# Powershell break a long array into a array of array with length of N in one line?

For example, given a list `1,2,3,4,5,6,7,8,1,2,3,4,5,6,7,8` and a number 4, it returns a list of list with length of 4, that is `(1, 2, 3, 4), (5, 6, 7, 8), (1, 2, 3, 4), (5, 6, 7, 8)`.

Basically I want to implement the following Python code in Powershell.

``````s = 1,2,3,4,5,6,7,8,1,2,3,4,5,6,7,8
z = zip(*[iter(s)]*4)  # Here N is 4
# z is (1, 2, 3, 4), (5, 6, 7, 8), (1, 2, 3, 4), (5, 6, 7, 8)
``````

The following script returns 17 instead of 5.

``````\$a = 1,2,3,4,5,6,7,8,1,2,3,4,5,6,7,8,0
\$b = 0..(\$a.Length / 4) | % {  @(\$a[(\$_*4)..(\$_*4 + 4 - 1)]) }
\$b.Length
``````
• Nice solution. How would you handle a number of elements not divisible by N? Which is 4 in this case. \$a = 1..18 Commented Dec 15, 2012 at 19:44
• @DougFinke Creating an variable `\$n = 4`, and replace all the 4s with `\$n` should work. Commented Dec 15, 2012 at 20:02
• Agreed. I guess what I'm asking is. What do you do with the left overs when you have a array of #'s that is not divisible by N? Commented Dec 15, 2012 at 20:33
• @DougFinke I used `0..(\$a.Length / 4)` instead of `1..(\$a.Length /4)`. So basically it added one more group. There will be an empty array if the length is divided by 4. Commented Dec 15, 2012 at 20:44

This is a bit old, but I figured I'd throw in the method I use for splitting an array into chunks. You can use Group-Object with a constructed property:

``````\$bigList = 1..1000

\$counter = [pscustomobject] @{ Value = 0 }
\$groupSize = 100

\$groups = \$bigList | Group-Object -Property { [math]::Floor(\$counter.Value++ / \$groupSize) }
``````

`\$groups` will be a collection of GroupInfo objects; in this case, each group will have exactly 100 elements (accessible as `\$groups[0].Group`, `\$groups[1].Group`, and so on.) I use an object property for the counter to avoid scoping issues inside the -Property script block, since a simple `\$i++` doesn't write back to the original variable. Alternatively, you can use `\$script:counter = 0` and `\$script:counter++` and get the same effect without a custom object.

• I would like to use this but I need to group by an additional property first. How can I have `\$counter` reset each time the `basedomain` property changes? Commented Jan 3, 2017 at 17:45
• I think this is the most elegant answer as it uses the pipeline. Commented Feb 2, 2020 at 15:22
• Thank you @DaveWyatt, I used this sort of logic for an array of strings with a bit of adjusted to this logic you shared: `\$div = [Math]::Round((\$List.Count / 4),0); \$counter = [pscustomobject] @{ Value = 0 }; \$groups = \$List | Group-Object -Property { [math]::Floor(\$counter.Value++ / \$div) }; (\$groups | ? {\$_.Name -eq 0}).Group; (\$groups | ? {\$_.Name -eq 1}).Group; (\$groups | ? {\$_.Name -eq 2}).Group; (\$groups | ? {\$_.Name -eq 3}).Group;` Commented Jul 19, 2022 at 13:48
• This is old, but here from 2022 I was able to divide a group of 43K computer names in 8 seconds. Thank you sir! Commented Jul 19, 2022 at 14:18

Wrote this in 2009 PowerShell Split-Every Function

Probably can be improved.

``````Function Split-Every(\$list, \$count=4) {
\$aggregateList = @()

\$blocks = [Math]::Floor(\$list.Count / \$count)
\$leftOver = \$list.Count % \$count
for(\$i=0; \$i -lt \$blocks; \$i++) {
\$end = \$count * (\$i + 1) - 1

\$aggregateList += @(,\$list[\$start..\$end])
\$start = \$end + 1
}
if(\$leftOver -gt 0) {
\$aggregateList += @(,\$list[\$start..(\$end+\$leftOver)])
}

\$aggregateList
}

\$s = 1,2,3,4,5,6,7,8,1,2,3,4,5,6,7,8

\$r = Split-Every \$s 4

\$r[0]
""
\$r[1]
""
\$r[2]
""
\$r[3]
``````
• If the length of the list is < \$count then \$start and \$end are used in the \$aggregateList code uninitialized (or set to unknown values). Fix is to add \$start=\$end=0 above the for loop. Commented May 2, 2017 at 16:01
• I had an issue with this one, it was ripping apart strings when I had one item in my \$list, so I my fix was to add if (\$list.Count -eq 1) { return @(\$list) } above the \$aggregateList declaration.
– jbg
Commented Jan 3, 2019 at 18:01
``````PS> \$a = 1..16
PS> \$z=for(\$i=0; \$i -lt \$a.length; \$i+=4){ ,(\$a[\$i]..\$a[\$i+3])}
PS> \$z.count
4

PS> \$z[0]
1
2
3
4

PS> \$z[1]
5
6
7
8

PS> \$z[2]
9
10
11
12

PS> \$z[3]
13
14
15
16
``````
• The accepted solution only works for consecutive integers. For instance when \$i is 0, \$a[\$i] is 1 and \$a[\$i+3] is 4. Hence 1 .. 4 will work. But the correct solution is `\$z=for(\$i=0; \$i -lt \$a.length; \$i+=4){ ,(\$a[\$i .. (\$i+3)])}` Commented Jul 9, 2015 at 9:45
• @PeterReavy great answer! Commented Apr 21, 2020 at 21:58

Providing a solution using `select`. It doesn't need to worry whether `\$list.Count` can be divided by `\$chunkSize`.

``````function DivideList {
param(
[object[]]\$list,
[int]\$chunkSize
)

for (\$i = 0; \$i -lt \$list.Count; \$i += \$chunkSize) {
, (\$list | select -Skip \$i -First \$chunkSize)
}
}

DivideList -list @(1..17) -chunkSize 4 | foreach { \$_ -join ',' }
``````

Output:

``````1,2,3,4
5,6,7,8
9,10,11,12
13,14,15,16
17
``````
• The advantage of this solution is that it is applicable on an array of strings as well. Commented Oct 30, 2021 at 2:00

@Shay Levy Answer: if you change the value of a to 1..15 then your solution not working anymore ( Peter Reavy comment )

So this worked for me:

``````\$a = 1..15
\$z=for(\$i=0; \$i -lt \$a.length; \$i+=4){if (\$a.length -gt (\$i+3)) { ,(\$a[\$i]..\$a[\$i+3])} else { ,(\$a[\$i]..\$a[-1])}}
\$z.count
``````
``````\$a = 1,2,3,4,5,6,7,8,1,2,3,4,5,6,7,8,0
\$b = 0..([Math]::ceiling(\$a.Length / 4) - 1) |
% {  @(, \$a[(\$_*4)..(\$_*4 + 4 - 1)]) }
``````

Don't know why I had to put a comma after `(`.

``````Clear-Host

\$s = 1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18

\$count = \$s.Length

\$split = \$count/2

\$split --

\$b = \$s[0..\$split]

\$split ++

\$a = \$s[\$split..\$count]

write-host "first array"

\$b

write-host "next array"

\$a

#clean up
Get-Variable -Exclude PWD,*Preference | Remove-Variable -EA 0
``````
• Could you please add more details to this answer? It's just code only, so a bit of explaination would be great Commented Jul 15, 2014 at 7:51

A simple method using a `List<T>` to collect input objects elements and output without enumerating using `\$PSCmdlet.WriteObject`. This is compatible with Windows PowerShell 5.1.

``````function Split-Collection {
[CmdletBinding()]
param(
[Parameter(Mandatory, ValueFromPipeline)]
[object[]] \$InputObject,

[Parameter(Position = 0)]
[ValidateRange(1, [int]::MaxValue)]
[int] \$ChunkSize = 5
)

begin {
\$list = [System.Collections.Generic.List[object]]::new()
}
process {
foreach(\$item in \$InputObject) {
if(\$list.Count -eq \$ChunkSize) {
\$PSCmdlet.WriteObject(\$list.ToArray())
\$list.Clear()
}
}
}
end {
if(\$list.Count) {
\$PSCmdlet.WriteObject(\$list.ToArray())
}
}
}
``````

Usage:

``````PS ..\pwsh> 0..10 | Split-Collection 3 | ForEach-Object { "[\$_]" }

[0 1 2]
[3 4 5]
[6 7 8]
[9 10]

PS ..\pwsh> Split-Collection -InputObject (0..10) 3 | ForEach-Object { "[\$_]" }

[0 1 2]
[3 4 5]
[6 7 8]
[9 10]
``````

An even simpler way to do it if using PowerShell 7+ is with `Enumerable.Chunk` from LINQ.

``````PS ..\pwsh> [System.Linq.Enumerable]::Chunk([int[]] (0..10), 3) | ForEach-Object { "[\$_]" }

[0 1 2]
[3 4 5]
[6 7 8]
[9 10]
``````

If collection is big enough (e.g. millions of elements), then performance may matter. None of the solutions proposed before satisfied me first of all from performance standpoints. Here is my solution:

``````Function Chunk {
param(
[object[]] \$source,
[int] \$size = 1)
\$chunkCount = [Math]::Ceiling(\$source.Count / \$size)
0 .. (\$chunkCount - 1) `
| ForEach-Object {
\$startIndex = \$_ * \$size
\$endIndex = [Math]::Min((\$_ + 1) * \$size, \$source.Count)
,\$source[\$startIndex .. (\$endIndex - 1)]
}
}
``````

Example of usage:

``````Chunk @(1..17) 4 | foreach { \$_ -join ',' }
``````

Output:

``````1,2,3,4
5,6,7,8
9,10,11,12
13,14,15,16
17
``````

Performance measure:

``````(Measure-Command { Chunk @(1..1000000) 1000 }).TotalMilliseconds
``````

Output: `140.467` (in milliseconds)