Those calculations assume that the page size is a *power of 2* (which is the case for
all systems that I know of), for example

```
PageSize = 4096 = 2^12 = 1000000000000 (binary)
```

Then (written as binary numbers)

```
PageSize-1 = 00...00111111111111
~(PageSize-1) = 11...11000000000000
```

which means that

```
(VirtualAddr & ~(PageSize-1))
```

is `VirtualAddr`

with the lower 12 bits set to zero or, in other words,
`VirtualAddr`

rounded *down* to the next multiple of `2^12 = PageSize`

.

Now you can (hopefully) see that in

```
len = ((PageSize-1)&len) ? ((len+PageSize) & ~(PageSize-1)):len;
```

the first expression

```
((PageSize-1)&len)
```

is zero exactly if `len`

is a multiple of `PageSize`

. In that case, `len`

is left
unchanged. Otherwise `(len + PageSize)`

is rounded down to the next multiple of
`PageSize`

.

So in any case, `len`

is rounded *up* to the next multiple of `PageSize`

.

previouspage boundry – Mooing Duck Apr 9 '14 at 18:13`if (len<=PageSize)`

then it's`len`

, otherwise it's len rounded up to the next page boundary. That's quite different than what you described. – Mooing Duck Apr 9 '14 at 18:16alsoincorrect (ish), as it adds unneeded padding to those already aligned; use`((VirtualAddr+PageSize-1) & ~(PageSize-1))`

instead. – Mooing Duck Apr 9 '14 at 18:54