Type Alias memory::AllocatedFrames
pub type AllocatedFrames<P = Page4K>where
P: PageSize, = Frames<frame_allocator::::AllocatedFrames::{constant#0}, P>;
Expand description
A type alias for Frames
in the Allocated
state.
Aliased Type§
struct AllocatedFrames<P = Page4K>where
P: PageSize,{ /* private fields */ }
Methods from Deref<Target = FrameRange<P>>§
pub fn start_address(&self) -> PhysicalAddress
pub fn start_address(&self) -> PhysicalAddress
Returns the PhysicalAddress
of the starting Frame
in this FrameRange
.
pub fn size_in_frames(&self) -> usize
pub fn size_in_frames(&self) -> usize
Returns the number of Frame
s covered by this iterator.
Use this instead of Iterator::count()
method. This is instant, because it doesn’t need to iterate over each entry, unlike normal iterators.
pub fn size_in_bytes(&self) -> usize
pub fn size_in_bytes(&self) -> usize
Returns the size of this range in bytes.
pub fn contains_address(&self, addr: PhysicalAddress) -> bool
pub fn contains_address(&self, addr: PhysicalAddress) -> bool
Returns true
if this FrameRange
contains the given PhysicalAddress
.
pub fn offset_of_address(&self, addr: PhysicalAddress) -> Option<usize>
pub fn offset_of_address(&self, addr: PhysicalAddress) -> Option<usize>
Returns the offset of the given PhysicalAddress
within this FrameRange
, i.e., addr - self.start_address()
.
If the given addr
is not covered by this range of Frame
s, this returns None
.
Examples
If the range covers addresses 0x2000
to 0x4000
, then offset_of_address(0x3500)
would return Some(0x1500)
.
pub fn address_at_offset(&self, offset: usize) -> Option<PhysicalAddress>
pub fn address_at_offset(&self, offset: usize) -> Option<PhysicalAddress>
Returns the PhysicalAddress
at the given offset
into this FrameRange
within this FrameRange
, i.e., self.start_address() + offset
.
If the given offset
is not within this range of Frame
s, this returns None
.
Examples
If the range covers addresses 0x2000
through 0x3FFF
, then address_at_offset(0x1500)
would return Some(0x3500)
, and address_at_offset(0x2000)
would return None
.
pub fn to_extended(&self, to_include: Frame<P>) -> FrameRange<P>
pub fn to_extended(&self, to_include: Frame<P>) -> FrameRange<P>
Returns a new separate FrameRange
that is extended to include the given Frame
.
pub fn contains_range(&self, other: &FrameRange<P>) -> bool
pub fn contains_range(&self, other: &FrameRange<P>) -> bool
Returns true
if the other
FrameRange
is fully contained within this FrameRange
.
pub fn overlap(&self, other: &FrameRange<P>) -> Option<FrameRange<P>>
pub fn overlap(&self, other: &FrameRange<P>) -> Option<FrameRange<P>>
Returns an inclusive FrameRange
representing the Frame
s that overlap across this FrameRange
and the given other FrameRange
.
If there is no overlap between the two ranges, None
is returned.
Methods from Deref<Target = RangeInclusive<Frame<P>>>§
sourcepub fn iter(&self) -> RangeInclusiveIterator<Idx>
pub fn iter(&self) -> RangeInclusiveIterator<Idx>
Returns an iterator with the same start
and end
values as the range.
sourcepub fn contains<U>(&self, item: &U) -> boolwhere
Idx: PartialOrd<U>,
U: PartialOrd<Idx> + ?Sized,
pub fn contains<U>(&self, item: &U) -> boolwhere Idx: PartialOrd<U>, U: PartialOrd<Idx> + ?Sized,
Returns true
if item
is contained in the range.