If all the items in a list have the same value, then I need to use that value, otherwise I need to use an “otherValue”. I can’t think of a simple and clear way of doing this. When the list is empty it should return the "other" value.
See also Neat way to write loop that has special logic for the first item in a collection.
var val = yyy.First().Value;
return yyy.All(x=>x.Value == val) ? val : otherValue;
Cleanest way I can think of. You can make it a one-liner by inlining val, but First() would be evaluated n times, doubling execution time.
To incorporate the "empty set" behavior specified in the comments, you simply add one more line before the two above:
if(yyy == null || !yyy.Any()) return otherValue;
.Any allow for the enumeration to quit early in cases where there are different values?
Dec 8, 2010 at 18:01
All will terminate as soon as it hits an element x of the sequence for which x.Value != val. Similarly, Any(x => x.Value != val) would terminate as soon as it hits an element x of the sequence for which x.Value != val. That is, both All and Any exhibit "short-circuiting" analogous to && and || (which is effectively what All and Any are).
return yyy.Skip(1).All(x=>x.Value == val) ? val : otherValue;
Skip is likely to allocate.
Apr 17 at 15:12
Good quick test for all equal:
collection.Distinct().Count() == 1
collection.Distinct().Count() <= 1 if you want to allow empty collections.
Dec 30, 2013 at 12:44
Distinct won't traverse the collection at all, and Count will do one traversal via Distinct's iterator.
Distinct to use with specific classes. Alternatively, in the manner I have opted to use this answer, with Select to first map a targeted property, e.g.: collection.Select(x => x.Property).Distinct().Count() == 1
Though you certainly can build such a device out of existing sequence operators, I would in this case be inclined to write this one up as a custom sequence operator. Something like:
// Returns "other" if the list is empty.
// Returns "other" if the list is non-empty and there are two different elements.
// Returns the element of the list if it is non-empty and all elements are the same.
public static int Unanimous(this IEnumerable<int> sequence, int other)
{
int? first = null;
foreach(var item in sequence)
{
if (first == null)
first = item;
else if (first.Value != item)
return other;
}
return first ?? other;
}
That's pretty clear, short, covers all the cases, and does not unnecessarily create extra iterations of the sequence.
Making this into a generic method that works on IEnumerable<T> is left as an exercise. :-)
other when the null was actually the (presumably) correct response. Say the function was T Unanimous<U, T>(this IEnumerable<U> sequence, T other) or some such signature, that complicates it a bit.
Dec 8, 2010 at 18:38
return collection.All(i => i == collection.First()))
? collection.First() : otherValue;.
Or if you're worried about executing First() for each element (which could be a valid performance concern):
var first = collection.First();
return collection.All(i => i == first) ? first : otherValue;
This may be late, but an extension that works for value and reference types alike based on Eric's answer:
public static partial class Extensions
{
public static Nullable<T> Unanimous<T>(this IEnumerable<Nullable<T>> sequence, Nullable<T> other, IEqualityComparer comparer = null) where T : struct, IComparable
{
object first = null;
foreach(var item in sequence)
{
if (first == null)
first = item;
else if (comparer != null && !comparer.Equals(first, item))
return other;
else if (!first.Equals(item))
return other;
}
return (Nullable<T>)first ?? other;
}
public static T Unanimous<T>(this IEnumerable<T> sequence, T other, IEqualityComparer comparer = null) where T : class, IComparable
{
object first = null;
foreach(var item in sequence)
{
if (first == null)
first = item;
else if (comparer != null && !comparer.Equals(first, item))
return other;
else if (!first.Equals(item))
return other;
}
return (T)first ?? other;
}
}
public int GetResult(List<int> list){
int first = list.First();
return list.All(x => x == first) ? first : SOME_OTHER_VALUE;
}
An alternative to using LINQ:
var set = new HashSet<int>(values);
return (1 == set.Count) ? values.First() : otherValue;
I have found using HashSet<T> is quicker for lists of up to ~ 6,000 integers compared with:
var value1 = items.First();
return values.All(v => v == value1) ? value1: otherValue;
HashSet<T> is initially quicker than using the LINQ statements in my answer. However, if I do this in a loop, then LINQ is quicker.
Mar 25, 2015 at 18:30
GetHashCode(), which is difficult to do correctly See: stackoverflow.com/a/371348/2607840 for more details.
A slight variation on the above simplified approach.
var result = yyy.Distinct().Count() == yyy.Count();
If a array is of type multidimension like below then we have to write below linq to check the data.
example: here elements are 0 and i am checking all values are 0 or not.
ip1=
0 0 0 0
0 0 0 0
0 0 0 0
0 0 0 0
var value=ip1[0][0]; //got the first index value
var equalValue = ip1.Any(x=>x.Any(xy=>xy.Equals())); //check with all elements value
if(equalValue)//returns true or false
{
return "Same Numbers";
}else{
return "Different Numbers";
}
