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I have seen the Tuple introduced in .Net 4 but I am not able to imagine where can be it be used. We can always make a Custom class or Struct.

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13 Answers 13

up vote 32 down vote accepted

That's the point - it is more convenient not to make a custom class or struct all the time. It is an improvement like Action or Func... you can make this types yourself, but it's convenient that they exist in the framework.

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With tuples you could easily implement a two-dimensional dictionary (or n-dimensional for that matter). For example, you could use such a dictionary to implement a currency exchange mapping:

var forex = new Dictionary<Tuple<string, string>, decimal>();
forex.Add(Tuple.Create("USD", "EUR"), 0.74850m); // 1 USD = 0.74850 EUR
forex.Add(Tuple.Create("USD", "GBP"), 0.64128m);
forex.Add(Tuple.Create("EUR", "USD"), 1.33635m);
forex.Add(Tuple.Create("EUR", "GBP"), 0.85677m);
forex.Add(Tuple.Create("GBP", "USD"), 1.55938m);
forex.Add(Tuple.Create("GBP", "EUR"), 1.16717m);
forex.Add(Tuple.Create("USD", "USD"), 1.00000m);
forex.Add(Tuple.Create("EUR", "EUR"), 1.00000m);
forex.Add(Tuple.Create("GBP", "GBP"), 1.00000m);

decimal result;
result = 35.0m * forex[Tuple.Create("USD", "EUR")]; // USD 35.00 = EUR 26.20
result = 35.0m * forex[Tuple.Create("EUR", "GBP")]; // EUR 35.00 = GBP 29.99
result = 35.0m * forex[Tuple.Create("GBP", "USD")]; // GBP 35.00 = USD 54.58
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I'd rather use an Enum for the country abbreviations. Is that possible? –  Zack Aug 14 '14 at 20:44
    
Sure, it should work without problems as enums are value types. –  MarioVW Aug 18 '14 at 23:40

Here's a small example - say you have a method that needs to lookup a user's handle and email address, given a user Id. You can always make a custom class that contains that data, or use a ref / out parameter for that data, or you can just return a Tuple and have a nice method signature without having to create a new POCO.

public static void Main(string[] args)
{
    int userId = 0;
    Tuple<string, string> userData = GetUserData(userId);
}

public static Tuple<string, string> GetUserData(int userId)
{
    return new Tuple<string, string>("Hello", "World");
}
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4  
This is a good example however, does not justify the usage of Tuple. –  Amitabh Apr 30 '10 at 15:48
4  
A tuple is a decent fit here since you're returning distinct values; but a tuple shines more when you're returning multiple values of different types. –  Mark Rushakoff Apr 30 '10 at 16:41
10  
Another good example would be int.TryParse, as you could eliminate the output parameter and instead use a Tuple. So you could have Tuple<bool, T> TryParse<T>(string input) and instead of having to use an output parameter, you get both values back in a tuple. –  Tejs Apr 30 '10 at 17:37
1  
in fact, that's exactly what happens when you call any TryParse method from F#. –  Joel Mueller Apr 30 '10 at 17:56
1  
That's convenient then, as I was just starting to learn F#! –  Tejs Apr 30 '10 at 18:00

I used a tuple to solve Problem 11 of Project Euler:

class Grid
{
    public static int[,] Cells = { { 08, 02, 22, // whole grid omitted

    public static IEnumerable<Tuple<int, int, int, int>> ToList()
    {
        // code converts grid to enumeration every possible set of 4 per rules
        // code omitted
    }
}

Now I can solve the whole problem with:

class Program
{
    static void Main(string[] args)
    {
        int product = Grid.ToList().Max(t => t.Item1 * t.Item2 * t.Item3 * t.Item4);
        Console.WriteLine("Maximum product is {0}", product);
    }
}

I could have used a custom type for this, but it would have looked exactly like Tuple.

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C#'s tuple syntax is ridiculously bulky, so tuples are painful to declare. And it doesn't have pattern matching, so they're also painful to use.

But occasionally, you just want an ad-hoc grouping of objects without creating a class for it. For example, let's say I wanted to aggregate a list, but I wanted two values instead of one:

// sum and sum of squares at the same time
var x =
    Enumerable.Range(1, 100)
    .Aggregate((acc, x) => Tuple.Create(acc.Item1 + x, acc.Item2 + x * x));

Instead of combining a collection of values into a single result, let's expand a single result into a collection of values. The easiest way to write this function is:

static IEnumerable<T> Unfold<T, State>(State seed, Func<State, Tuple<T, State>> f)
{
    Tuple<T, State> res;
    while ((res = f(seed)) != null)
    {
        yield return res.Item1;
        seed = res.Item2;
    }
}

f converts some state into a tuple. We return the first value from the tuple and set our new state to the second value. This allows us to retain state throughout the computation.

You use it as such:

// return 0, 2, 3, 6, 8
var evens =
    Unfold(0, state => state < 10 ? Tuple.Create(state, state + 2) : null)
    .ToList();

// returns 0, 1, 1, 2, 3, 5, 8, 13, 21, 34
var fibs =
    Unfold(Tuple.Create(0, 1), state => Tuple.Create(state.Item1, Tuple.Create(state.Item2, state.Item1 + state.Item2)))
    .Take(10).ToList();

evens is fairly straightforward, but fibs is a little more clever. Its state is actually a tuple which holds fib(n-2) and fib(n-1) respectively.

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+1 Tuple.Create is handy shorthand for new Tuple<Guid,string,...> –  AaronLS Jan 10 '14 at 23:50

There's an excellent article in MSDN magazine that talks about the belly-aching and design considerations that went into adding Tuple to the BCL. Choosing between a value type and a reference type is particularly interesting.

As the article makes clear, the driving force behind Tuple was so many groups inside of Microsoft having a use for it, the F# team up front. Although not mentioned, I reckon that the new "dynamic" keyword in C# (and VB.NET) had something to do with it as well, tuples are very common in dynamic languages.

It is otherwise not particularly superior to creating your own poco, at least you can give the members a better name.

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I don't like the abuse of them, since they produce code that doesn't explain itself, but they're awesome to implement on-the-fly compound keys, since they implement IStructuralEquatable and IStructuralComparable (to use both for lookup and ordering purposes).

And they combine all of their items' hashcodes, internally; for example, here is Tuple's GetHashCode (taken from ILSpy):

    int IStructuralEquatable.GetHashCode(IEqualityComparer comparer)
    {
        return Tuple.CombineHashCodes(comparer.GetHashCode(this.m_Item1), comparer.GetHashCode(this.m_Item2), comparer.GetHashCode(this.m_Item3));
    }
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Tuples are great for doing multiple async IO operations at a time and returning all the values together. Here is the examples of doing it with and without Tuple. Tuples can actually make your code clearer!

Without (nasty nesting!):

Task.Factory.StartNew(() => data.RetrieveServerNames())
    .ContinueWith(antecedent1 =>
        {
            if (!antecedent1.IsFaulted)
            {
                ServerNames = KeepExistingFilter(ServerNames, antecedent1.Result);
                Task.Factory.StartNew(() => data.RetrieveLogNames())
                    .ContinueWith(antecedent2 =>
                        {
                            if (antecedent2.IsFaulted)
                            {
                                LogNames = KeepExistingFilter(LogNames, antecedent2.Result);
                                Task.Factory.StartNew(() => data.RetrieveEntryTypes())
                                    .ContinueWith(antecedent3 =>
                                        {
                                            if (!antecedent3.IsFaulted)
                                            {
                                                EntryTypes = KeepExistingFilter(EntryTypes, antecedent3.Result);
                                            }
                                        });
                            }
                        });
            }
        });

With Tuple

Task.Factory.StartNew(() =>
    {
        List<string> serverNames = data.RetrieveServerNames();
        List<string> logNames = data.RetrieveLogNames();
        List<string> entryTypes = data.RetrieveEntryTypes();
        return Tuple.Create(serverNames, logNames, entryTypes);
    }).ContinueWith(antecedent =>
        {
            if (!antecedent.IsFaulted)
            {
                ServerNames = KeepExistingFilter(ServerNames, antecedent.Result.Item1);
                LogNames = KeepExistingFilter(LogNames, antecedent.Result.Item2);
                EntryTypes = KeepExistingFilter(EntryTypes, antecedent.Result.Item3);
            }
        });

If you were using an anonymous function with an implied type anyway then you aren't making the code less clear by using the Tuple. Retuning a Tuple from a method? Use sparingly when code clarity is key, in my humble opinion. I know functional programming in C# is hard to resist, but we have to consider all of those old clunky "object oriented" C# programmers.

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Tuples are heavily used in functional languages which can do more things with them, now F# is a 'official' .net language you may want to interoperate with it from C# and pass them between code written in two languages.

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A few examples off the top of my head:

  • An X and Y location (and Z if you like)
  • a Width and Height
  • Anything measured over time

For example you wouldn't want to include System.Drawing in a web application just to use Point/PointF and Size/SizeF.

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The best use for Tuples I have found is when needing to return more than 1 type of object from a method, you know what object types and number they will be, and it is not a long list.

Other simple alternatives would be using an 'out' parameter

private string MyMethod(out object)

or making a Dictionary

Dictionary<objectType1, objectType2>

Using a Tuple however saves either creating the 'out' object or having to essentially look-up the entry in the dictionary;

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Just found the solution of one of my issues in Tuple. It is like to declare a class in scope of a method, but with lazy declaration of its fields names. You operate with collections of tuples, its single instances and then create a collection of anonimous type with the required field names, basing on your tuple. This avoids you from creating the new class for this purpose.

The task is to write a JSON response from LINQ without any additional classes:

 //I select some roles from my ORM my with subrequest and save results to Tuple list
 var rolesWithUsers = (from role in roles
                       select new Tuple<string, int, int>(
                         role.RoleName, 
                         role.RoleId, 
                         usersInRoles.Where(ur => ur.RoleId == role.RoleId).Count()
                      ));

 //Then I add some new element required element to this collection
 var tempResult = rolesWithUsers.ToList();
 tempResult.Add(new Tuple<string, int, int>(
                        "Empty", 
                         -1,
                         emptyRoleUsers.Count()
                      ));

 //And create a new anonimous class collection, based on my Tuple list
 tempResult.Select(item => new
            {
                GroupName = item.Item1,
                GroupId = item.Item2,
                Count = item.Item3
            });


 //And return it in JSON
 return new JavaScriptSerializer().Serialize(rolesWithUsers);

Of cause we could do this with declaring a new Class for my groups, but the idea to create such an anonimous collections without declaring of new classes.

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Changing shapes of objects when you need to send them across wire or pass to different layer of application and multiple objects get merged into one:

Example:

var customerDetails = new Tuple<Customer, List<Address>>(mainCustomer, new List<Address> {mainCustomerAddress}).ToCustomerDetails();

ExtensionMethod:

public static CustomerDetails ToCustomerDetails(this Tuple<Website.Customer, List<Website.Address>> customerAndAddress)
    {
        var mainAddress = customerAndAddress.Item2 != null ? customerAndAddress.Item2.SingleOrDefault(o => o.Type == "Main") : null;
        var customerDetails = new CustomerDetails
        {
            FirstName = customerAndAddress.Item1.Name,
            LastName = customerAndAddress.Item1.Surname,
            Title = customerAndAddress.Item1.Title,
            Dob = customerAndAddress.Item1.Dob,
            EmailAddress = customerAndAddress.Item1.Email,
            Gender = customerAndAddress.Item1.Gender,
            PrimaryPhoneNo = string.Format("{0}", customerAndAddress.Item1.Phone)
        };

        if (mainAddress != null)
        {
            customerDetails.AddressLine1 =
                !string.IsNullOrWhiteSpace(mainAddress.HouseName)
                    ? mainAddress.HouseName
                    : mainAddress.HouseNumber;
            customerDetails.AddressLine2 =
                !string.IsNullOrWhiteSpace(mainAddress.Street)
                    ? mainAddress.Street
                    : null;
            customerDetails.AddressLine3 =
                !string.IsNullOrWhiteSpace(mainAddress.Town) ? mainAddress.Town : null;
            customerDetails.AddressLine4 =
                !string.IsNullOrWhiteSpace(mainAddress.County)
                    ? mainAddress.County
                    : null;
            customerDetails.PostCode = mainAddress.PostCode;
        }
...
        return customerDetails;
    }
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protected by Tats_innit Mar 5 at 21:13

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