pub struct InsertBuilder<'f, IIB: InstInserterBase<'f>> { /* private fields */ }
Expand description
Builder that inserts an instruction at the current position.
An InsertBuilder
is a wrapper for an InstInserterBase
that turns it into an instruction
builder with some additional facilities for creating instructions that reuse existing values as
their results.
Implementations§
Source§impl<'f, IIB: InstInserterBase<'f>> InsertBuilder<'f, IIB>
impl<'f, IIB: InstInserterBase<'f>> InsertBuilder<'f, IIB>
Sourcepub fn new(inserter: IIB) -> Self
pub fn new(inserter: IIB) -> Self
Create a new builder which inserts instructions at pos
.
The dfg
and pos.layout
references should be from the same Function
.
Sourcepub fn with_results<Array>(
self,
reuse: Array,
) -> InsertReuseBuilder<'f, IIB, Array>
pub fn with_results<Array>( self, reuse: Array, ) -> InsertReuseBuilder<'f, IIB, Array>
Reuse result values in reuse
.
Convert this builder into one that will reuse the provided result values instead of allocating new ones. The provided values for reuse must not be attached to anything. Any missing result values will be allocated as normal.
The reuse
argument is expected to be an array of Option<Value>
.
Sourcepub fn with_result(
self,
v: Value,
) -> InsertReuseBuilder<'f, IIB, [Option<Value>; 1]>
pub fn with_result( self, v: Value, ) -> InsertReuseBuilder<'f, IIB, [Option<Value>; 1]>
Reuse a single result value.
Convert this into a builder that will reuse v
as the single result value. The reused
result value v
must not be attached to anything.
This method should only be used when building an instruction with exactly one result. Use
with_results()
for the more general case.
Trait Implementations§
Source§impl<'f, IIB: InstInserterBase<'f>> InstBuilderBase<'f> for InsertBuilder<'f, IIB>
impl<'f, IIB: InstInserterBase<'f>> InstBuilderBase<'f> for InsertBuilder<'f, IIB>
Source§fn data_flow_graph(&self) -> &DataFlowGraph
fn data_flow_graph(&self) -> &DataFlowGraph
Source§fn data_flow_graph_mut(&mut self) -> &mut DataFlowGraph
fn data_flow_graph_mut(&mut self) -> &mut DataFlowGraph
Source§fn build(
self,
data: InstructionData,
ctrl_typevar: Type,
) -> (Inst, &'f mut DataFlowGraph)
fn build( self, data: InstructionData, ctrl_typevar: Type, ) -> (Inst, &'f mut DataFlowGraph)
Auto Trait Implementations§
impl<'f, IIB> Freeze for InsertBuilder<'f, IIB>where
IIB: Freeze,
impl<'f, IIB> RefUnwindSafe for InsertBuilder<'f, IIB>where
IIB: RefUnwindSafe,
impl<'f, IIB> Send for InsertBuilder<'f, IIB>where
IIB: Send,
impl<'f, IIB> Sync for InsertBuilder<'f, IIB>where
IIB: Sync,
impl<'f, IIB> Unpin for InsertBuilder<'f, IIB>where
IIB: Unpin,
impl<'f, IIB> UnwindSafe for InsertBuilder<'f, IIB>where
IIB: UnwindSafe,
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Source§impl<T> BorrowMut<T> for Twhere
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impl<T> BorrowMut<T> for Twhere
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fn borrow_mut(&mut self) -> &mut T
Source§impl<'f, T> InstBuilder<'f> for Twhere
T: InstBuilderBase<'f>,
impl<'f, T> InstBuilder<'f> for Twhere
T: InstBuilderBase<'f>,
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fn iadd_pairwise(self, x: Value, y: Value) -> Value
Source§fn x86_pmaddubsw(self, x: Value, y: Value) -> Value
fn x86_pmaddubsw(self, x: Value, y: Value) -> Value
pmaddubsw
on x86. Read moreSource§fn uextend(self, Int: Type, x: Value) -> Value
fn uextend(self, Int: Type, x: Value) -> Value
x
to a larger integer type by zero-extending. Read moreSource§fn sextend(self, Int: Type, x: Value) -> Value
fn sextend(self, Int: Type, x: Value) -> Value
x
to a larger integer type by sign-extending. Read moreSource§fn fpromote(self, FloatScalar: Type, x: Value) -> Value
fn fpromote(self, FloatScalar: Type, x: Value) -> Value
x
to a larger floating point format. Read moreSource§fn fdemote(self, FloatScalar: Type, x: Value) -> Value
fn fdemote(self, FloatScalar: Type, x: Value) -> Value
x
to a smaller floating point format. Read moreSource§fn fvpromote_low(self, a: Value) -> Value
fn fvpromote_low(self, a: Value) -> Value
Source§fn fcvt_to_uint(self, IntTo: Type, x: Value) -> Value
fn fcvt_to_uint(self, IntTo: Type, x: Value) -> Value
Source§fn fcvt_to_sint(self, IntTo: Type, x: Value) -> Value
fn fcvt_to_sint(self, IntTo: Type, x: Value) -> Value
Source§fn fcvt_to_uint_sat(self, IntTo: Type, x: Value) -> Value
fn fcvt_to_uint_sat(self, IntTo: Type, x: Value) -> Value
Source§fn fcvt_to_sint_sat(self, IntTo: Type, x: Value) -> Value
fn fcvt_to_sint_sat(self, IntTo: Type, x: Value) -> Value
Source§fn x86_cvtt2dq(self, IntTo: Type, x: Value) -> Value
fn x86_cvtt2dq(self, IntTo: Type, x: Value) -> Value
cvttp{s,d}2dq
on x86. This specifically
returns INT_MIN
for NaN or out-of-bounds lanes. Read moreSource§fn fcvt_from_uint(self, FloatTo: Type, x: Value) -> Value
fn fcvt_from_uint(self, FloatTo: Type, x: Value) -> Value
Source§fn fcvt_from_sint(self, FloatTo: Type, x: Value) -> Value
fn fcvt_from_sint(self, FloatTo: Type, x: Value) -> Value
Source§fn isplit(self, x: Value) -> (Value, Value)
fn isplit(self, x: Value) -> (Value, Value)
Source§fn iconcat(self, lo: Value, hi: Value) -> Value
fn iconcat(self, lo: Value, hi: Value) -> Value
Source§fn atomic_rmw<T1: Into<MemFlags>, T2: Into<AtomicRmwOp>>(
self,
AtomicMem: Type,
MemFlags: T1,
AtomicRmwOp: T2,
p: Value,
x: Value,
) -> Value
fn atomic_rmw<T1: Into<MemFlags>, T2: Into<AtomicRmwOp>>( self, AtomicMem: Type, MemFlags: T1, AtomicRmwOp: T2, p: Value, x: Value, ) -> Value
p
, with second operand x
. The old value is
returned. p
has the type of the target word size, and x
may be an integer type of
8, 16, 32 or 64 bits, even on a 32-bit target. The type of the returned value is the
same as the type of x
. This operation is sequentially consistent and creates
happens-before edges that order normal (non-atomic) loads and stores. Read moreSource§fn atomic_cas<T1: Into<MemFlags>>(
self,
MemFlags: T1,
p: Value,
e: Value,
x: Value,
) -> Value
fn atomic_cas<T1: Into<MemFlags>>( self, MemFlags: T1, p: Value, e: Value, x: Value, ) -> Value
p
, with expected value e
,
storing x
if the value at p
equals e
. The old value at p
is returned,
regardless of whether the operation succeeds or fails. p
has the type of the target
word size, and x
and e
must have the same type and the same size, which may be an
integer type of 8, 16, 32 or 64 bits, even on a 32-bit target. The type of the returned
value is the same as the type of x
and e
. This operation is sequentially
consistent and creates happens-before edges that order normal (non-atomic) loads and
stores. Read moreSource§fn atomic_load<T1: Into<MemFlags>>(
self,
AtomicMem: Type,
MemFlags: T1,
p: Value,
) -> Value
fn atomic_load<T1: Into<MemFlags>>( self, AtomicMem: Type, MemFlags: T1, p: Value, ) -> Value
p
. Read more