the "remove conditions"...
cond = true; // set true or false...
if (cond)
{
// SET - element can be deleted
currObj.REMOVE_ME = true;
}
}
// RESET
_Group.RemoveAll(r => r.REMOVE_ME);
myList.RemoveAt(i--);
simples;
I have an array filled with objects of a type I have declared myself (called ServiceUnit). I now want to filter out only some of the objects from this array and what I'm doing to acheive this is that I have a new array with the correct size and just try to copy the objects in to the new one.
ServiceUnit[] serviceUnits = ProductConfiguration.ServiceGuide.GetServiceUnits();
ServiceUnitType serviceUnitType = ProductConfiguration.ServiceGuide.GetServiceUnitType(guid);
int size = 0;
/* COUNT THE NUMBER OF OBJECTS ADHERING TO MY CRITERIA */
foreach (ServiceUnit unit in serviceUnits)
{
if (unit.ServiceUnitTypeAttributes[0].ServiceUnitType.Id == serviceUnitType.Id)
{
size++;
}
}
/* ARRAY TO STORE FILTERED OBJECTS BASED ON A CRITERIA */
ServiceUnit[] serviceUnitsFiltered = new ServiceUnit[size];
/* LOOP AND CHECK IF ADHERING TO CRITERIA, THEN COPY TO NEW ARRAY */
for(int i=0; i<serviceUnits.Length; i++){
if(serviceUnits[i].ServiceUnitTypeAttributes[0].ServiceUnitType == serviceUnitType){
serviceUnitsFiltered[i] = serviceUnits[i];
}
}
The problem I have is that the new array does have the right amount of objects in it, but they are not populated with the data from serviceUnits[i]. Instead they are just "nulled".
Any ideas on what might be wrong or how to solve it?
The bug is in this line:
serviceUnitsFiltered[i] = serviceUnits[i];
The index to serviceUnitsFiltered shouldn't be i but something else. Probably a new variable that is incremented every time you add something to serviceUnitsFiltered, like:
serviceUnitsFiltered[j++] = serviceUnits[i];
Also consider using LINQ, it's shorter (albeit a tiny bit slower):
serviceUnitsFiltered = serviceUnits.Where(x=>x.ServiceUnitTypeAttributes[0].ServiceUnitType == serviceUnitType).ToArray();
Why not just do...
ServiceUnit[] serviceUnits = ProductConfiguration.ServiceGuide.GetServiceUnits();
ServiceUnitType serviceUnitType = ProductConfiguration.ServiceGuide.GetServiceUnitType(guid);
serviceUnitsFiltered = serviceUnits.Where(unit=>unit.ServiceUnitTypeAttributes[0].ServiceUnitType.Id == serviceUnitType.Id).ToList();
You can do it much easier with LINQ:
serviceUnitsFiltered = serviceUnits.Where(su => su.ServiceUnitTypeAttributes[0].ServiceUnitType == serviceUnitType)
.ToArray();
You can use List<T> instead of using array :
/* LOOP AND CHECK IF ADHERING TO CRITERIA, THEN COPY TO NEW ARRAY */
List<ServiceUnit> serviceUnitsFiltered= new List<ServiceUnit>();
for(int i = 0; i < serviceUnits.Length; i++)
if(serviceUnits[i].ServiceUnitTypeAttributes[0].ServiceUnitType == serviceUnitType)
serviceUnitsFiltered.Add(serviceUnits[i]);
Or if you strictly need an array of ServiceUnit elements you can convert it using List<T>.ToArray() method
P.S.
LINQ is one line solution but it is slower than simple for loop with just one if(condition) expression...
For now, the best I could think of is:
bool oneMoreTime = true;
while (oneMoreTime)
{
ItemType toDelete=null;
oneMoreTime=false;
foreach (ItemType item in collection)
{
if (ShouldBeDeleted(item))
{
toDelete=item;
break;
}
}
if (toDelete!=null)
{
collection.Remove(toDelete);
oneMoreTime=true;
}
}
I know that I have at least one extra variable here, but I included it to improve the readability of the algorithm.
The "RemoveAll" method is best.
Another common technique is:
var itemsToBeDeleted = collection.Where(i=>ShouldBeDeleted(i)).ToList();
foreach(var itemToBeDeleted in itemsToBeDeleted)
collection.Remove(itemToBeDeleted);
Another common technique is to use a "for" loop, but make sure you go backwards:
for (int i = collection.Count - 1; i >= 0; --i)
if (ShouldBeDeleted(collection[i]))
collection.RemoveAt(i);
Another common technique is to add the items that are not being removed to a new collection:
var newCollection = new List<whatever>();
foreach(var item in collection.Where(i=>!ShouldBeDeleted(i))
newCollection.Add(item);
And now you have two collections. A technique I particularly like if you want to end up with two collections is to use immutable data structures. With an immutable data structure, "removing" an item does not change the data structure; it gives you back a new data structure (that re-uses bits from the old one, if possible) that does not have the item you removed. With immutable data structures you are not modifying the thing you're iterating over, so there's no problem:
var newCollection = oldCollection;
foreach(var item in oldCollection.Where(i=>ShouldBeDeleted(i))
newCollection = newCollection.Remove(item);
or
var newCollection = ImmutableCollection<whatever>.Empty;
foreach(var item in oldCollection.Where(i=>!ShouldBeDeleted(i))
newCollection = newCollection.Add(item);
And when you're done, you have two collections. The new one has the items removed, the old one is the same as it ever was.
Just as I finished typing I remembered that there is lambda-way to do it.
collection.RemoveAll(i=>ShouldBeDeleted(i));
Better way?
A forward variation on the backward for loop:
for (int i = 0; i < collection.Count; )
if (ShouldBeDeleted(collection[i]))
collection.RemoveAt(i)
else
i++;
You cannot delete from a collection inside a foreach loop (unless it is a very special collection having a special enumerator). The BCL collections will throw exceptions if the collection is modified while it is being enumerated.
You could use a for loop to delete individual elements and adjust the index accordingly. However, doing that can be error prone. Depending on the implementation of the underlying collection it may also be expensive to delete individual elements. For instance deleting the first element of a List<T> will copy all the remaning elements in the list.
The best solution is often to create a new collection based on the old:
var newCollection = collection.Where(item => !ShouldBeDeleted(item)).ToList();
Use ToList() or ToArray() to create the new collection or initialize your specific collection type from the IEnumerable returned by the Where() clause.
The lambda way is good. You could also use a regular for loop, you can iterate lists that a for loop uses within the loop itself, unlike a foreach loop.
for (int i = collection.Count-1; i >= 0; i--)
{
if(ShouldBeDeleted(collection[i])
collection.RemoveAt(i);
}
I am assuming that collection is an arraylist here, the code might be a bit different if you are using a different data structure.
I have the classic case of trying to remove an item from a collection while enumerating it in a loop:
List<int> myIntCollection = new List<int>();
myIntCollection.Add(42);
myIntCollection.Add(12);
myIntCollection.Add(96);
myIntCollection.Add(25);
foreach (int i in myIntCollection)
{
if (i == 42)
myIntCollection.Remove(96); // The error is here.
if (i == 25)
myIntCollection.Remove(42); // The error is here.
}
At the beginning of the iteration after a change takes place, an InvalidOperationException is thrown, because enumerators don’t like when the underlying collection changes.
I need to make changes to the collection while iterating. There are many patterns that can be used to avoid this, but none of them seems to have a good solution:
Do not delete inside this loop, instead keep a separate “Delete List”, that you process after the main loop.
This is normally a good solution, but in my case, I need the item to be gone instantly as “waiting” till after
the main loop to really delete the item changes the logic flow of my code.
Instead of deleting the item, simply set a flag on the item and mark it as inactive. Then add the functionality of pattern 1 to clean up the list.
This would work for all of my needs, but it means that a lot of code will have to change in order to check the inactive flag every time an item is accessed. This is far too much administration for my liking.
Somehow incorporate the ideas of pattern 2 in a class that derives from List<T>. This Superlist will handle the inactive flag, the deletion of objects after the fact and also will not expose items marked as inactive to enumeration consumers. Basically, it just encapsulates all the ideas of pattern 2 (and subsequently pattern 1).
Does a class like this exist? Does anyone have code for this? Or is there a better way?
I’ve been told that accessing myIntCollection.ToArray() instead of myIntCollection will solve the problem and allow me to delete inside the loop.
This seems like a bad design pattern to me, or maybe it’s fine?
Details:
The list will contain many items and I will be removing only some of them.
Inside the loop, I will be doing all sorts of processes, adding, removing etc., so the solution needs to be fairly generic.
The item that I need to delete may not be the current item in the loop. For example, I may be on item 10 of a 30 item loop and need to remove item 6 or item 26. Walking backwards through the array will no longer work because of this. ;o(
The best solution is usually to use the RemoveAll() method:
myList.RemoveAll(x => x.SomeProp == "SomeValue");
Or, if you need certain elements removed:
MyListType[] elems = new[] { elem1, elem2 };
myList.RemoveAll(x => elems.Contains(x));
This assume that your loop is solely intended for removal purposes, of course. If you do need to additional processing, then the best method is usually to use a for or while loop, since then you're not using an enumerator:
for (int i = myList.Count - 1; i >= 0; i--)
{
// Do processing here, then...
if (shouldRemoveCondition)
{
myList.RemoveAt(i);
}
}
Going backwards ensures that you don't skip any elements.
Response to Edit:
If you're going to have seemingly arbitrary elements removed, the easiest method might be to just keep track of the elements you want to remove, and then remove them all at once after. Something like this:
List<int> toRemove = new List<int>();
foreach (var elem in myList)
{
// Do some stuff
// Check for removal
if (needToRemoveAnElement)
{
toRemove.Add(elem);
}
}
// Remove everything here
myList.RemoveAll(x => toRemove.Contains(x));
If you must both enumerate a List<T> and remove from it then I suggest simply using a while loop instead of a foreach
var index = 0;
while (index < myList.Count) {
if (someCondition(myList[index])) {
myList.RemoveAt(index);
} else {
index++;
}
}
I know this post is old, but I thought I'd share what worked for me.
Create a copy of the list for enumerating, and then in the for each loop, you can process on the copied values, and remove/add/whatever with the source list.
private void ProcessAndRemove(IList<Item> list)
{
foreach (var item in list.ToList())
{
if (item.DeterminingFactor > 10)
{
list.Remove(item);
}
}
}
When you need to iterate through a list and might modify it during the loop then you are better off using a for loop:
for (int i = 0; i < myIntCollection.Count; i++)
{
if (myIntCollection[i] == 42)
{
myIntCollection.Remove(i);
i--;
}
}
Of course you must be careful, for example I decrement i whenever an item is removed as otherwise we will skip entries (an alternative is to go backwards though the list).
If you have Linq then you should just use RemoveAll as dlev has suggested.
As you enumerate the list, add the one you want to KEEP to a new list. Afterward, assign the new list to the myIntCollection
List<int> myIntCollection=new List<int>();
myIntCollection.Add(42);
List<int> newCollection=new List<int>(myIntCollection.Count);
foreach(int i in myIntCollection)
{
if (i want to delete this)
///
else
newCollection.Add(i);
}
myIntCollection = newCollection;
Let's add you code:
List<int> myIntCollection=new List<int>();
myIntCollection.Add(42);
myIntCollection.Add(12);
myIntCollection.Add(96);
myIntCollection.Add(25);
If you want to change the list while you're in a foreach, you must type .ToList()
foreach(int i in myIntCollection.ToList())
{
if (i == 42)
myIntCollection.Remove(96);
if (i == 25)
myIntCollection.Remove(42);
}
For those it may help, I wrote this Extension method to remove items matching the predicate and return the list of removed items.
public static IList<T> RemoveAllKeepRemoved<T>(this IList<T> source, Predicate<T> predicate)
{
IList<T> removed = new List<T>();
for (int i = source.Count - 1; i >= 0; i--)
{
T item = source[i];
if (predicate(item))
{
removed.Add(item);
source.RemoveAt(i);
}
}
return removed;
}
How about
int[] tmp = new int[myIntCollection.Count ()];
myIntCollection.CopyTo(tmp);
foreach(int i in tmp)
{
myIntCollection.Remove(42); //The error is no longer here.
}
If you're interested in high performance, you can use two lists. The following minimises garbage collection, maximises memory locality and never actually removes an item from a list, which is very inefficient if it's not the last item.
private void RemoveItems()
{
_newList.Clear();
foreach (var item in _list)
{
item.Process();
if (!item.NeedsRemoving())
_newList.Add(item);
}
var swap = _list;
_list = _newList;
_newList = swap;
}
Just figured I'll share my solution to a similar problem where i needed to remove items from a list while processing them.
So basically "foreach" that will remove the item from the list after it has been iterated.
My test:
var list = new List<TempLoopDto>();
list.Add(new TempLoopDto("Test1"));
list.Add(new TempLoopDto("Test2"));
list.Add(new TempLoopDto("Test3"));
list.Add(new TempLoopDto("Test4"));
list.PopForEach((item) =>
{
Console.WriteLine($"Process {item.Name}");
});
Assert.That(list.Count, Is.EqualTo(0));
I solved this with a extension method "PopForEach" that will perform a action and then remove the item from the list.
public static class ListExtensions
{
public static void PopForEach<T>(this List<T> list, Action<T> action)
{
var index = 0;
while (index < list.Count) {
action(list[index]);
list.RemoveAt(index);
}
}
}
Hope this can be helpful to any one.
Currently you are using a list. If you could use a dictionary instead, it would be much easier. I'm making some assumptions that you are really using a class instead of just a list of ints. This would work if you had some form of unique key. In the dictionary, object can be any class you have and int would be any unique key.
Dictionary<int, object> myIntCollection = new Dictionary<int, object>();
myIntCollection.Add(42, "");
myIntCollection.Add(12, "");
myIntCollection.Add(96, "");
myIntCollection.Add(25, "");
foreach (int i in myIntCollection.Keys)
{
//Check to make sure the key wasn't already removed
if (myIntCollection.ContainsKey(i))
{
if (i == 42) //You can test against the key
myIntCollection.Remove(96);
if (myIntCollection[i] == 25) //or you can test against the value
myIntCollection.Remove(42);
}
}
Or you could use
Dictionary<myUniqueClass, bool> myCollection; //Bool is just an empty place holder
The nice thing is you can do anything you want to the underlying dictionary and the key enumerator doesn't care, but it also doesn't update with added or removed entries.
What is the best way to approach removing items from a collection in C#, once the item is known, but not it's index. This is one way to do it, but it seems inelegant at best.
//Remove the existing role assignment for the user.
int cnt = 0;
int assToDelete = 0;
foreach (SPRoleAssignment spAssignment in workspace.RoleAssignments)
{
if (spAssignment.Member.Name == shortName)
{
assToDelete = cnt;
}
cnt++;
}
workspace.RoleAssignments.Remove(assToDelete);
What I would really like to do is find the item to remove by property (in this case, name) without looping through the entire collection and using 2 additional variables.
If RoleAssignments is a List<T> you can use the following code.
workSpace.RoleAssignments.RemoveAll(x =>x.Member.Name == shortName);
If you want to access members of the collection by one of their properties, you might consider using a Dictionary<T> or KeyedCollection<T> instead. This way you don't have to search for the item you're looking for.
Otherwise, you could at least do this:
foreach (SPRoleAssignment spAssignment in workspace.RoleAssignments)
{
if (spAssignment.Member.Name == shortName)
{
workspace.RoleAssignments.Remove(spAssignment);
break;
}
}
#smaclell asked why reverse iteration was more efficient in in a comment to #sambo99.
Sometimes it's more efficient. Consider you have a list of people, and you want to remove or filter all customers with a credit rating < 1000;
We have the following data
"Bob" 999
"Mary" 999
"Ted" 1000
If we were to iterate forward, we'd soon get into trouble
for( int idx = 0; idx < list.Count ; idx++ )
{
if( list[idx].Rating < 1000 )
{
list.RemoveAt(idx); // whoops!
}
}
At idx = 0 we remove Bob, which then shifts all remaining elements left. The next time through the loop idx = 1, but
list[1] is now Ted instead of Mary. We end up skipping Mary by mistake. We could use a while loop, and we could introduce more variables.
Or, we just reverse iterate:
for (int idx = list.Count-1; idx >= 0; idx--)
{
if (list[idx].Rating < 1000)
{
list.RemoveAt(idx);
}
}
All the indexes to the left of the removed item stay the same, so you don't skip any items.
The same principle applies if you're given a list of indexes to remove from an array. In order to keep things straight you need to sort the list and then remove the items from highest index to lowest.
Now you can just use Linq and declare what you're doing in a straightforward manner.
list.RemoveAll(o => o.Rating < 1000);
For this case of removing a single item, it's no more efficient iterating forwards or backwards. You could also use Linq for this.
int removeIndex = list.FindIndex(o => o.Name == "Ted");
if( removeIndex != -1 )
{
list.RemoveAt(removeIndex);
}
If it's an ICollection then you won't have a RemoveAll method. Here's an extension method that will do it:
public static void RemoveAll<T>(this ICollection<T> source,
Func<T, bool> predicate)
{
if (source == null)
throw new ArgumentNullException("source", "source is null.");
if (predicate == null)
throw new ArgumentNullException("predicate", "predicate is null.");
source.Where(predicate).ToList().ForEach(e => source.Remove(e));
}
Based on:
http://phejndorf.wordpress.com/2011/03/09/a-removeall-extension-for-the-collection-class/
For a simple List structure the most efficient way seems to be using the Predicate RemoveAll implementation.
Eg.
workSpace.RoleAssignments.RemoveAll(x =>x.Member.Name == shortName);
The reasons are:
The Predicate/Linq RemoveAll method is implemented in List and has access to the internal array storing the actual data. It will shift the data and resize the internal array.
The RemoveAt method implementation is quite slow, and will copy the entire underlying array of data into a new array. This means reverse iteration is useless for List
If you are stuck implementing this in a the pre c# 3.0 era. You have 2 options.
The easily maintainable option. Copy all the matching items into a new list and and swap the underlying list.
Eg.
List<int> list2 = new List<int>() ;
foreach (int i in GetList())
{
if (!(i % 2 == 0))
{
list2.Add(i);
}
}
list2 = list2;
Or
The tricky slightly faster option, which involves shifting all the data in the list down when it does not match and then resizing the array.
If you are removing stuff really frequently from a list, perhaps another structure like a HashTable (.net 1.1) or a Dictionary (.net 2.0) or a HashSet (.net 3.5) are better suited for this purpose.
What type is the collection? If it's List, you can use the helpful "RemoveAll":
int cnt = workspace.RoleAssignments
.RemoveAll(spa => spa.Member.Name == shortName)
(This works in .NET 2.0. Of course, if you don't have the newer compiler, you'll have to use "delegate (SPRoleAssignment spa) { return spa.Member.Name == shortName; }" instead of the nice lambda syntax.)
Another approach if it's not a List, but still an ICollection:
var toRemove = workspace.RoleAssignments
.FirstOrDefault(spa => spa.Member.Name == shortName)
if (toRemove != null) workspace.RoleAssignments.Remove(toRemove);
This requires the Enumerable extension methods. (You can copy the Mono ones in, if you are stuck on .NET 2.0). If it's some custom collection that cannot take an item, but MUST take an index, some of the other Enumerable methods, such as Select, pass in the integer index for you.
This is my generic solution
public static IEnumerable<T> Remove<T>(this IEnumerable<T> items, Func<T, bool> match)
{
var list = items.ToList();
for (int idx = 0; idx < list.Count(); idx++)
{
if (match(list[idx]))
{
list.RemoveAt(idx);
idx--; // the list is 1 item shorter
}
}
return list.AsEnumerable();
}
It would look much simpler if extension methods support passing by reference !
usage:
var result = string[]{"mike", "john", "ali"}
result = result.Remove(x => x.Username == "mike").ToArray();
Assert.IsTrue(result.Length == 2);
EDIT: ensured that the list looping remains valid even when deleting items by decrementing the index (idx).
Here is a pretty good way to do it
http://support.microsoft.com/kb/555972
System.Collections.ArrayList arr = new System.Collections.ArrayList();
arr.Add("1");
arr.Add("2");
arr.Add("3");
/*This throws an exception
foreach (string s in arr)
{
arr.Remove(s);
}
*/
//where as this works correctly
Console.WriteLine(arr.Count);
foreach (string s in new System.Collections.ArrayList(arr))
{
arr.Remove(s);
}
Console.WriteLine(arr.Count);
Console.ReadKey();
There is another approach you can take depending on how you're using your collection. If you're downloading the assignments one time (e.g., when the app runs), you could translate the collection on the fly into a hashtable where:
shortname => SPRoleAssignment
If you do this, then when you want to remove an item by short name, all you need to do is remove the item from the hashtable by key.
Unfortunately, if you're loading these SPRoleAssignments a lot, that obviously isn't going to be any more cost efficient in terms of time. The suggestions other people made about using Linq would be good if you're using a new version of the .NET Framework, but otherwise, you'll have to stick to the method you're using.
Similar to Dictionary Collection point of view, I have done this.
Dictionary<string, bool> sourceDict = new Dictionary<string, bool>();
sourceDict.Add("Sai", true);
sourceDict.Add("Sri", false);
sourceDict.Add("SaiSri", true);
sourceDict.Add("SaiSriMahi", true);
var itemsToDelete = sourceDict.Where(DictItem => DictItem.Value == false);
foreach (var item in itemsToDelete)
{
sourceDict.Remove(item.Key);
}
Note:
Above code will fail in .Net Client Profile (3.5 and 4.5) also some viewers mentioned it is
Failing for them in .Net4.0 as well not sure which settings are causing the problem.
So replace with below code (.ToList()) for Where statement, to avoid that error. “Collection was modified; enumeration operation may not execute.”
var itemsToDelete = sourceDict.Where(DictItem => DictItem.Value == false).ToList();
Per MSDN From .Net4.5 onwards Client Profile are discontinued. http://msdn.microsoft.com/en-us/library/cc656912(v=vs.110).aspx
Save your items first, than delete them.
var itemsToDelete = Items.Where(x => !!!your condition!!!).ToArray();
for (int i = 0; i < itemsToDelete.Length; ++i)
Items.Remove(itemsToDelete[i]);
You need to override GetHashCode() in your Item class.
The best way to do it is by using linq.
Example class:
public class Product
{
public string Name { get; set; }
public string Price { get; set; }
}
Linq query:
var subCollection = collection1.RemoveAll(w => collection2.Any(q => q.Name == w.Name));
This query will remove all elements from collection1 if Name match any element Name from collection2
Remember to use: using System.Linq;
To do this while looping through the collection and not to get the modifying a collection exception, this is the approach I've taken in the past (note the .ToList() at the end of the original collection, this creates another collection in memory, then you can modify the existing collection)
foreach (SPRoleAssignment spAssignment in workspace.RoleAssignments.ToList())
{
if (spAssignment.Member.Name == shortName)
{
workspace.RoleAssignments.Remove(spAssignment);
}
}
If you have got a List<T>, then List<T>.RemoveAll is your best bet. There can't be anything more efficient. Internally it does the array moving in one shot, not to mention it is O(N).
If all you got is an IList<T> or an ICollection<T> you got roughly these three options:
public static void RemoveAll<T>(this IList<T> ilist, Predicate<T> predicate) // O(N^2)
{
for (var index = ilist.Count - 1; index >= 0; index--)
{
var item = ilist[index];
if (predicate(item))
{
ilist.RemoveAt(index);
}
}
}
or
public static void RemoveAll<T>(this ICollection<T> icollection, Predicate<T> predicate) // O(N)
{
var nonMatchingItems = new List<T>();
// Move all the items that do not match to another collection.
foreach (var item in icollection)
{
if (!predicate(item))
{
nonMatchingItems.Add(item);
}
}
// Clear the collection and then copy back the non-matched items.
icollection.Clear();
foreach (var item in nonMatchingItems)
{
icollection.Add(item);
}
}
or
public static void RemoveAll<T>(this ICollection<T> icollection, Func<T, bool> predicate) // O(N^2)
{
foreach (var item in icollection.Where(predicate).ToList())
{
icollection.Remove(item);
}
}
Go for either 1 or 2.
1 is lighter on memory and faster if you have less deletes to perform (i.e. predicate is false most of the times).
2 is faster if you have more deletes to perform.
3 is the cleanest code but performs poorly IMO. Again all that depends on input data.
For some benchmarking details see https://github.com/dotnet/BenchmarkDotNet/issues/1505
A lot of good responses here; I especially like the lambda expressions...very clean. I was remiss, however, in not specifying the type of Collection. This is a SPRoleAssignmentCollection (from MOSS) that only has Remove(int) and Remove(SPPrincipal), not the handy RemoveAll(). So, I have settled on this, unless there is a better suggestion.
foreach (SPRoleAssignment spAssignment in workspace.RoleAssignments)
{
if (spAssignment.Member.Name != shortName) continue;
workspace.RoleAssignments.Remove((SPPrincipal)spAssignment.Member);
break;
}