^{Vivek Kumar's answer is helpful, but has some confusing aspects.}

Generally, converting a fractional number to an integer invariably involves a form of *rounding*; in the context of *casting* and *implicit* conversion, programming languages typically use a form of **rounding to the ***nearest* integer. **Special considerations** apply to the ambiguous case of **numbers whose fractional part is exactly **`.5`

, for which **more than one strategy** exists - and different programming languages employ different strategies.

In the context of the **.NET Framework**, on which PowerShell is built, the **umbrella term** for these strategies is *midpoint rounding*, and the specific strategy names used below refer to the midpoint (`.5`

) as *half* for brevity (the examples below use PowerShell syntax, but apply to *all* .NET languages).

*Casting* to `[int]`

*invariably* employs **half-***to-even* rounding, where numbers with a fractional part of `.5`

are rounded to the nearest *even* integer (whether positive or negative):

`[int] 2.5`

-> `2`

(!) situational *down*-rounding, because the integer part happens to be *even* and positive
`[int] 3.5`

-> `4`

situational *up*-rounding
- This rounding strategy also applies to
*implicit* conversions to integer types that PowerShell sometimes performs - see last section.
- PowerShell
*syntax pitfall*: a cast has higher precedence than `/`

, so `[int] 5/2`

does *not* work as intended; use `[int] (5/2)`

.

To *control* the midpoint rounding behavior, use the **.NET **`[Math]`

class' `Round()`

method:

Note that `[Math]::Round()`

offers not only to-*integer* rounding, but also to a specific number of *fractional digits*; e.g.,

`[Math]::Round(2.55, 1, [MidpointRounding]::AwayFromZero)`

yields `2.6`

.^{Thanks, Ansgar Wiechers.}

**Other forms of rounding: Those where the specific value of the fractional part (other than **`0`

) is irrelevant:

Use `[Math]::Truncate($number)`

to get *toward-zero* rounding (removal of the fractional part):

`[Math]::Truncate(2.1)`

-> `2`

; ditto for `2.5`

and `2.9`

, for instance
`[Math]::Truncate(-2.1)`

-> `-2`

Use `[Math]::Ceiling($number)`

to get *toward-positive-infinity* rounding (rounding up to the nearest *greater-or-equal* integer):

`[Math]::Ceiling(2.1)`

-> `3`

`[Math]::Ceiling(-2.1)`

-> `-2`

(!)

Use `[int] [Math]::Floor($number)`

to get *toward-negative-infinity* rounding (rounding down to the nearest *smaller-or-equal* integer):

`[Math]::Floor(2.1)`

-> `2`

`[Math]::Floor(-2.1)`

-> `-3`

(!)

### Optional further reading:

An example of PowerShell performing an *implicit* conversion in which this strategy is used:

`1..(2.5)`

yields array `1, 2`

, because the endpoint of the range-operator expression, `2.5`

, was coerced to `[int]`

`2`

, so the expression is effectively the same as `1..2`

Since PowerShell is built on top of the .NET Framework, it is ultimately `[Convert]::ToInt32()`

that is called.

The intent behind the perhaps surprising *round-half-to-even* strategy is "to minimize the expected error when summing over rounded figures", according to Wikipedia.

Wikipedia's page on rounding has a section on rounding functions across programming languages.

In contrast with .NET, *JavaScript*, for instance, employs *half-up* rounding (`Math.round(2.5)`

-> `3`

, `Math.round(-2.5)`

-> `-2`

) - a midpoint-rounding mode that .NET doesn't even offer.

`integer math`

. You're essentially forcing a casting of the result to an integer; which just drops anything after the decimal point. The result will be the same in any PS environment.`[Math]::Truncate`

or the`[Math]::Floor`

function. Powershell, however, uses the`[Math]::Round`

function when casting a decimal to an int.`[Math]::Floor`

as an interchangeable for`[Math]Truncate`

in my previous comment. That would only be true if you work with positive numbers. For negative numbers,`[Math]::Ceiling`

would work the same way`[Math]::Truncate`

does.