6

I have looked hours for a solution without any success. Hopefully someone can help me out.

I have a dynamic array of N items on M origin zip codes.

For instance:

Item 1: 11001, 54010, 60621 Item 2: 11001, 60621 Item 3: 60621

I want to create a new array that will look like this:

Route 1: 11001, 11001, 60621 Route 2: 11001, 60621, 60621 Route 3: 54010, 11001, 60621

etc - until Route 6.

Suggestions?

---------------------- Is there any way to accomplish this WITHOUT using Linq? VB.net and Linq do not go together :)

4
  • 1
    I don't understand your logic for generating routes... What do the "items" represent anyway ? Please give more details on what you're trying to do ! Commented Dec 12, 2010 at 20:31
  • possible duplicate of Generating all Possible Combinations
    – Gabe
    Commented Dec 12, 2010 at 20:53
  • You have this tagged C#. Do you want a VB solution?
    – Gabe
    Commented Dec 14, 2010 at 6:56
  • I have now posted a LINQ version, a recursive version, and a version with a loop. Any more questions?
    – Gabe
    Commented Dec 15, 2010 at 8:07

3 Answers 3

22

It sounds like you want this function from Eric Lippert's blog post written in response to Generating all Possible Combinations:

public static IEnumerable<IEnumerable<T>> CartesianProduct<T>(
    this IEnumerable<IEnumerable<T>> sequences) 
{ 
    IEnumerable<IEnumerable<T>> emptyProduct = new[] { Enumerable.Empty<T>() }; 
    return sequences.Aggregate( 
        emptyProduct, 
        (accumulator, sequence) =>  
            from accseq in accumulator  
            from item in sequence  
            select accseq.Concat(new[] {item}));                
}

That would let you write code like this:

int[][] items = { 
                    new[] { 11001, 54010, 60621 },
                    new[] { 11001, 60621 },
                    new[] { 60621 }
                };
var routes = CartesianProduct(items);
foreach (var route in routes)
    Console.WriteLine(string.Join(", ", route));

And get output like this:

11001, 11001, 60621
11001, 60621, 60621
54010, 11001, 60621
54010, 60621, 60621
60621, 11001, 60621
60621, 60621, 60621

EDIT: Here's the VB.NET version (in VS2010)

Imports System.Runtime.CompilerServices

Module Module1
    <Extension()>
    Private Function CartesianProduct(Of T)(
            ByVal sequences As IEnumerable(Of IEnumerable(Of T))) _
            As IEnumerable(Of IEnumerable(Of T))
        Dim emptyProduct As IEnumerable(Of IEnumerable(Of T)) =
            New IEnumerable(Of T)() {Enumerable.Empty(Of T)()}
        Return sequences.Aggregate(
            emptyProduct,
            Function(accumulator, sequence)
                Return (From accseq In accumulator
                        From item In sequence
                        Select accseq.Concat(New T() {item}))
            End Function)
    End Function

    Sub Main(ByVal args As String())
        Dim items = New Integer()() {New Integer() {11001, 54010, 60621},
                                     New Integer() {11001, 60621},
                                     New Integer() {60621}}
        Dim routes = items.CartesianProduct()
        Dim route As IEnumerable(Of Integer)
        For Each route In routes
            Console.WriteLine(String.Join(", ", route))
        Next
    End Sub
End Module

Of course, if you don't want any LINQ whatsoever, here's a completely LINQ-free recursive implementation:

public static IEnumerable<IEnumerable<T>> CartesianProduct<T>(
    this IEnumerable<IEnumerable<T>> sequences)
{
    var accum = new List<T[]>();
    var list = sequences.ToList();
    if (list.Count > 0)
        CartesianRecurse(accum, new Stack<T>(), list, list.Count - 1);
    return accum;
}

static void CartesianRecurse<T>(List<T[]> accum, Stack<T> stack,
                                List<IEnumerable<T>> list, int index)
{
    foreach (T item in list[index])
    {
        stack.Push(item);
        if (index == 0)
            accum.Add(stack.ToArray());
        else
            CartesianRecurse(accum, stack, list, index - 1);
        stack.Pop();
    }
}

It doesn't return the items in the same order as the first function, but is otherwise functionally identical. If you don't like LINQ or recursion, here's a single LINQ-less method that does the same thing as the recursive version:

public static IEnumerable<IEnumerable<T>> CartesianProduct<T>(
    this IEnumerable<IEnumerable<T>> sequences)
{
    var accum = new List<T[]>();
    var list = sequences.ToList();
    if (list.Count > 0)
    {
        var enumStack = new Stack<IEnumerator<T>>();
        var itemStack = new Stack<T>();
        int index = list.Count - 1;
        var enumerator = list[index].GetEnumerator();
        while (true)
            if (enumerator.MoveNext())
            {
                itemStack.Push(enumerator.Current);
                if (index == 0)
                {
                    accum.Add(itemStack.ToArray());
                    itemStack.Pop();
                }
                else
                {
                    enumStack.Push(enumerator);
                    enumerator = list[--index].GetEnumerator();
                }
            }
            else
            {
                if (++index == list.Count)
                    break;
                itemStack.Pop();
                enumerator = enumStack.Pop();
            }
    }
    return accum;
}
8
  • Thomas: OK, you win. I added a usage example. :)
    – Gabe
    Commented Dec 12, 2010 at 22:11
  • Gabe - Can you give it to me in VB.net? I'm new to LINQ :) Commented Dec 12, 2010 at 23:49
  • Nick: I wrote a VB.NET version, but it's still pretty LINQy.
    – Gabe
    Commented Dec 13, 2010 at 0:16
  • More evidence that VB.NET should be abolished :)
    – OJ.
    Commented Dec 13, 2010 at 11:38
  • Gabe: Is there a different way to accomplish this without using LINQ? Commented Dec 13, 2010 at 18:49
4

You can use linq for that:

var item1 = new[] { 11001, 54010, 60621 };
var item2 = new[] {  11001, 60621 };
var item3 = new [] { 60621 };
IEnumerable<int[]> cartesian = 
    from i1 in item1
    from i2 in item2
    from i3 in item3
    select new[] { i1, i2, i3 };
0

What you're looking to do is generate combinations of each item in the array.

Here's an example hard-coded for N == 3:

        var array1 = new[] { 1101, 5410, 60621 };
        var array2 = new[] { 1101, 60621 };
        var array3 = new[] { 60621 };

        foreach (var a in array1)
        {
            foreach (var b in array2)
            {
                foreach (var c in array3)
                {
                    Console.WriteLine("{0},{1},{2}", a, b, c);
                }
            }
        }

See if you can adapt that for N cases.

3
  • I guess I will have to use Gabe's answer. Commented Dec 12, 2010 at 23:48
  • How can you adapt this to N Cases? Commented Dec 14, 2010 at 22:42
  • Nick Warren: Adapting this solution to N cases requires either recursion or some complex looping with stacks. See my edited answer for examples of both.
    – Gabe
    Commented Dec 15, 2010 at 8:09

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service and acknowledge you have read our privacy policy.

Not the answer you're looking for? Browse other questions tagged or ask your own question.