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I just wanted to know that what is the use of ZIP extension method in Linq.

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1  
Are you referring to this: msdn.microsoft.com/en-us/library/dd267698.aspx ? - What are you trying to accomplish? –  anon271334 Feb 25 '11 at 21:17
1  
@Lucifer:Thanks for the link –  user634871 Feb 25 '11 at 21:20
3  
It's like the two sides of a zipper coming together. –  Kevin Panko Aug 5 '14 at 18:45

6 Answers 6

up vote 27 down vote accepted

The Zip operator merges the corresponding elements of two sequences using a specified selector function.

var letters= new string[] { "A", "B", "C", "D", "E" };
var numbers= new int[] { 1, 2, 3 };
var q = letters.Zip(numbers, (s, i) => s + i.ToString());
foreach (var s in q)
    Console.WriteLine(s);

Ouput

A1
B2
C3
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5  
I like this answer because it shows what happens when the number of elements doesn't match up, similar to the msdn documentation –  DLeh Sep 9 '14 at 19:05

Zip is for combining two sequences into one. For example, if you have the sequences

1, 2, 3

and

10, 20, 30

and you want the sequence that is the result of multiplying elements in the same position in each sequence to obtain

10, 40, 90

you could say

var left = new[] { 1, 2, 3 };
var right = new[] { 10, 20, 30 };
var products = left.Zip(right, (m, n) => m * n);

It is called "zip" because you think of one sequence as the left-side of a zipper, and the other sequence as the right-side of the zipper, and the zip operator will pull the two sides together pairing off the teeth (the elements of the sequence) appropriately.

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5  
Definitely the best explanation here. –  Maxim Gershkovich Oct 30 '12 at 4:36
    
Much clearer than the picked answer! –  nashwan Jan 29 '14 at 18:07

It iterates through two sequences and combines their elements, one by one, into a single new sequence. So you take an element of sequence A, transform it with the corresponding element from sequence B, and the result forms an element of sequence C.

One way to think about it is that it's similar to Select, except instead of transforming items from a single collection, it works on two collections at once.

From the MSDN article on the method:

int[] numbers = { 1, 2, 3, 4 };
string[] words = { "one", "two", "three" };

var numbersAndWords = numbers.Zip(words, (first, second) => first + " " + second);

foreach (var item in numbersAndWords)
    Console.WriteLine(item);

// This code produces the following output:

// 1 one
// 2 two
// 3 three

If you were to do this in imperative code, you'd probably do something like this:

for (int i = 0; i < numbers.Length && i < words.Length; i++)
{
    numbersAndWords.Add(numbers[i] + " " + words[i]);
}

Or if LINQ didn't have Zip in it, you could do this:

var numbersAndWords = numbers.Select(
                          (num, i) => num + " " + words[i]
                      );

This is useful when you have data spread into simple, array-like lists, each with the same length and order, and each describing a different property of the same set of objects. Zip helps you knit those pieces of data together into a more coherent structure.

So if you have an array of state names and another array of their abbreviations, you could collate them into a State class like so:

IEnumerable<State> GetListOfStates(string[] stateNames, int[] statePopulations)
{
    return stateNames.Zip(statePopulations, 
                          (name, population) => new State()
                          {
                              Name = name,
                              Population = population
                          });
}
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The Zip method allows you to "merge" two unrelated sequences, using a merging function provider by you, the caller. The example on MSDN is actually pretty good at demonstrating what you can do with Zip. In this example, you take two arbitrary, unrelated sequences, and combine them using an arbitrary function (in this case, just concatenating items from both sequences into a single string).

int[] numbers = { 1, 2, 3, 4 };
string[] words = { "one", "two", "three" };

var numbersAndWords = numbers.Zip(words, (first, second) => first + " " + second);

foreach (var item in numbersAndWords)
    Console.WriteLine(item);

// This code produces the following output:

// 1 one
// 2 two
// 3 three
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string[] fname = { "mark", "john", "joseph" };
string[] lname = { "castro", "cruz", "lopez" };

var fullName = fname.Zip(lname, (f, l) => f + " " + l);

foreach (var item in fullName)
{
    Console.WriteLine(item);
}
// The output are

//mark castro..etc
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As others have stated, Zip lets you combine two collections for use in further Linq statements or a foreach loop.

Operations that used to require a for loop and two arrays can now be done in a foreach loop using an anonymous object.

An example I just discovered, that is kind of silly, but could be useful if parallelization were beneficial would be a single line Queue traversal with side effects:

timeSegments
    .Zip(timeSegments.Skip(1), (Current, Next) => new {Current, Next})
    .Where(zip => zip.Current.EndTime > zip.Next.StartTime)
    .AsParallel()
    .ForAll(zip => zip.Current.EndTime = zip.Next.StartTime);

timeSegments represents the current or dequeued items in a queue (the last element is truncated by Zip). timeSegments.Skip(1) represents the next or peek items in a queue. The Zip method combines these two into a single anonymous object with a Next and Current property. Then we filter with Where and make changes with AsParallel().ForAll. Of course the last bit could just be a regular foreach or another Select statement that returns the offending time segments.

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