I recently answered a SO-question about using -lt or -gt with strings. My answer was based on something I've read earlier which said that -lt compares one char from each string at a time until a ASCII-value is not equal to the other. At that point the result (lower/equal/greater) decides. By that logic, "Less" -lt "less" should return True because L has a lower ASCII-byte-value than l, but it doesn't:



"Less" -lt "less"

It seems that I may have been missing a crucial piece: the test is case-insensitive

#L has a lower ASCII-value than l. PS doesn't care. They're equal
"Less" -le "less"

#The last s has a lower ASCII-value than t. PS cares.
"Less" -lt "lest"

#T has a lower ASCII-value than t. PS doesn't care
"LesT" -lt "lest"

#Again PS doesn't care. They're equal
"LesT" -le "lest"

I then tried to test char vs single-character-string:



#Using string it's case-insensitive. L = l
"L" -lt "l"

"L" -le "l"

"L" -gt "l"

#Using chars it's case-sensitive! L < l
([char]"L") -lt ([char]"l")

([char]"L") -gt ([char]"l")

For comparison, I tried to use the case-sensitive less-than operator, but it says L > l which is the opposite of what -lt returned for chars.

"L" -clt "l"

"l" -clt "L"

How does the comparison work, because it clearly isn't by using ASCII-value and why does it behave differently for chars vs. strings?

  • 1
    BTW, comparison operators are not only case-insensitive by default (which is clearly documented in about_Comparison_Operators help topic), but also do proper comparison of composite characters in different forms: 'ё' -eq 'Ё'. Mar 19, 2016 at 1:00
  • Good point. The fact that operators are case-insensitive by default was what led me to test that first, but considering that -lt doesn't have a case-sensitive operator like clike, cmatch etc. it wasn't 100% obvious it should be case-insensitive. Actually -clt, -ilt etc. exists (undocumented) but they return the same as -lt as far as I can tell. Guessing they're just aliases.
    – Frode F.
    Mar 19, 2016 at 1:31
  • By default, all comparison operators are case-insensitive. To make a comparison operator case-sensitive, precede the operator name with a "c". For example, the case-sensitive version of "-eq" is "-ceq". To make the case-insensitivity explicit, precede the operator with an "i". For example, the explicitly case-insensitive version of "-eq" is "-ieq". That is from the link from my previous comment. So, -clt and -ilt are documented. And them also return different results: 'A'-cle'a' and 'A'-ile'a'. Mar 19, 2016 at 1:45
  • Getting late here I see so I missed that. :-) "L" -clt "l" still doesn't work though.
    – Frode F.
    Mar 19, 2016 at 1:53
  • 3
    System.Char is just special numeric type. So, it compared as numeric not as string. For example: 'AaBb'.GetEnumerator()|sort -CaseSensitive return A, B, a, b; while 'A','a','B','b'|sort -CaseSensitive return a, A, b, B. And string comparison is not work in char by char basis: &{$a='A','a','B','b';foreach($b in $a){foreach($c in $a){$b+$c}}}|sort -CaseSensitive — this place AA before ab, although a placed before A when go alone. Mar 19, 2016 at 8:05

2 Answers 2


A big thank-you to PetSerAl for all his invaluable input.

tl; dr:

  • -lt and -gt compare [char] instances numerically by Unicode codepoint.

    • Confusingly, so do -ilt, -clt, -igt, -cgt - even though they only make sense with string operands, but that's a quirk in the PowerShell language itself (see bottom).
  • -eq (and its alias -ieq), by contrast, compare [char] instances case-insensitively, which is typically, but not necessarily like a case-insensitive string comparison (-ceq again compares strictly numerically).

    • -eq/-ieq ultimately also compares numerically, but first converts the operands to their uppercase equivalents using the invariant culture; as a result, this comparison is not fully equivalent to PowerShell's string comparison, which additionally recognizes so-called compatible sequences (distinct characters or even sequences considered to have the same meaning; see Unicode equivalence) as equal.
    • In other words: PowerShell special-cases the behavior of only -eq / -ieq with [char] operands, and does so in a manner that is almost, but not quite the same as case-insensitive string comparison.
  • This distinction leads to counter-intuitive behavior such as [char] 'A' -eq [char] 'a' and [char] 'A' -lt [char] 'a' both returning $true.

  • To be safe:

    • always cast to [int] if you want numeric (Unicode codepoint) comparison.
    • always cast to [string] if you want string comparison.

For background information, read on.

PowerShell's usually helpful operator overloading can be tricky at times.

Note that in a numeric context (whether implicit or explicit), PowerShell treats characters ([char] ([System.Char]) instances) numerically, by their Unicode codepoint (not ASCII).

[char] 'A' -eq 65  # $true, in the 'Basic Latin' Unicode range, which coincides with ASCII
[char] 'Ā' -eq 256 # $true; 0x100, in the 'Latin-1 Supplement' Unicode range

What makes [char] unusual is that its instances are compared to each other numerically as-is, by Unicode codepoint, EXCEPT with -eq/-ieq.

  • ceq, -lt, and -gt compare directly by Unicode codepoints, and - counter-intuitively - so do -ilt, -clt, -igt and -cgt:
[char] 'A' -lt [char] 'a'  # $true; Unicode codepoint 65 ('A') is less than 97 ('a')
  • -eq (and its alias -ieq) first transforms the characters to uppercase, then compares the resulting Unicode codepoints:
[char] 'A' -eq [char] 'a' # !! ALSO $true; equivalent of 65 -eq 65

It's worth reflecting on this Buddhist turn: this and that: in the world of PowerShell, character 'A' is both less than and equal to 'a', depending on how you compare.

Also, directly or indirectly - after transformation to uppercase - comparing Unicode codepoints is NOT the same as comparing them as strings, because PowerShell's string comparison additionally recognizes so-called compatible sequences, where characters (or even character sequences) are considered "the same" if they have the same meaning (see Unicode equivalence); e.g.:

# Distinct Unicode characters U+2126 (Ohm Sign) and U+03A9 Greek Capital Letter Omega)
# ARE recognized as the "same thing" in a *string* comparison:
"Ω" -ceq "Ω"  # $true, despite having distinct Unicode codepoints

# -eq/ieq: with [char], by only applying transformation to uppercase, the results
# are still different codepoints, which - compared numerically - are NOT equal:
[char] 'Ω' -eq [char] 'Ω' # $false: uppercased codepoints differ

# -ceq always applies direct codepoint comparison.
[char] 'Ω' -ceq [char] 'Ω' # $false: codepoints differ

Note that use of prefixes i or c to explicitly specify case-matching behavior is NOT sufficient to force string comparison, even though conceptually operators such as -ceq, -ieq, -clt, -ilt, -cgt, -igt only make sense with strings.

Effectively, the i and c prefixes are simply ignored when applied to -lt and -gt while comparing [char] operands; as it turns out (unlike what I originally thought), this is a general PowerShell pitfall - see below for an explanation.

As an aside: -lt and -gt logic in string comparison is not numeric, but based on collation order (a human-centric way of ordering independent of codepoints / byte values), which in .NET terms is controlled by cultures (either by default by the one currently in effect, or by passing a culture parameter to methods).
As @PetSerAl demonstrates in a comment (and unlike what I originally claimed), PS string comparisons use the invariant culture, not the current culture, so their behavior is the same, irrespective of what culture is the current one.

Behind the scenes:

As @PetserAl explains in the comments, PowerShell's parsing doesn't distinguish between the base form of an operator its i-prefixed form; e.g., both -lt and -ilt are translated to the same value, Ilt.
Thus, Powershell cannot implement differing behavior for -lt vs. -ilt, -gt vs. igt, ..., because it treats them the same at the syntax level.

This leads to somewhat counter-intuitive behavior in that operator prefixes are effectively ignored when comparing data types where case-sensitivity has no meaning - as opposed to getting coerced to strings, as one might expect; e.g.:

"10" -cgt "2"  # $false, because "2" comes after "1" in the collation order

10 -cgt 2  # !! $true; *numeric* comparison still happens; the `c` is ignored.

In the latter case I would have expected the use of -cgt to coerce the operands to strings, given that case-sensitive comparison is only a meaningful concept in string comparison, but that is NOT how it works.

If you want to dig deeper into how PowerShell operates, see @PetSerAl's comments below.

  • 1
    Is there any benefit to references the .NET sources regarding char and string here to correlate how PowerShell is returning resutls? referencesource.microsoft.com/#mscorlib/system/… and referencesource.microsoft.com/#mscorlib/system/…
    – Kory Gill
    Mar 19, 2016 at 19:06
  • 1
    @FrodeF.: [System.Globalization.CultureInfo]::CurrentCulture.CompareInfo and msdn.microsoft.com/en-us/library/… may get you started.
    – mklement0
    Mar 19, 2016 at 20:12
  • 1
    @FrodeF. If you think about decompiling some PowerShell code, then good point to start would be System.Management.Automation.Language.PSBinaryOperationBinder.CompareXX methods. This methods ends up calling BinaryComparisonCommon for numeric comparison, BinaryEqualityComparison for non-numeric equality comparison and BinaryComparision for non-numeric relative comparison. BinaryEqualityComparison have special case for comparing chars in case-insensitive manner. There is no special case for char in BinaryComparision, it just ends up calling IComparable.CompareTo. Mar 19, 2016 at 22:00
  • 2
    @mklement0 As of PS v5, both BinaryEqualityComparison and BinaryComparision specifically use InvariantCulture, when comparing strings, not CurrentCulture or CurrentUICulture: [cultureinfo]::CurrentCulture='tr'; [string]::Equals('i','I','CurrentCultureIgnoreCase'); 'i'-ieq'I'. Also System.Management.Automation.Language.TokenKind enum does not have special values for non-prefixed comparison operators: {$a-eq$b}.Ast.EndBlock.Statements[0].PipelineElements[0].Expression.Operator — return Ieq, so it would be kind of problematic to provide different behavior -ilt vs -lt. Mar 19, 2016 at 22:16
  • 2
    @FrodeF. I start from System.Management.Automation.Language.Compiler.VisitBinaryExpression. From here I got to PSBinaryOperationBinder class. Then I inspect base class BinaryOperationBinder.Bind method. It call DynamicMetaObject.BindBinaryOperation method. Which, if not overridden, call back to BinaryOperationBinder.FallbackBinaryOperation method. So, I inspect PSBinaryOperationBinder.FallbackBinaryOperation. And here we already have all the CompareXX methods. Mar 20, 2016 at 11:36

Not quite sure what to post here other than the comparisons are all correct when dealing with strings/characters. If you want an Ordinal comparison, do an Ordinal comparison and you get results based on that.

Best Practices for Using Strings in the .NET Framework

returns 1


[string]::Compare("L","l", [stringcomparison]::Ordinal)
returns -32

Not sure what to add here to help clarify.

Also see: Upper vs Lower Case

  • Thanks for the answer. See updated question as I cleaned it up a bit. I don't want to specify the comparison method, I just want to understand how -lt/-gt works by default, because "L" -lt "l" (False because equal) does not return the same as ([char]"L") -lt ([char]"l") (True). If operators by default are case-insensitive, shouldn't both return False because they are equal?
    – Frode F.
    Mar 19, 2016 at 7:47

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