I would like to write out a hash table to a file with an array as one of the hash table items. My array item is written out, but it contains files=System.Object[]
Note - Once this works, I will want to reverse the process and read the hash table back in again.
clear-host
$resumeFile="c:\users\paul\resume.log"
$files = Get-ChildItem *.txt
$files.GetType()
write-host
$types="txt"
$in="c:\users\paul"
Remove-Item $resumeFile -ErrorAction SilentlyContinue
$resumeParms=#{}
$resumeParms['types']=$types
$resumeParms['in']=($in)
$resumeParms['files']=($files)
$resumeParms.GetEnumerator() | ForEach-Object {"{0}={1}" -f $_.Name,$_.Value} | Set-Content $resumeFile
write-host "Contents of $resumefile"
get-content $resumeFile
Results
IsPublic IsSerial Name BaseType
-------- -------- ---- --------
True True Object[] System.Array
Contents of c:\users\paul\resume.log
files=System.Object[]
types=txt
in=c:\users\paul
The immediate fix is to create your own array representation, by enumerating the elements and separating them with ,, enclosing string values in '...':
# Sample input hashtable. [ordered] preserves the entry order.
$resumeParms = [ordered] #{ foo = 42; bar = 'baz'; arr = (Get-ChildItem *.txt) }
$resumeParms.GetEnumerator() |
ForEach-Object {
"{0}={1}" -f $_.Name, (
$_.Value.ForEach({
(("'{0}'" -f ($_ -replace "'", "''")), $_)[$_.GetType().IsPrimitive]
}) -join ','
)
}
Not that this represents all non-primitive .NET types as strings, by their .ToString() representation, which may or may not be good enough.
The above outputs something like:
foo=42
bar='baz'
arr='C:\Users\jdoe\file1.txt','C:\Users\jdoe\file2.txt','C:\Users\jdoe\file3.txt'
See the bottom section for a variation that creates a *.psd1 file that can later be read back into a hashtable instance with Import-PowerShellDataFile.
Alternatives for saving settings / configuration data in text files:
If you don't mind taking on a dependency on a third-party module:
Consider using the PSIni module, which uses the Windows initialization file (*.ini) file format; see this answer for a usage example.
Adding support for initialization files to PowerShell itself (not present as of 7.0) is being proposed in GitHub issue #9035.
Consider using YAML as the file format; e.g., via the FXPSYaml module.
Adding support for YAML files to PowerShell itself (not present as of 7.0) is being proposed in GitHub issue #3607.
The Configuration module provides commands to write to and read from *.psd1 files, based on persisted PowerShell hashtable literals, as you would declare them in source code.
Alternatively, you could modify the output format in the code at the top to produce such files yourself, which allows you to read them back in via
Import-PowerShellDataFile, as shown in the bottom section.
As of PowerShell 7.0 there's no built-in support for writing such as representation; that is, there is no complementary Export-PowerShellDataFile cmdlet.
However, adding this ability is being proposed in GitHub issue #11300.
If creating a (mostly) plain-text file is not a must:
The solution that provides the most flexibility with respect to the data types it supports is the XML-based CLIXML format that Export-Clixml creates, as Lee Dailey suggests, whose output can later be read with Import-Clixml.
However, this format too has limitations with respect to type fidelity, as explained in this answer.
Saving a JSON representation of the data, as Lee also suggests, via ConvertTo-Json / ConvertFrom-Json, is another option, which makes for human-friendlier output than XML, but is still not as friendly as a plain-text representation; notably, all \ chars. in file paths must be escaped as \\ in JSON.
Writing a *.psd1 file that can be read with Import-PowerShellDataFile
Within the stated constraints regarding data types - in essence, anything that isn't a number or a string becomes a string - it is fairly easy to modify the code at the top to write a PowerShell hashtable-literal representation to a *.psd1 file so that it can be read back in as a [hashtable] instance via Import-PowerShellDataFile:
As noted, if you don't mind installing a module, consider the Configuration module, which has this functionality built int.
# Sample input hashtable.
$resumeParms = [ordered] #{ foo = 42; bar = 'baz'; arr = (Get-ChildItem *.txt) }
# Create a hashtable-literal representation and save it to file settings.psd1
#"
#{
$(
($resumeParms.GetEnumerator() |
ForEach-Object {
" {0}={1}" -f $_.Name, (
$_.Value.ForEach({
(("'{0}'" -f ($_ -replace "'", "''")), $_)[$_.GetType().IsPrimitive]
}) -join ','
)
}
) -join "`n"
)
}
"# > settings.psd1
If you read settings.psd1 with Import-PowerShellDataFile settings.psd1 later, you'll get a [hashtable] instance whose entries you an access as usual and which produces the following display output:
Name Value
---- -----
bar baz
arr {C:\Users\jdoe\file1.txt, C:\Users\jdoe\file1.txt, C:\Users\jdoe\file1.txt}
foo 42
Note how the order of entries (keys) was not preserved, because hashtable entries are inherently unordered.
On writing the *.psd1 file you can preserve the key(-creation) order by declaring the input hashtable (System.Collections.Hashtable) as [ordered], as shown above (which creates a System.Collections.Specialized.OrderedDictionary instance), but the order is, unfortunately, lost on reading the *.psd1 file.
As of PowerShell 7.0, even if you place [ordered] before the opening #{ in the *.psd1 file, Import-PowerShellDataFile quietly ignores it and creates an unordered hashtable nonetheless.
This is a problem I deal with all the time and it drives me mad. I really think that there should be a function specifically for this action... so I wrote one.
function ConvertHashTo-CSV
{
Param (
[Parameter(Mandatory=$true)]
$hashtable,
[Parameter(Mandatory=$true)]
$OutputFileLocation
)
$hastableAverage = $NULL #This will only work for hashtables where each entry is consistent. This checks for consistency.
foreach ($hashtabl in $hashtable)
{
$hastableAverage = $hastableAverage + $hashtabl.count #Counts the amount of headings.
}
$Paritycheck = $hastableAverage / $hashtable.count #Gets the average amount of headings
if ( ($parity = $Paritycheck -is [int]) -eq $False) #if the average is not an int the hashtable is not consistent
{
write-host "Error. Hashtable is inconsistent" -ForegroundColor red
Start-Sleep -Seconds 5
return
}
$HashTableHeadings = $hashtable[0].GetEnumerator().name #Get the hashtable headings
$HashTableCount = ($hashtable[0].GetEnumerator().name).count #Count the headings
$HashTableString = $null # Strange to hold the CSV
foreach ($HashTableHeading in $HashTableHeadings) #Creates the first row containing the column headings
{
$HashTableString += $HashTableHeading
$HashTableString += ", "
}
$HashTableString = $HashTableString -replace ".{2}$" #Removed the last , added by the above loop in error
$HashTableString += "`n"
foreach ($hashtabl in $hashtable) #Adds the data
{
for($i=0;$i -lt $HashTableCount;$i++)
{
$HashTableString += $hashtabl[$i]
if ($i -lt ($HashTableCount - 1))
{
$HashTableString += ", "
}
}
$HashTableString += "`n"
}
$HashTableString | Out-File -FilePath $OutputFileLocation #writes the CSV to a file
}
To use this copy the function into your script, run it, and then
ConvertHashTo-CSV -$hashtable $Hasharray -$OutputFileLocation c:\temp\data.CSV
The code is annotated but a brief explanation of what it does. Steps through the arrays and hashtables and adds them to a string adding the required formatting to make the string a CSV file, then outputs that to a file.
The main limitation of this is that the Hashtabes in the array all have to contain the same amount of fields. To get around this if a hashtable has a field that doesnt contain data ensure it contains at least a space.
More on this can be found here : https://grumpy.tech/powershell-convert-hashtable-to-csv/
There are powershell cmdlets in our project for finding data in a database. If no data is found, the cmdlets write out a $null to the output stream as follows:
Write-Output $null
Or, more accurately since the cmdlets are implemented in C#:
WriteOutput(null)
I have found that this causes some behavior that is very counter to the conventions employed elsewhere, including in the built-in cmdlets.
Are there any guidelines/rules, especially from Microsoft, that talk about this? I need help better explaining why this is a bad idea, or to be convinced that writing $null to the output stream is an okay practice. Here is some detail about the resulting behaviors that I see:
If the results are piped into another cmdlet, that cmdlet executes despite no results being found and the pipeline variable ($_) is $null. This means that I have to add checks for $null.
Find-DbRecord -Id 3 | For-Each { if ($_ -ne $null) { <do something with $_> }}
Similarly, If I want to get the array of records found, ensuring that it is an array, I might do the following:
$recsFound = #(Find-DbRecord -Category XYZ)
foreach ($record in $recsFound)
{
$record.Name = "Something New"
$record.Update()
}
The convention I have seen, this should work without issue. If no records are found, the foreach loop wouldn't execute. Since the Find cmdlet is writing null to the output, the $recsFound variable is set to an array with one item that is $null. Now I would need to check each item in the array for $null which clutters my code.
$null is not void. If you don't want null values in your pipeline, either don't write null values to the pipeline in the first place, or remove them from the pipeline with a filter like this:
... | Where-Object { $_ -ne $null } | ...
Depending on what you want to allow through the filter you could simplify it to this:
... | Where-Object { $_ } | ...
or (using the ? alias for Where-Object) to this:
... | ? { $_ } | ...
which would remove all values that PowerShell interprets as $false ($null, 0, empty string, empty array, etc.).
I am writing a powershell advanced function that will take input from the pipeline. More specifically, I will be piping in from import-csv. The problem is the column headers to the csv file I am using uses syntax invalid to ps. Here is what my code is like
function my-function{
[CmdletBinding()]
params
(
[Parameter(Mandatory=$false,ValueFromPipeline=$true,
ValueFromPipelineByPropertyName=$true)]
[string]$Id = $_.ID,
[(Parameter(Mandatory=$false,ValueFromPipeline=$true,
ValueFromPipelineByPropertyName=$true)]
[string]$IdRaw = $_."ID(RAW)",
)
BEGIN{
#Sets up a db connection
}
PROCESS{
#Builds an insert query with csv members
}
END{
#closes db connection
}
}
ID,ID(RAW),Date Time,Date Time(RAW),Type,Type(RAW)
29874,29874,4/18/2012 23:58,41018.20753, Servername, ServernameRaw
When I execute this with my csv input, the value of $Id becomes 2905, while the $IdRaw variable takes on a string representation of the entire $_ hashtable. Just to elaborate any paramter with a valid name {URL, ID, Status} all work. Any that contain a space or (RAW) receive the entire $_ variable.
-Patrick
#Edit to include updated code
$x=import-csv c:\temp\testinput.csv
function my-function{
[CmdletBinding()]
param
(
[Parameter(Mandatory=$false,ValueFromPipeline=$true, ValueFromPipelineByPropertyName=$true)][string]$Id,
[Parameter(Mandatory=$false,ValueFromPipeline=$true,ValueFromPipelineByPropertyName=$true)]
[alias("ID(RAW)")][string]$IdRaw
)
begin{
#Sets up a db connection
Write-Debug "Starting"
}
process {
#Builds an insert query with csv members
write-debug "IDRaw=$IDRaw"
}
end {
#closes db connection
Write-Debug "Ending"
}
}
$x | my-function
sample file contents
ID,ID(RAW),Date Time,Date Time(RAW),Type,Type(RAW)
29874,29877,4/18/2012 23:58,41018.20753, Servername1, ServernameRaw1
29875,29878,4/19/2012 23:58,41018.20753, Servername2, ServernameRaw2
29876,29879,4/20/2012 23:58,41018.20753, Servername3, ServernameRaw3
What Powershell pitfalls you have fall into? :-)
Mine are:
# -----------------------------------
function foo()
{
#("text")
}
# Expected 1, actually 4.
(foo).length
# -----------------------------------
if(#($null, $null))
{
Write-Host "Expected to be here, and I am here."
}
if(#($null))
{
Write-Host "Expected to be here, BUT NEVER EVER."
}
# -----------------------------------
function foo($a)
{
# I thought this is right.
#if($a -eq $null)
#{
# throw "You can't pass $null as argument."
#}
# But actually it should be:
if($null -eq $a)
{
throw "You can't pass $null as argument."
}
}
foo #($null, $null)
# -----------------------------------
# There is try/catch, but no callstack reported.
function foo()
{
bar
}
function bar()
{
throw "test"
}
# Expected:
# At bar() line:XX
# At foo() line:XX
#
# Actually some like this:
# At bar() line:XX
foo
Would like to know yours to walk them around :-)
My personal favorite is
function foo() {
param ( $param1, $param2 = $(throw "Need a second parameter"))
...
}
foo (1,2)
For those unfamiliar with powershell that line throws because instead of passing 2 parameters it actually creates an array and passes one parameter. You have to call it as follows
foo 1 2
Another fun one. Not handling an expression by default writes it to the pipeline. Really annoying when you don't realize a particular function returns a value.
function example() {
param ( $p1 ) {
if ( $p1 ) {
42
}
"done"
}
PS> example $true
42
"done"
$files = Get-ChildItem . -inc *.extdoesntexist
foreach ($file in $files) {
"$($file.Fullname.substring(2))"
}
Fails with:
You cannot call a method on a null-valued expression.
At line:3 char:25
+ $file.Fullname.substring <<<< (2)
Fix it like so:
$files = #(Get-ChildItem . -inc *.extdoesntexist)
foreach ($file in $files) {
"$($file.Fullname.substring(2))"
}
Bottom line is that the foreach statement will loop on a scalar value even if that scalar value is $null. When Get-ChildItem in the first example returns nothing, $files gets assinged $null. If you are expecting an array of items to be returned by a command but there is a chance it will only return 1 item or zero items, put #() around the command. Then you will always get an array - be it of 0, 1 or N items. Note: If the item is already an array putting #() has no effect - it will still be the very same array (i.e. there is no extra array wrapper).
# The pipeline doesn't enumerate hashtables.
$ht = #{"foo" = 1; "bar" = 2}
$ht | measure
# Workaround: call GetEnumerator
$ht.GetEnumerator() | measure
Here are my top 5 PowerShell gotchas
Here is something Ive stumble upon lately (PowerShell 2.0 CTP):
$items = "item0", "item1", "item2"
$part = ($items | select-string "item0")
$items = ($items | where {$part -notcontains $_})
what do you think that $items be at the end of the script?
I was expecting "item1", "item2" but instead the value of $items is: "item0", "item1", "item2".
Say you've got the following XML file:
<Root>
<Child />
<Child />
</Root>
Run this:
PS > $myDoc = [xml](Get-Content $pathToMyDoc)
PS > #($myDoc.SelectNodes("/Root/Child")).Count
2
PS > #($myDoc.Root.Child).Count
2
Now edit the XML file so it has no Child nodes, just the Root node, and run those statements again:
PS > $myDoc = [xml](Get-Content $pathToMyDoc)
PS > #($myDoc.SelectNodes("/Root/Child")).Count
0
PS > #($myDoc.Root.Child).Count
1
That 1 is annoying when you want to iterate over a collection of nodes using foreach if and only if there actually are any. This is how I learned that you cannot use the XML handler's property (dot) notation as a simple shortcut. I believe what's happening is that SelectNodes returns a collection of 0. When #'ed, it is transformed from an XPathNodeList to an Object[] (check GetType()), but the length is preserved. The dynamically generated $myDoc.Root.Child property (which essentially does not exist) returns $null. When $null is #'ed, it becomes an array of length 1.
On Functions...
The subtleties of processing pipeline input in a function with respect to using $_ or $input and with respect to the begin, process, and end blocks.
How to handle the six principal equivalence classes of input delivered to a function (no input, null, empty string, scalar, list, list with null and/or empty) -- for both direct input and pipeline input -- and get what you expect.
The correct calling syntax for sending multiple arguments to a function.
I discuss these points and more at length in my Simple-Talk.com article Down the Rabbit Hole- A Study in PowerShell Pipelines, Functions, and Parameters and also provide an accompanying wallchart--here is a glimpse showing the various calling syntax pitfalls for a function taking 3 arguments:
On Modules...
These points are expounded upon in my Simple-Talk.com article Further Down the Rabbit Hole: PowerShell Modules and Encapsulation.
Dot-sourcing a file inside a script using a relative path is relative to your current directory -- not the directory where the script resides!
To be relative to the script use this function to locate your script directory: [Update for PowerShell V3+: Just use the builtin $PSScriptRoot variable!]
function Get-ScriptDirectory
{ Split-Path $script:MyInvocation.MyCommand.Path }
Modules must be stored as ...Modules\name\name.psm1 or ...\Modules\any_subpath\name\name.psm1. That is, you cannot just use ...Modules\name.psm1 -- the name of the immediate parent of the module must match the base name of the module. This chart shows the various failure modes when this rule is violated:
2015.06.25 A Pitfall Reference Chart
Simple-Talk.com just published the last of my triumvirate of in-depth articles on PowerShell pitfalls. The first two parts are in the form of a quiz that helps you appreciate a select group of pitfalls; the last part is a wallchart (albeit it would need a rather high-ceilinged room) containing 36 of the most common pitfalls (some adapted from answers on this page), giving concrete examples and workarounds for most. Read more here.
There are some tricks to building command lines for utilities that were not built with Powershell in mind:
To run an executable who's name starts with a number, preface it with an Ampersand (&).
& 7zip.exe
To run an executable with a space anywhere in the path, preface it with an Ampersand (&) and wrap it in quotes, as you would any string. This means that strings in a variable can be executed as well.
# Executing a string with a space.
& 'c:\path with spaces\command with spaces.exe'
# Executing a string with a space, after first saving it in a variable.
$a = 'c:\path with spaces\command with spaces.exe'
& $a
Parameters and arguments are passed to legacy utilities positionally. So it is important to quote them the way the utility expects to see them. In general, one would quote when it contains spaces or does not start with a letter, number or dash (-).
C:\Path\utility.exe '/parameter1' 'Value #1' 1234567890
Variables can be used to pass string values containing spaces or special characters.
$b = 'string with spaces and special characters (-/&)'
utility.exe $b
Alternatively array expansion can be used to pass values as well.
$c = #('Value #1', $Value2)
utility.exe $c
If you want Powershell to wait for an application to complete, you have to consume the output, either by piping the output to something or using Start-Process.
# Saving output as a string to a variable.
$output = ping.exe example.com | Out-String
# Piping the output.
ping stackoverflow.com | where { $_ -match '^reply' }
# Using Start-Process affords the most control.
Start-Process -Wait SomeExecutable.com
Because of the way they display their output, some command line utilities will appear to hang when ran inside of Powershell_ISE.exe, particularly when awaiting input from the user. These utilities will usually work fine when ran within Powershell.exe console.
PowerShell Gotchas
There are a few pitfall that repeatedly reappear on StackOverflow. It is recommend to do some research if you are not familiar with these PowerShell gotchas before asking a new question. It might even be a good idea to investigate in these PowerShell gotchas before answering a PowerShell question to make sure that you teach the questioner the right thing.
TLDR: In PowerShell:
the comparison equality operator is: -eq
(Stackoverflow example: Powershell simple syntax if condition not working)
parentheses and commas are not used with arguments
(Stackoverflow example: How do I pass multiple parameters into a function in PowerShell?)
output properties are based on the first object in the pipeline
(Stackoverflow example: Not all properties displayed)
the pipeline unrolls
(Stackoverflow example: Pipe complete array-objects instead of array items one at a time?)
a. single item collections
(Stackoverflow example: Powershell ArrayList turns a single array item back into a string)
b. embedded arrays
(Stackoverflow example: Return Multidimensional Array From Function)
c. output collections
(Stackoverflow example: Why does PowerShell flatten arrays automatically?)
$Null should be on the left side of the equality comparison operator
(Stackoverflow example: Should $null be on the left side of the equality comparison)
parentheses and assignments choke the pipeline
(Stackoverflow example: Importing 16MB CSV Into Variable Creates >600MB's Memory Usage)
the increase assignment operator (+=) might become expensive
Stackoverflow example: Improve the efficiency of my PowerShell scrip
The Get-Content cmdlet returns separate lines
Stackoverflow example: Multiline regex to match config block
Examples and explanations
Some of the gotchas might really feel counter-intuitive but often can be explained by some very nice PowerShell features along with the pipeline, expression/argument mode and type casting.
1. The comparison equality operator is: -eq
Unlike the Microsoft scripting language VBScript and some other programming languages, the comparison equality operator differs from the assignment operator (=) and is: -eq.
Note: assigning a value to a variable might pass through the value if needed:
$a = $b = 3 # The value 3 is assigned to both variables $a and $b.
This implies that following statement might be unexpectedly truthy or falsy:
If ($a = $b) {
# (assigns $b to $a and) returns a truthy if $b is e.g. 3
} else {
# (assigns $b to $a and) returns a falsy if $b is e.g. 0
}
2. Parentheses and commas are not used with arguments
Unlike a lot of other programming languages and the way a primitive PowerShell function is defined, calling a function doesn't require parentheses or commas for their related arguments. Use spaces to separate the parameter arguments:
MyFunction($Param1, $Param2 $Param3) {
# ...
}
MyFunction 'one' 'two' 'three' # assigns 'one' to $Param1, 'two' to $Param2, 'three' to $Param3
Parentheses and commas are used for calling (.Net) methods.
Commas are used to define arrays. MyFunction 'one', 'two', 'three' (or MyFunction('one', 'two', 'three')) will load the array #('one', 'two', 'three') into the first parameter ($Param1).
Parentheses will intepret the containing contents as a single collection into memory (and choke the PowerShell pipeline) and should only be used as such, e.g. to call an embedded function, e.g.:
MyFunction (MyOtherFunction) # passes the results MyOtherFunction to the first positional parameter of MyFunction ($Param1)
MyFunction One $Two (getThree) # assigns 'One' to $Param1, $Two to $Param2, the results of getThree to $Param3
Note: that quoting text arguments (as the word one in the later example) is only required when it contains spaces or special characters.
3. Output properties are based on the first object in the pipeline
In a PowerShell pipeline each object is processed and passed on by a cmdlet (that is implemented for the middle of a pipeline) similar to how objects are processed and passed on by workstations in an assembly line. Meaning each cmdlet processes one item at the time while the prior cmdlet (workstation) simultaneously processes the upcoming one. This way, the objects aren't loaded into memory at once (less memory usage) and could already be processed before the next one is supplied (or even exists). The disadvantage of this feature is that there is no oversight of what (or how many) objects are expected to follow.
Therefore most PowerShell cmdlets assume that all the objects in the pipeline correspond to the first one and have the same properties which is usually the case, but not always...
$List =
[pscustomobject]#{ one = 'a1'; two = 'a2' },
[pscustomobject]#{ one = 'b1'; two = 'b2'; three = 'b3' }
$List |Select-Object *
one two
--- ---
a1 a2
b1 b2
As you see, the third column three is missing from the results as it didn't exists in the first object and the PowerShell was already outputting the results prior it was aware of the exists of the second object.
On way to workaround this behavior is to explicitly define the properties (of all the following objects) at forehand:
$List |Select-Object one, two, three
one two three
--- --- -----
a1 a2
b1 b2 b3
See also proposal: #13906 Add -UnifyProperties parameter to Select-Object
4. The pipeline unrolls
This feature might come in handy if it complies with the straightforward expectation:
$Array = 'one', 'two', 'three'
$Array.Length
3
a. single item collections
But it might get confusing:
$Selection = $Array |Select-Object -First 2
$Selection.Length
2
$Selection[0]
one
when the collection is down to a single item:
$Selection = $Array |Select-Object -First 1
$Selection.Length
3
$Selection[0]
o
Explanation
When the pipeline outputs a single item which is assigned to a variable, it is not assigned as a collection (with 1 item, like: #('one')) but as a scalar item (the item itself, like: 'one').
Which means that the property .Length (which is in fact an alias for the property .Count for an array) is no longer applied on the array but on the string: 'one'.length which equals 3. And in case of the index $Selection[0] , the first character of the string 'one'[0] (which equals the character o) is returned .
Workaround
To workaround this behavior, you might force the scalar item to an array using the Array subexpression operator #( ):
$Selection = $Array |Select-Object -First 1
#($Selection).Length
1
#($Selection)[0]
one
Knowing that in the case the $Selection is already an array, it will will not be further increased in depth (#(#('one', 'two')), see the next section 4b. Embedded collections are flattened).
b. embedded arrays
When an array (or a collection) includes embedded arrays, like:
$Array = #(#('a', 'b'), #('c', 'd'))
$Array.Count
2
All the embedded items will be processed in the pipeline and consequently returns a flat array when displayed or assigned to a new variable:
$Processed = $Array |ForEach-Object { $_ }
$Processed.Count
4
$Processed
a
b
c
d
To iterate the embedded arrays, you might use the foreach statement:
foreach ($Item in $Array) { $Item.Count }
2
2
Or a simply for loop:
for ($i = 0; $i -lt $Array.Count; $i++) { $Array[$i].Count }
2
2
c. output collections
Collections are usually unrolled when they are placed on the pipeline:
function GetList {
[Collections.Generic.List[String]]#('a', 'b')
}
(GetList).GetType().Name
Object[]
To output the collection as a single item, use the comma operator ,:
function GetList {
,[Collections.Generic.List[String]]#('a', 'b')
}
(GetList).GetType().Name
List`1
5. $Null should be on the left side of the equality comparison operator
This gotcha is related to this comparison operators feature:
When the input of an operator is a scalar value, the operator returns a Boolean value. When the input is a collection, the operator returns the elements of the collection that match the right-hand value of the expression. If there are no matches in the collection, comparison operators return an empty array.
This means for scalars:
'a' -eq 'a' # returns $True
'a' -eq 'b' # returns $False
'a' -eq $Null # returns $False
$Null -eq $Null # returns $True
and for collections, the matching elements are returned which evaluates to either a truthy or falsy condition:
'a', 'b', 'c' -eq 'a' # returns 'a' (truthy)
'a', 'b', 'c' -eq 'd' # returns an empty array (falsy)
'a', 'b', 'c' -eq $Null # returns an empty array (falsy)
'a', $Null, 'c' -eq $Null # returns $Null (falsy)
'a', $Null, $Null -eq $Null # returns #($Null, $Null) (truthy!!!)
$Null, $Null, $Null -eq $Null # returns #($Null, $Null, $Null) (truthy!!!)
In other words, to check whether a variable is $Null (and exclude a collection containing multiple $Nulls), put $Null at the LHS (left hand side) of the equality comparison operator:
if ($Null -eq $MyVariable) { ...
6. Parentheses and assignments choke the pipeline
The PowerShell Pipeline is not just a series of commands connected by pipeline operators (|) (ASCII 124). It is a concept to simultaneously stream individual objects through a sequence of cmdlets. If a cmdlet (or function) is written according to the Strongly Encouraged Development Guidelines and implemented for the middle of a pipeline, it takes each single object from the pipeline, processes it and passes the results to the next cmdlet just before it takes and processes the next object in the pipeline. Meaning that for a simple pipeline as:
Import-Csv .\Input.csv |Select-Object -Property Column1, Column2 |Export-Csv .\Output.csv
As the last cmdlet writes an object to the .\Output.csv file, the Select-Object cmdlet selects the properties of the next object and the Import-Csv reads the next object from the .\input.csv file (see also: Pipeline in Powershell). This will keep the memory usage low (especially where there are lots of object/records to process) and therefore might result in a faster throughput. To facilitate the pipeline, the PowerShell objects are quiet fat as each individual object contains all the property information (along with e.g. the property name).
Therefore it is not a good practice to choke the pipeline for no reason. There are two senarios that choke the pipeline:
Parentheses, e.g.:
(Import-Csv .\Input.csv) |Select-Object -Property Column1, Column2 |Export-Csv .\Output.csv
Where all the .\Input.csv records are loaded as an array of PowerShell objects into memory before passing it on to the Select-Object cmdlet.
Assignments, e.g.:
$Objects = Import-Csv .\Input.csv
$Objects |Select-Object -Property Column1, Column2 |Export-Csv .\Output.csv
Where all the .\Input.csv records are loaded as an array of PowerShell objects into $Objects (memory as well) before passing it on to the Select-Object cmdlet.
7. the increase assignment operator (+=) might become expensive
The increase assignment operator (+=) is syntactic sugar to increase and assign primitives as .e.g. $a += $b where $a is assigned $b + 1. The increase assignment operator can also be used for adding new items to a collection (or to String types and hash tables) but might get pretty expensive as the costs increases with each iteration (the size of the collection). The reason for this is that objects as array collections are immutable and the right variable in not just appended but *appended and reassigned to the left variable. For details see also: avoid using the increase assignment operator (+=) to create a collection
8. The Get-Content cmdlet returns separate lines
There are probably quite some more cmdlet gotchas, knowing that there exist a lot of (internal and external) cmdlets. In contrast to engine related gotchas, these gotchas are often easier to highlight (with e.g. a warning) as happend with ConvertTo-Json (see: Unexpected ConvertTo-Json results? Answer: it has a default -Depth of 2) or "fix". But there is very clasic gotcha in Get-Content which tight into the PowerShell general concept of streaming objects (in this case lines) rather than passing everything (the whole contents of the file) in once:
Get-Content .\Input.txt -Match '\r?\n.*Test.*\r?\n'
Will never work because, by default, Get-Contents returns a stream of objects where each object contains a single string (a line without any line breaks).
(Get-Content .\Input.txt).GetType().Name
Object[]
(Get-Content .\Input.txt)[0].GetType().Name
String
In fact:
Get-Content .\Input.txt -Match 'Test'
Returns all the lines with the word Test in it as Get-Contents puts every single line on the pipeline and when the input is a collection, the operator returns the elements of the collection that match the right-hand value of the expression.
Note: since PowerShell version 3, Get-Contents has a -Raw parameter that reads all the content of the concerned file at once, Meaning that this: Get-Content -Raw .\Input.txt -Match '\r?\n.*Test.*\r?\n' will work as it loads the whole file into memory.
alex2k8, I think this example of yours is good to talk about:
# -----------------------------------
function foo($a){
# I thought this is right.
#if($a -eq $null)
#{
# throw "You can't pass $null as argument."
#}
# But actually it should be:
if($null -eq $a)
{
throw "You can't pass $null as argument."
}
}
foo #($null, $null)
PowerShell can use some of the comparators against arrays like this:
$array -eq $value
## Returns all values in $array that equal $value
With that in mind, the original example returns two items (the two $null values in the array), which evalutates to $true because you end up with a collection of more than one item. Reversing the order of the arguments stops the array comparison.
This functionality is very handy in certain situations, but it is something you need to be aware of (just like array handling in PowerShell).
Functions 'foo' and 'bar' looks equivalent.
function foo() { $null }
function bar() { }
E.g.
(foo) -eq $null
# True
(bar) -eq $null
# True
But:
foo | %{ "foo" }
# Prints: foo
bar | %{ "bar" }
# PRINTS NOTHING
Returning $null and returning nothing is not equivalent dealing with pipes.
This one is inspired by Keith Hill example...
function bar() {}
$list = #(foo)
$list.length
# Prints: 0
# Now let's try the same but with a temporal variable.
$tmp = foo
$list = #($tmp)
$list.length
# Prints: 1
Another one:
$x = 2
$y = 3
$a,$b = $x,$y*5
because of operators precedence there is not 25 in $b; the command is the same as ($x,$y)*5
the correct version is
$a,$b = $x,($y*5)
The logical and bitwise operators don't follow standard precedence rules. The operator -and should have a higher priority than -or yet they're evaluated strictly left-to-right.
For example, compare logical operators between PowerShell and Python (or virtually any other modern language):
# PowerShell
PS> $true -or $false -and $false
False
# Python
>>> True or False and False
True
...and bitwise operators:
# PowerShell
PS> 1 -bor 0 -band 0
0
# Python
>>> 1 | 0 & 0
1
This works. But almost certainly not in the way you think it's working.
PS> $a = 42;
PS> [scriptblock]$b = { $a }
PS> & $b
42
This one has tripped me up before, using $o.SomeProperty where it should be $($o.SomeProperty).
# $x is not defined
[70]: $x -lt 0
True
[71]: [int]$x -eq 0
True
So, what's $x..?
Another one I ran into recently: [string] parameters that accept pipeline input are not strongly typed in practice. You can pipe anything at all and PS will coerce it via ToString().
function Foo
{
[CmdletBinding()]
param (
[parameter(Mandatory=$True, ValueFromPipeline=$True)]
[string] $param
)
process { $param }
}
get-process svchost | Foo
Unfortunately there is no way to turn this off. Best workaround I could think of:
function Bar
{
[CmdletBinding()]
param (
[parameter(Mandatory=$True, ValueFromPipeline=$True)]
[object] $param
)
process
{
if ($param -isnot [string]) {
throw "Pass a string you fool!"
}
# rest of function goes here
}
}
edit - a better workaround I've started using...
Add this to your custom type XML -
<?xml version="1.0" encoding="utf-8" ?>
<Types>
<Type>
<Name>System.String</Name>
<Members>
<ScriptProperty>
<Name>StringValue</Name>
<GetScriptBlock>
$this
</GetScriptBlock>
</ScriptProperty>
</Members>
</Type>
</Types>
Then write functions like this:
function Bar
{
[CmdletBinding()]
param (
[parameter(Mandatory=$True, ValueFromPipelineByPropertyName=$True)]
[Alias("StringValue")]
[string] $param
)
process
{
# rest of function goes here
}
}
Forgetting that $_ gets overwritten in blocks made me scratch my head in confusion a couple times, and similarly for multiple reg-ex matches and the $matches array. >.<
Remembering to explicitly type pscustom objects from imported data tables as numeric so they can be sorted correctly:
$CVAP_WA=foreach ($i in $C){[PSCustomObject]#{ `
County=$i.county; `
TotalVote=[INT]$i.TotalBallots; `
RegVoters=[INT]$i.regvoters; `
Turnout_PCT=($i.TotalBallots/$i.regvoters)*100; `
CVAP=[INT]($B | ? {$_.GeoName -match $i.county}).CVAP_EST }}
PS C:\Politics> $CVAP_WA | sort -desc TotalVote |ft -auto -wrap
County TotalVote RegVoters Turnout_PCT CVAP CVAP_TV_PCT CVAP_RV_PCT
------ --------- --------- ----------- ---- ----------- -----------
King 973088 1170638 83.189 1299290 74.893 90.099
Pierce 349377 442985 78.86 554975 62.959 79.837
Snohomish 334354 415504 80.461 478440 69.832 86.81
Spokane 227007 282442 80.346 342060 66.398 82.555
Clark 193102 243155 79.453 284190 67.911 85.52
Mine are both related to file copying...
Square Brackets in File Names
I once had to move a very large/complicated folder structure using Move-Item -Path C:\Source -Destination C:\Dest. At the end of the process there were still a number of files in source directory. I noticed that every remaining file had square brackets in the name.
The problem was that the -Path parameter treats square brackets as wildcards.
EG. If you wanted to copy Log001 to Log200, you could use square brackets as follows:
Move-Item -Path C:\Source\Log[001-200].log.
In my case, to avoid square brackets being interpreted as wildcards, I should have used the -LiteralPath parameter.
ErrorActionPreference
The $ErrorActionPreference variable is ignored when using Move-Item and Copy-Item with the -Verbose parameter.
Treating the ExitCode of a Process as a Boolean.
eg, with this code:
$p = Start-Process foo.exe -NoNewWindow -Wait -PassThru
if ($p.ExitCode) {
# handle error
}
things are good, unless say foo.exe doesn't exist or otherwise fails to launch.
in that case $p will be $null, and [bool]($null.ExitCode) is False.
a simple fix is to replace the logic with if ($p.ExitCode -ne 0) {},
however for clarity of code imo the following is better: if (($p -eq $null) -or ($p.ExitCode -ne 0)) {}