70

I am doing some unit tests and I want to know if there's any way to test if a list is ordered by a property of the objects it contains.

Right now I am doing it this way but I don't like it, I want a better way. Can somebody help me please?

// (fill the list)
List<StudyFeedItem> studyFeeds = 
    Feeds.GetStudyFeeds(2120, DateTime.Today.AddDays(-200), 20);   

StudyFeedItem previous = studyFeeds.First();

foreach (StudyFeedItem item in studyFeeds)
{
    if (item != previous)
    {
        Assert.IsTrue(previous.Date > item.Date);
    }

    previous = item;
}
11
  • 4
    Be careful that you're not testing things that don't need to be tested. Are you ensuring that the query contains the expected order by clause, or are you merely checking to see that the order by clause works? The latter is wasteful.
    – Chris
    Nov 4, 2009 at 20:04
  • @Chris - this is a good point (+1), and I wondered the same thing when I was asking the question. Why would you say that testing the order by is wasteful? Should I then simply trust the DB engine and the CLR to keep things straight?
    – AJ.
    Nov 4, 2009 at 20:09
  • 3
    @PITADev: Yes, you should absolutely trust that the DB engine and the CLR keep things straight. You're not testing that int x = 2, y = 2, z = x + y has Assert.IsTrue(z == 4)' succeed are you? You should unit test the behavior of your public methods and nothing more. So if the expected behavior of repository.GetItems(true) returns an ordered list of items, then test that. But don't test that items.OrderBy(x => x, new YourComparer()) does indeed sort the list. However, do unit test that YourComparer does indeed compare correctly.
    – jason
    Nov 4, 2009 at 21:01
  • are you absolutely certain it will always be ordered either ascending or descending? Jan 11, 2016 at 11:42
  • 2
    l.OrderBy(e => e).SequenceEqual(l) easiest way with LINQ
    – a-ctor
    Jan 11, 2016 at 11:44

22 Answers 22

76

If you are using MSTest, you may want to take a look at CollectionAssert.AreEqual.

Enumerable.SequenceEqual may be another useful API to use in an assertion.

In both cases you should prepare a list that holds the expected list in the expected order, and then compare that list to the result.

Here's an example:

var studyFeeds = Feeds.GetStudyFeeds(2120, DateTime.Today.AddDays(-200), 20);   
var expectedList = studyFeeds.OrderByDescending(x => x.Date);
Assert.IsTrue(expectedList.SequenceEqual(studyFeeds));
1
  • 1
    The question was: "is there's any way to test if a list is ordered by a property of the objects it contains.", So: a test that returns true if the sequence is ordered by a given property. NOT: if the sequence equals another sequence. I'd go for an extension method, possibly using Enumerable.Aggregate May 22, 2018 at 11:59
56

A .NET 4.0 way would be to use the Enumerable.Zip method to zip the list with itself offset by one, which pairs each item with the subsequent item in the list. You can then check that the condition holds true for each pair, e.g.

var ordered = studyFeeds.Zip(studyFeeds.Skip(1), (a, b) => new { a, b })
                        .All(p => p.a.Date < p.b.Date);

If you're on an earlier version of the framework you can write your own Zip method without too much trouble, something like the following (argument validation and disposal of the enumerators if applicable is left to the reader):

public static IEnumerable<TResult> Zip<TFirst, TSecond, TResult>(
    this IEnumerable<TFirst> first,
    IEnumerable<TSecond> second,
    Func<TFirst, TSecond, TResult> selector)
{
    var e1 = first.GetEnumerator();
    var e2 = second.GetEnumerator();
    while (e1.MoveNext() & e2.MoveNext()) // one & is important
        yield return selector(e1.Current, e2.Current);
}
4
  • 2
    This will be more memory efficient than the other answers that use OrderBy(). Oct 1, 2014 at 19:34
  • 3
    This needs to be on top.
    – nawfal
    Jun 24, 2015 at 12:46
  • This can be simplified further so it uses only one lambda expression instead of two and gets rid of the anonymous type, improving readability. See my answer. :)
    – AnorZaken
    Sep 15, 2015 at 6:00
  • One thing worth to fix is the condition which should be <= instead. Items with the same date which are next to each other in the collection don't make the order invalid.
    – Max
    Feb 10, 2021 at 21:26
35

Nunit 2.5 introduced CollectionOrderedContraint and a nice syntax for verifying the order of a collection:

Assert.That(collection, Is.Ordered.By("PropertyName"));

No need to manually order and compare.

2
  • I like this, but at it's current state is very limited (can't order by multiple columns while setting acending/descending. :( Mar 26, 2015 at 17:02
  • The functionality of Nunit has been extended. Assertions now allow the use of your own comparers, as you can see in the manual. Constraints support a number of settings, including the direction and choice of the desired property (multiple properties even).
    – Jan
    Oct 11, 2021 at 9:16
27

If your unit testing framework has helper methods to assert equality of collections, you should be able do something like this (NUnit flavored):

var sorted = studyFeeds.OrderBy(s => s.Date);
CollectionAssert.AreEqual(sorted.ToList(), studyFeeds.ToList());

The assert method works with any IEnumerable, but when both collections are of type IList or "array of something", the error message thrown when the assert fails will contain the index of the first out-of-place element.

5
  • +1. Nice. I've used NUnit for years and didn't know about this. Also just discovered FileAssert and StringAssert! Thanks.
    – RichardOD
    Dec 21, 2009 at 14:07
  • it doesn't work :(. Error message: Baischana.Components.Services.Test.StudyFeedsTest.GetStudyFeeds_IsOrderedByDate: Expected: <System.Linq.OrderedEnumerable`2[Baischana.Components.StudyFeedItem,System.DateTime]> But was: < <Baischana.Components.StudyFeedItem>, <Baischana.Components.StudyFeedItem>, <Baischana.Components.StudyFeedItem>, <Baischana.Components.StudyFeedItem>, <Baischana.Components.StudyFeedItem> >
    – Nicole
    Dec 21, 2009 at 14:12
  • 1
    Sorting a list is quite ineffective in terms of computational complexity. Dec 21, 2009 at 14:15
  • 7
    +1 for CollectionAssert, I didn't know that. @el-pescado: that's true, but it's a unit test, not production code... Dec 21, 2009 at 14:23
  • @Nicole: That is the error message you get when the assertion fails. Try to pass the assert method two objects of type IList (my answer is edited to do that), and it should give you another error message, containing the index of the first out-of-place element. Dec 21, 2009 at 14:29
20

The solutions posted involving sorting the list are expensive - determining if a list IS sorted can be done in O(N). Here's an extension method which will check:

public static bool IsOrdered<T>(this IList<T> list, IComparer<T> comparer = null)
{
    if (comparer == null)
    {
        comparer = Comparer<T>.Default;
    }

    if (list.Count > 1)
    {
        for (int i = 1; i < list.Count; i++)
        {
            if (comparer.Compare(list[i - 1], list[i]) > 0)
            {
                return false;
            }
        }
    }
    return true;
}

A corresponding IsOrderedDescending could be implemented easily by changing > 0 to < 0.

6
  • >= is wrong, it would return false on [1, 1, 1, 2, 3]. Modifying this to detect a reverse sort is trivial too.
    – Richard
    Jan 11, 2016 at 11:50
  • 2
    So much better than an approach that sorts the data, (which makes my teeth itch). Jan 11, 2016 at 12:00
  • 1
    You can't use > or any operator to compare elements inside a generic method. Jan 11, 2016 at 12:01
  • 1
    Works with IList<String> but not with IList<T> or even IEnumerable<T>. Jan 11, 2016 at 12:09
  • Indeed, I should've written that in VS rather than in the browser! Updated with the same comparer method you used.
    – Richard
    Jan 11, 2016 at 14:19
12

Greg Beech answer, although excellent, can be simplified further by performing the test in the Zip itself. So instead of:

var ordered = studyFeeds.Zip(studyFeeds.Skip(1), (a, b) => new { a, b })
                        .All(p => p.a.Date <= p.b.Date);

You can simply do:

var ordered = !studyFeeds.Zip(studyFeeds.Skip(1), (a, b) => a.Date <= b.Date)
                        .Contains(false);

Which saves you one lambda expression and one anonymous type.

(In my opinion removing the anonymous type also makes it easier to read.)

6
  • 1
    I find this version easier to read : studyFeeds.Zip(studyFeeds.Skip(1), (a, b) => a.Date < b.Date) .All(b => true);
    – StackHola
    Jun 14, 2018 at 13:38
  • Personally I can't say I perceive any clarity difference between testing that all is true versus testing if any is false, that extra lambda seems unnecessary to me, but whatever floats your boat I guess.
    – AnorZaken
    Jun 15, 2018 at 0:29
  • 5
    @StackHola I think you've got a typo: (b => true) will always return true ignoring if b is false or true and I think you meant (b => b) Nov 12, 2018 at 12:47
  • @SteveCadwallader Yes you're right, can't edit back. Correct form is : studyFeeds.Zip(studyFeeds.Skip(1), (a, b) => a.Date < b.Date) .All(b => b);
    – StackHola
    Mar 28, 2019 at 10:44
  • 1
    One thing worth to fix is the condition which should be <= instead. Same values next to each other doesn't make the order invalid
    – Max
    Feb 10, 2021 at 21:20
9
if(studyFeeds.Length < 2)
  return;

for(int i = 1; i < studyFeeds.Length;i++)  
 Assert.IsTrue(studyFeeds[i-1].Date > studyFeeds[i].Date);

for isn't dead just quite yet!

0
8

How about:

var list = items.ToList();
for(int i = 1; i < list.Count; i++) {
    Assert.IsTrue(yourComparer.Compare(list[i - 1], list[i]) <= 0);
} 

where yourComparer is an instance of YourComparer which implements IComparer<YourBusinessObject>. This ensures that every element is less than the next element in the enumeration.

2
  • FYI: merged from stackoverflow.com/questions/1676178/…
    – Shog9
    Jul 24, 2014 at 15:59
  • asserting is only good in Debug, it will tell you if the list is order, but wont do anything in a release, Assert is good for verification when something should always be true! Mar 31 at 21:23
6

Linq based answer is:

You can use SequenceEqual method to check if the original and ordered one is same or not.

var isOrderedAscending = lJobsList.SequenceEqual(lJobsList.OrderBy(x => x));
var isOrderedDescending = lJobsList.SequenceEqual(lJobsList.OrderByDescending(x => x));

Don't forget to import System.Linq namespace.

Additionally:

I am repeating that this answer is Linq based, you can achieve more efficiency by creating your custom extension method.

Also, if somebody still wants to use Linq and check if the sequence both is ordered in ascending or descending order, then you can achieve a little bit more efficiency like that:

var orderedSequence = lJobsList.OrderBy(x => x)
                               .ToList();

var reversedOrderSequence = orderedSequence.AsEnumerable()
                                           .Reverse();

if (lJobsList.SequenceEqual(orderedSequence))
{
     // Ordered in ascending
}
else (lJobsList.SequenceEqual(reversedOrderSequence))
{
     // Ordered in descending
}
13
  • @PavelZagalsky Glad to help. But don't forget there exist other more efficient approachs which must be implemented by yourself. Jan 11, 2016 at 12:02
  • 1
    @Downvoter Could you please explain the downvoting reason? Jan 11, 2016 at 12:03
  • Sometimes I don't understand people :( Jan 11, 2016 at 12:04
  • 1
    @PavelZagalsky :) Some people can only harm, they have no ability to treat. Jan 11, 2016 at 12:06
  • 1
    And I'll repeat, Linq and extension methods have nothing to do with performance.
    – CodeCaster
    Jan 12, 2016 at 14:18
5

You could use an extension method like this:

public static System.ComponentModel.ListSortDirection? SortDirection<T>(this IEnumerable<T> items, Comparer<T> comparer = null)
{
    if (items == null) throw new ArgumentNullException("items");
    if (comparer == null) comparer = Comparer<T>.Default;

    bool ascendingOrder = true; bool descendingOrder = true;
    using (var e = items.GetEnumerator())
    {
        if (e.MoveNext())
        {
            T last = e.Current; // first item
            while (e.MoveNext())
            {
                int diff = comparer.Compare(last, e.Current);
                if (diff > 0)
                    ascendingOrder = false;
                else if (diff < 0)
                    descendingOrder = false;

                if (!ascendingOrder && !descendingOrder)
                    break;
                last = e.Current;
            }
        }
    }
    if (ascendingOrder)
        return System.ComponentModel.ListSortDirection.Ascending;
    else if (descendingOrder)
        return System.ComponentModel.ListSortDirection.Descending;
    else
        return null;
}

It enables to check if the sequence is sorted and also determines the direction:

var items = new[] { 3, 2, 1, 1, 0 };
var sort = items.SortDirection();
Console.WriteLine("Is sorted? {0}, Direction: {1}", sort.HasValue, sort);
//Is sorted? True, Direction: Descending
7
  • This iterates the input a lot more than I'd expect a self-contained LINQ function to.
    – Rawling
    Jan 11, 2016 at 11:53
  • 1
    @Rawling: because of Any and First. That doesn't iterate the sequence but only checks the first. If any of the items is not ordered it will stop enumeration and return false. Jan 11, 2016 at 11:57
  • It still calls GetEnumerable. If that's expensive, and it can be, you're calling it three times more than you need to.
    – Rawling
    Jan 11, 2016 at 11:59
  • @Rawling: true, and the accepted answer is more elegant. But isn't OrderBy + SequenceEqual less efficient because it needs to order the whole sequence before it can start with SequenceEqual whereas my foreach can compare the order immediately? It also needs to process it twice to check both directions whereas my loop only needs one. Jan 11, 2016 at 12:04
  • 1
    @TimSchmelter Your answer is a way better than the accepted. But I would personally use implicit enumerator (using (var e = items.GetEnumerator()) with e.MoveNext() and e.Current) to avoid Any(), 'Skip, and First`.
    – Ivan Stoev
    Jan 11, 2016 at 12:16
4

Here's how I do it with Linq and I comparable, might not be the best but works for me and it's test framework independent.

So the call looks like this:

    myList.IsOrderedBy(a => a.StartDate)

This works for anything that implements IComparable, so numbers strings and anything that inherit from IComparable:

    public static bool IsOrderedBy<T, TProperty>(this List<T> list, Expression<Func<T, TProperty>> propertyExpression) where TProperty : IComparable<TProperty>
    {
        var member = (MemberExpression) propertyExpression.Body;
        var propertyInfo = (PropertyInfo) member.Member;
        IComparable<TProperty> previousValue = null;
        for (int i = 0; i < list.Count(); i++)
        {
            var currentValue = (TProperty)propertyInfo.GetValue(list[i], null);
            if (previousValue == null)
            {
                previousValue = currentValue;
                continue;
            }

            if(previousValue.CompareTo(currentValue) > 0) return false;
            previousValue = currentValue;

        }

        return true;
    }

Hope this helps, took me ages to work this one out.

0
2

Checking a sequence can have four different outcomes. Same means that all elements in the sequence are the same (or the sequence is empty):

enum Sort {
  Unsorted,
  Same,
  SortedAscending,
  SortedDescending
}

Here is a way to check the sorting of a sequence:

Sort GetSort<T>(IEnumerable<T> source, IComparer<T> comparer = null) {
  if (source == null)
    throw new ArgumentNullException(nameof(source));
  if (comparer == null)
    comparer = Comparer<T>.Default;

  using (var enumerator = source.GetEnumerator()) {
    if (!enumerator.MoveNext())
      return Sort.Same;
    Sort? result = null;
    var previousItem = enumerator.Current;
    while (enumerator.MoveNext()) {
      var nextItem = enumerator.Current;
      var comparison = comparer.Compare(previousItem, nextItem);
      if (comparison < 0) {
        if (result == Sort.SortedDescending)
          return Sort.Unsorted;
        result = Sort.SortedAscending;
      }
      else if (comparison > 0) {
        if (result == Sort.SortedAscending)
          return Sort.Unsorted;
        result = Sort.SortedDescending;
      }
    }
    return result ?? Sort.Same;
  }
}

I'm using the enumerator directly instead of a foreach loop because I need to examine the elements of the sequence as pairs. It makes the code more complex but is also more efficient.

1

Something LINQ-y would be to use a separate sorted query...

var sorted = from item in items
 orderby item.Priority
 select item;

Assert.IsTrue(items.SequenceEquals(sorted));

Type inference means you'd need a

 where T : IHasPriority

However, if you have multiple items of the same priority, then for a unit test assertion you're probably best off just looping with the list index as Jason suggested.

1
1

One way or another you're going to have to walk the list and ensure that the items are in the order you want. Since the item comparison is custom, you could look into creating a generic method for this and passing in a comparison function - the same way that sorting the list uses comparison functions.

1

You can create an ordered and an unordered version of the list first:

var asc = jobs.OrderBy(x => x);
var desc = jobs.OrderByDescending(x => x);

Now compare the original list with both:

if (jobs.SequenceEqual(asc) || jobs.SequenceEquals(desc)) // ...
0
var studyFeeds = Feeds.GetStudyFeeds(2120, DateTime.Today.AddDays(-200), 20);
var orderedFeeds = studyFeeds.OrderBy(f => f.Date);

for (int i = 0; i < studyFeeds.Count; i++)
{
    Assert.AreEqual(orderedFeeds[i].Date, studyFeeds[i].Date);
}
0

What about something like this, without sorting the list

    public static bool IsAscendingOrder<T>(this IEnumerable<T> seq) where T : IComparable
    {
        var seqArray = seq as T[] ?? seq.ToArray();
        return !seqArray.Where((e, i) =>
            i < seqArray.Count() - 1 &&
            e.CompareTo(seqArray.ElementAt(i + 1)) >= 0).Any();
    }
0
Microsoft.VisualStudio.TestTools.UnitTesting.CollectionAssert.AreEqual(
  mylist.OrderBy((a) => a.SomeProperty).ToList(),
  mylist,
  "Not sorted.");
1
  • 2
    Can you explain what your code is doing? Posting just code as an answer is not the best practice. Apr 9, 2015 at 14:03
0

Here's a more lightweight generic version. To test for descending order, change the >= 0 comparison to <= 0.

public static bool IsAscendingOrder<T>(this IEnumerable<T> seq) where T : IComparable<T>
{
    var predecessor = default(T);
    var hasPredecessor = false;

    foreach(var x in seq)
    {
        if (hasPredecessor && predecessor.CompareTo(x) >= 0) return false;
        predecessor = x;
        hasPredecessor = true;
    }

    return true;
}

Tests:

  • new int[] { }.IsAscendingOrder() returns true
  • new int[] { 1 }.IsAscendingOrder() returns true
  • new int[] { 1,2 }.IsAscendingOrder() returns true
  • new int[] { 1,2,0 }.IsAscendingOrder() returns false
0

While AnorZaken's and Greg Beech's answers are very nice, as they don't require using an extension method, it can be good to avoid Zip() sometimes, as some enumerables can be expensive to enumerate in this way.

A solution can be found in Aggregate()

double[] score1 = new double[] { 12.2, 13.3, 5, 17.2, 2.2, 4.5 };
double[] score2 = new double[] { 2.2, 4.5, 5, 12.2, 13.3, 17.2 };

bool isordered1 = score1.Aggregate(double.MinValue,(accum,elem)=>elem>=accum?elem:double.MaxValue) < double.MaxValue;
bool isordered2 = score2.Aggregate(double.MinValue,(accum,elem)=>elem>=accum?elem:double.MaxValue) < double.MaxValue;

Console.WriteLine ("isordered1 {0}",isordered1);
Console.WriteLine ("isordered2 {0}",isordered2);

One thing a little ugly about the above solution, is the double less-than comparisons. Floating comparisons like this make me queasy as it is almost like a floating point equality comparison. But it seems to work for double here. Integer values would be fine, also. The floating point comparison can be avoided by using nullable types, but then the code becomes a bit harder to read.

double[] score3 = new double[] { 12.2, 13.3, 5, 17.2, 2.2, 4.5 };
double[] score4 = new double[] { 2.2, 4.5, 5, 12.2, 13.3, 17.2 };

bool isordered3 = score3.Aggregate((double?)double.MinValue,(accum,elem)=>(elem>(accum??(double?)double.MaxValue).Value)?(double?)elem:(double?)null) !=null;
bool isordered4 = score4.Aggregate((double?)double.MinValue,(accum,elem)=>(elem>(accum??(double?)double.MaxValue).Value)?(double?)elem:(double?)null) !=null;

Console.WriteLine ("isordered3 {0}",isordered3);
Console.WriteLine ("isordered4 {0}",isordered4);
0

You can use lambda in extension:

public static bool IsAscending<T>(this IEnumerable<T> self, Func<T, T, int> compareTo) {
  var list = self as IList<T> ?? self.ToList();
  if (list.Count < 2) {
    return true;
  }
  T a = list[0];
  for (int i = 1; i < list.Count; i++) {
    T b = list[i];
    if (compareTo(a, b) > 0) {
      return false;
    }
    a = b;
  }
  return true;
}

Using:

bool result1 = Enumerable.Range(2, 10).IsAscending((a, b) => a.CompareTo(b));

more:

var lst = new List<(int, string)> { (1, "b"), (2, "a"), (3, "s1"), (3, "s") };
bool result2 = lst.IsAscending((a, b) => {
  var cmp = a.Item1.CompareTo(b.Item1);
  if (cmp != 0) {
    return cmp;
  } else {
    return a.Item2.CompareTo(b.Item2);
  }
});
-2
var expectedList = resultA.ToArray();
var actualList = resultB.ToArray();
var i = 0;
foreach (var item in expectedList)
{
     Assert.True(expectedList[i].id == actualList[i].id);
     i++;
}
1
  • 1
    Why are you using a foreach loop if you don't intent to use the iteration variable? That doesn't make sense and you should probably be using a for loop instead.
    – BDL
    Mar 2 at 11:48

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