Struct cranelift_codegen::MachBuffer
source · pub struct MachBuffer<I: VCodeInst> { /* private fields */ }
Expand description
A buffer of output to be produced, fixed up, and then emitted to a CodeSink in bulk.
This struct uses SmallVec
s to support small-ish function bodies without
any heap allocation. As such, it will be several kilobytes large. This is
likely fine as long as it is stack-allocated for function emission then
thrown away; but beware if many buffer objects are retained persistently.
Implementations§
source§impl<I: VCodeInst> MachBuffer<I>
impl<I: VCodeInst> MachBuffer<I>
sourcepub fn new() -> MachBuffer<I>
pub fn new() -> MachBuffer<I>
Create a new section, known to start at start_offset
and with a size limited to
length_limit
.
sourcepub fn cur_offset(&self) -> CodeOffset
pub fn cur_offset(&self) -> CodeOffset
Current offset from start of buffer.
sourcepub fn get_appended_space(&mut self, len: usize) -> &mut [u8] ⓘ
pub fn get_appended_space(&mut self, len: usize) -> &mut [u8] ⓘ
Reserve appended space and return a mutable slice referring to it.
sourcepub fn align_to(&mut self, align_to: CodeOffset)
pub fn align_to(&mut self, align_to: CodeOffset)
Align up to the given alignment.
sourcepub fn get_label(&mut self) -> MachLabel
pub fn get_label(&mut self) -> MachLabel
Allocate a Label
to refer to some offset. May not be bound to a fixed
offset yet.
sourcepub fn reserve_labels_for_blocks(&mut self, blocks: usize)
pub fn reserve_labels_for_blocks(&mut self, blocks: usize)
Reserve the first N MachLabels for blocks.
sourcepub fn reserve_labels_for_constants(&mut self, constants: &VCodeConstants)
pub fn reserve_labels_for_constants(&mut self, constants: &VCodeConstants)
Reserve the next N MachLabels for constants.
sourcepub fn get_label_for_constant(&self, constant: VCodeConstant) -> MachLabel
pub fn get_label_for_constant(&self, constant: VCodeConstant) -> MachLabel
Retrieve the reserved label for a constant.
sourcepub fn bind_label(&mut self, label: MachLabel)
pub fn bind_label(&mut self, label: MachLabel)
Bind a label to the current offset. A label can only be bound once.
sourcepub fn use_label_at_offset(
&mut self,
offset: CodeOffset,
label: MachLabel,
kind: I::LabelUse
)
pub fn use_label_at_offset( &mut self, offset: CodeOffset, label: MachLabel, kind: I::LabelUse )
Emit a reference to the given label with the given reference type (i.e., branch-instruction format) at the current offset. This is like a relocation, but handled internally.
This can be called before the branch is actually emitted; fixups will not happen until an island is emitted or the buffer is finished.
sourcepub fn add_uncond_branch(
&mut self,
start: CodeOffset,
end: CodeOffset,
target: MachLabel
)
pub fn add_uncond_branch( &mut self, start: CodeOffset, end: CodeOffset, target: MachLabel )
Inform the buffer of an unconditional branch at the given offset,
targetting the given label. May be used to optimize branches.
The last added label-use must correspond to this branch.
This must be called when the current offset is equal to start
; i.e.,
before actually emitting the branch. This implies that for a branch that
uses a label and is eligible for optimizations by the MachBuffer, the
proper sequence is:
- Call
use_label_at_offset()
to emit the fixup record. - Call
add_uncond_branch()
to make note of the branch. - Emit the bytes for the branch’s machine code.
Additional requirement: no labels may be bound between start
and end
(exclusive on both ends).
sourcepub fn add_cond_branch(
&mut self,
start: CodeOffset,
end: CodeOffset,
target: MachLabel,
inverted: &[u8]
)
pub fn add_cond_branch( &mut self, start: CodeOffset, end: CodeOffset, target: MachLabel, inverted: &[u8] )
Inform the buffer of a conditional branch at the given offset, targetting the given label. May be used to optimize branches. The last added label-use must correspond to this branch.
Additional requirement: no labels may be bound between start
and end
(exclusive on both ends).
sourcepub fn defer_constant(
&mut self,
label: MachLabel,
align: CodeOffset,
data: &[u8],
max_distance: CodeOffset
)
pub fn defer_constant( &mut self, label: MachLabel, align: CodeOffset, data: &[u8], max_distance: CodeOffset )
Emit a constant at some point in the future, binding the given label to
its offset. The constant will be placed at most max_distance
from the
current offset.
sourcepub fn island_needed(&self, distance: CodeOffset) -> bool
pub fn island_needed(&self, distance: CodeOffset) -> bool
Is an island needed within the next N bytes?
sourcepub fn emit_island(&mut self, distance: CodeOffset)
pub fn emit_island(&mut self, distance: CodeOffset)
Emit all pending constants and required pending veneers.
Should only be called if island_needed()
returns true, i.e., if we
actually reach a deadline. It’s not necessarily a problem to do so
otherwise but it may result in unnecessary work during emission.
sourcepub fn finish(self) -> MachBufferFinalized<Stencil>
pub fn finish(self) -> MachBufferFinalized<Stencil>
Finish any deferred emissions and/or fixups.
sourcepub fn add_reloc(&mut self, kind: Reloc, name: &ExternalName, addend: Addend)
pub fn add_reloc(&mut self, kind: Reloc, name: &ExternalName, addend: Addend)
Add an external relocation at the current offset.
sourcepub fn add_call_site(&mut self, opcode: Opcode)
pub fn add_call_site(&mut self, opcode: Opcode)
Add a call-site record at the current offset.
sourcepub fn add_unwind(&mut self, unwind: UnwindInst)
pub fn add_unwind(&mut self, unwind: UnwindInst)
Add an unwind record at the current offset.
sourcepub fn start_srcloc(&mut self, loc: RelSourceLoc)
pub fn start_srcloc(&mut self, loc: RelSourceLoc)
Set the SourceLoc
for code from this offset until the offset at the
next call to end_srcloc()
.
sourcepub fn end_srcloc(&mut self)
pub fn end_srcloc(&mut self)
Mark the end of the SourceLoc
segment started at the last
start_srcloc()
call.
sourcepub fn add_stack_map(&mut self, extent: StackMapExtent, stack_map: StackMap)
pub fn add_stack_map(&mut self, extent: StackMapExtent, stack_map: StackMap)
Add stack map metadata for this program point: a set of stack offsets (from SP upward) that contain live references.
The offset_to_fp
value is the offset from the nominal SP (at which the stack_offsets
are based) and the FP value. By subtracting offset_to_fp
from each stack_offsets
element, one can obtain live-reference offsets from FP instead.