pub enum Inst {
Show 73 variants Nop { len: u8, }, AluRmiR { size: OperandSize, op: AluRmiROpcode, src1: Gpr, src2: GprMemImm, dst: WritableGpr, }, AluRM { size: OperandSize, op: AluRmiROpcode, src1_dst: SyntheticAmode, src2: Gpr, }, AluRmRVex { size: OperandSize, op: AluRmROpcode, src1: Gpr, src2: Gpr, dst: WritableGpr, }, UnaryRmR { size: OperandSize, op: UnaryRmROpcode, src: GprMem, dst: WritableGpr, }, Not { size: OperandSize, src: Gpr, dst: WritableGpr, }, Neg { size: OperandSize, src: Gpr, dst: WritableGpr, }, Div { size: OperandSize, signed: bool, divisor: GprMem, dividend_lo: Gpr, dividend_hi: Gpr, dst_quotient: WritableGpr, dst_remainder: WritableGpr, }, MulHi { size: OperandSize, signed: bool, src1: Gpr, src2: GprMem, dst_lo: WritableGpr, dst_hi: WritableGpr, }, CheckedDivOrRemSeq { kind: DivOrRemKind, size: OperandSize, dividend_lo: Gpr, dividend_hi: Gpr, divisor: Gpr, dst_quotient: WritableGpr, dst_remainder: WritableGpr, tmp: OptionWritableGpr, }, SignExtendData { size: OperandSize, src: Gpr, dst: WritableGpr, }, Imm { dst_size: OperandSize, simm64: u64, dst: WritableGpr, }, MovRR { size: OperandSize, src: Gpr, dst: WritableGpr, }, MovFromPReg { src: PReg, dst: WritableGpr, }, MovToPReg { src: Gpr, dst: PReg, }, MovzxRmR { ext_mode: ExtMode, src: GprMem, dst: WritableGpr, }, Mov64MR { src: SyntheticAmode, dst: WritableGpr, }, LoadEffectiveAddress { addr: SyntheticAmode, dst: WritableGpr, }, MovsxRmR { ext_mode: ExtMode, src: GprMem, dst: WritableGpr, }, MovImmM { size: OperandSize, simm64: u64, dst: SyntheticAmode, }, MovRM { size: OperandSize, src: Gpr, dst: SyntheticAmode, }, ShiftR { size: OperandSize, kind: ShiftKind, src: Gpr, num_bits: Imm8Gpr, dst: WritableGpr, }, XmmRmiReg { opcode: SseOpcode, src1: Xmm, src2: XmmMemImm, dst: WritableXmm, }, CmpRmiR { size: OperandSize, opcode: CmpOpcode, src: GprMemImm, dst: Gpr, }, Setcc { cc: CC, dst: WritableGpr, }, Bswap { size: OperandSize, src: Gpr, dst: WritableGpr, }, Cmove { size: OperandSize, cc: CC, consequent: GprMem, alternative: Gpr, dst: WritableGpr, }, XmmCmove { ty: Type, cc: CC, consequent: XmmMem, alternative: Xmm, dst: WritableXmm, }, Push64 { src: GprMemImm, }, Pop64 { dst: WritableGpr, }, StackProbeLoop { tmp: Writable<Reg>, frame_size: u32, guard_size: u32, }, XmmRmR { op: SseOpcode, src1: Xmm, src2: XmmMem, dst: WritableXmm, }, XmmRmRBlend { op: SseOpcode, src1: Xmm, src2: XmmMem, mask: Xmm, dst: WritableXmm, }, XmmRmRVex { op: AvxOpcode, src1: Xmm, src2: Xmm, src3: XmmMem, dst: WritableXmm, }, XmmRmREvex { op: Avx512Opcode, src1: XmmMem, src2: Xmm, dst: WritableXmm, }, XmmRmREvex3 { op: Avx512Opcode, src1: XmmMem, src2: Xmm, src3: Xmm, dst: WritableXmm, }, XmmUnaryRmR { op: SseOpcode, src: XmmMem, dst: WritableXmm, }, XmmUnaryRmRImm { op: SseOpcode, src: XmmMem, imm: u8, dst: WritableXmm, }, XmmUnaryRmREvex { op: Avx512Opcode, src: XmmMem, dst: WritableXmm, }, XmmMovRM { op: SseOpcode, src: Reg, dst: SyntheticAmode, }, XmmToGpr { op: SseOpcode, src: Xmm, dst: WritableGpr, dst_size: OperandSize, }, GprToXmm { op: SseOpcode, src: GprMem, dst: WritableXmm, src_size: OperandSize, }, CvtUint64ToFloatSeq { dst_size: OperandSize, src: Gpr, dst: WritableXmm, tmp_gpr1: WritableGpr, tmp_gpr2: WritableGpr, }, CvtFloatToSintSeq { dst_size: OperandSize, src_size: OperandSize, is_saturating: bool, src: Xmm, dst: WritableGpr, tmp_gpr: WritableGpr, tmp_xmm: WritableXmm, }, CvtFloatToUintSeq { dst_size: OperandSize, src_size: OperandSize, is_saturating: bool, src: Xmm, dst: WritableGpr, tmp_gpr: WritableGpr, tmp_xmm: WritableXmm, tmp_xmm2: WritableXmm, }, XmmMinMaxSeq { size: OperandSize, is_min: bool, lhs: Xmm, rhs: Xmm, dst: WritableXmm, }, XmmCmpRmR { op: SseOpcode, src: XmmMem, dst: Xmm, }, XmmRmRImm { op: SseOpcode, src1: Reg, src2: RegMem, dst: Writable<Reg>, imm: u8, size: OperandSize, }, CallKnown { dest: ExternalName, info: Box<CallInfo>, }, CallUnknown { dest: RegMem, info: Box<CallInfo>, }, Args { args: Vec<ArgPair>, }, Ret { rets: Vec<RetPair>, }, JmpKnown { dst: MachLabel, }, JmpIf { cc: CC, taken: MachLabel, }, JmpCond { cc: CC, taken: MachLabel, not_taken: MachLabel, }, JmpTableSeq { idx: Reg, tmp1: Writable<Reg>, tmp2: Writable<Reg>, default_target: MachLabel, targets: Box<SmallVec<[MachLabel; 4]>>, }, JmpUnknown { target: RegMem, }, TrapIf { cc: CC, trap_code: TrapCode, }, TrapIfAnd { cc1: CC, cc2: CC, trap_code: TrapCode, }, TrapIfOr { cc1: CC, cc2: CC, trap_code: TrapCode, }, Hlt, Ud2 { trap_code: TrapCode, }, LoadExtName { dst: Writable<Reg>, name: Box<ExternalName>, offset: i64, }, LockCmpxchg { ty: Type, replacement: Reg, expected: Reg, mem: SyntheticAmode, dst_old: Writable<Reg>, }, AtomicRmwSeq { ty: Type, op: MachAtomicRmwOp, mem: SyntheticAmode, operand: Reg, temp: Writable<Reg>, dst_old: Writable<Reg>, }, Fence { kind: FenceKind, }, VirtualSPOffsetAdj { offset: i64, }, XmmUninitializedValue { dst: WritableXmm, }, ElfTlsGetAddr { symbol: ExternalName, dst: WritableGpr, }, MachOTlsGetAddr { symbol: ExternalName, dst: WritableGpr, }, CoffTlsGetAddr { symbol: ExternalName, dst: WritableGpr, tmp: WritableGpr, }, Unwind { inst: UnwindInst, }, DummyUse { reg: Reg, },
}
Expand description

Internal type MInst: defined at src/isa/x64/inst.isle line 8.

Variants§

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Nop

Fields

§len: u8
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AluRmiR

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AluRM

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AluRmRVex

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UnaryRmR

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Not

Fields

§src: Gpr
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Neg

Fields

§src: Gpr
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Div

Fields

§signed: bool
§divisor: GprMem
§dividend_lo: Gpr
§dividend_hi: Gpr
§dst_quotient: WritableGpr
§dst_remainder: WritableGpr
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MulHi

Fields

§signed: bool
§src1: Gpr
§src2: GprMem
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CheckedDivOrRemSeq

Fields

§dividend_lo: Gpr
§dividend_hi: Gpr
§divisor: Gpr
§dst_quotient: WritableGpr
§dst_remainder: WritableGpr
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SignExtendData

Fields

§src: Gpr
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Imm

Fields

§dst_size: OperandSize
§simm64: u64
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MovRR

Fields

§src: Gpr
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MovFromPReg

Fields

§src: PReg
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MovToPReg

Fields

§src: Gpr
§dst: PReg
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MovzxRmR

Fields

§ext_mode: ExtMode
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Mov64MR

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LoadEffectiveAddress

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MovsxRmR

Fields

§ext_mode: ExtMode
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MovImmM

Fields

§simm64: u64
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MovRM

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ShiftR

Fields

§src: Gpr
§num_bits: Imm8Gpr
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XmmRmiReg

Fields

§opcode: SseOpcode
§src1: Xmm
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CmpRmiR

Fields

§opcode: CmpOpcode
§dst: Gpr
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Setcc

Fields

§cc: CC
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Bswap

Fields

§src: Gpr
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Cmove

Fields

§cc: CC
§consequent: GprMem
§alternative: Gpr
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XmmCmove

Fields

§ty: Type
§cc: CC
§consequent: XmmMem
§alternative: Xmm
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Push64

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Pop64

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StackProbeLoop

Fields

§frame_size: u32
§guard_size: u32
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XmmRmR

Fields

§src1: Xmm
§src2: XmmMem
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XmmRmRBlend

Fields

§src1: Xmm
§src2: XmmMem
§mask: Xmm
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XmmRmRVex

Fields

§src1: Xmm
§src2: Xmm
§src3: XmmMem
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XmmRmREvex

Fields

§src1: XmmMem
§src2: Xmm
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XmmRmREvex3

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§src1: XmmMem
§src2: Xmm
§src3: Xmm
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XmmUnaryRmR

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XmmUnaryRmRImm

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§imm: u8
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XmmUnaryRmREvex

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XmmMovRM

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XmmToGpr

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§src: Xmm
§dst_size: OperandSize
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GprToXmm

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§src_size: OperandSize
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CvtUint64ToFloatSeq

Fields

§dst_size: OperandSize
§src: Gpr
§tmp_gpr1: WritableGpr
§tmp_gpr2: WritableGpr
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CvtFloatToSintSeq

Fields

§dst_size: OperandSize
§src_size: OperandSize
§is_saturating: bool
§src: Xmm
§tmp_gpr: WritableGpr
§tmp_xmm: WritableXmm
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CvtFloatToUintSeq

Fields

§dst_size: OperandSize
§src_size: OperandSize
§is_saturating: bool
§src: Xmm
§tmp_gpr: WritableGpr
§tmp_xmm: WritableXmm
§tmp_xmm2: WritableXmm
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XmmMinMaxSeq

Fields

§is_min: bool
§lhs: Xmm
§rhs: Xmm
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XmmCmpRmR

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§dst: Xmm
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XmmRmRImm

Fields

§src1: Reg
§src2: RegMem
§imm: u8
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CallKnown

Fields

§info: Box<CallInfo>
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CallUnknown

Fields

§dest: RegMem
§info: Box<CallInfo>
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Args

Fields

§args: Vec<ArgPair>
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Ret

Fields

§rets: Vec<RetPair>
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JmpKnown

Fields

§dst: MachLabel
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JmpIf

Fields

§cc: CC
§taken: MachLabel
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JmpCond

Fields

§cc: CC
§taken: MachLabel
§not_taken: MachLabel
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JmpTableSeq

Fields

§idx: Reg
§default_target: MachLabel
§targets: Box<SmallVec<[MachLabel; 4]>>
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JmpUnknown

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§target: RegMem
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TrapIf

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§cc: CC
§trap_code: TrapCode
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TrapIfAnd

Fields

§cc1: CC
§cc2: CC
§trap_code: TrapCode
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TrapIfOr

Fields

§cc1: CC
§cc2: CC
§trap_code: TrapCode
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Hlt

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Ud2

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§trap_code: TrapCode
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LoadExtName

Fields

§offset: i64
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LockCmpxchg

Fields

§ty: Type
§replacement: Reg
§expected: Reg
§dst_old: Writable<Reg>
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AtomicRmwSeq

Fields

§ty: Type
§op: MachAtomicRmwOp
§operand: Reg
§dst_old: Writable<Reg>
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Fence

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VirtualSPOffsetAdj

Fields

§offset: i64
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XmmUninitializedValue

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ElfTlsGetAddr

Fields

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MachOTlsGetAddr

Fields

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CoffTlsGetAddr

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Unwind

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DummyUse

Fields

§reg: Reg

Trait Implementations§

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impl Clone for MInst

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fn clone(&self) -> MInst

Returns a copy of the value. Read more
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fn clone_from(&mut self, source: &Self)

Performs copy-assignment from source. Read more
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impl Debug for Inst

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fn fmt(&self, fmt: &mut Formatter<'_>) -> Result

Formats the value using the given formatter. Read more
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impl MachInst for Inst

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type ABIMachineSpec = X64ABIMachineSpec

The ABI machine spec for this MachInst.
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fn get_operands<F: Fn(VReg) -> VReg>( &self, collector: &mut OperandCollector<'_, F> )

Return the registers referenced by this machine instruction along with the modes of reference (use, def, modify).
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fn is_move(&self) -> Option<(Writable<Reg>, Reg)>

If this is a simple move, return the (source, destination) tuple of registers.
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fn is_included_in_clobbers(&self) -> bool

Should this instruction be included in the clobber-set?
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fn is_trap(&self) -> bool

Is this an unconditional trap?
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fn is_args(&self) -> bool

Is this an “args” pseudoinst?
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fn is_term(&self) -> MachTerminator

Is this a terminator (branch or ret)? If so, return its type (ret/uncond/cond) and target if applicable.
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fn gen_move(dst_reg: Writable<Reg>, src_reg: Reg, ty: Type) -> Inst

Generate a move.
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fn gen_nop(preferred_size: usize) -> Inst

Generate a NOP. The preferred_size parameter allows the caller to request a NOP of that size, or as close to it as possible. The machine backend may return a NOP whose binary encoding is smaller than the preferred size, but must not return a NOP that is larger. However, the instruction must have a nonzero size if preferred_size is nonzero.
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fn rc_for_type( ty: Type ) -> CodegenResult<(&'static [RegClass], &'static [Type])>

Determine register class(es) to store the given Cranelift type, and the Cranelift type actually stored in the underlying register(s). May return an error if the type isn’t supported by this backend. Read more
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fn canonical_type_for_rc(rc: RegClass) -> Type

Get an appropriate type that can fully hold a value in a given register class. This may not be the only type that maps to that class, but when used with gen_move() or the ABI trait’s load/spill constructors, it should produce instruction(s) that move the entire register contents.
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fn gen_jump(label: MachLabel) -> Inst

Generate a jump to another target. Used during lowering of control flow.
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fn gen_dummy_use(reg: Reg) -> Self

Generate a dummy instruction that will keep a value alive but has no other purpose.
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fn worst_case_size() -> CodeOffset

What is the worst-case instruction size emitted by this instruction type?
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fn ref_type_regclass(_: &Flags) -> RegClass

What is the register class used for reference types (GC-observable pointers)? Can be dependent on compilation flags.
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fn is_safepoint(&self) -> bool

Is this a safepoint?
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type LabelUse = LabelUse

A label-use kind: a type that describes the types of label references that can occur in an instruction.
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fn align_basic_block(offset: CodeOffset) -> CodeOffset

Align a basic block offset (from start of function). By default, no alignment occurs.
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fn gen_block_start( _is_indirect_branch_target: bool, _is_forward_edge_cfi_enabled: bool ) -> Option<Self>

Generate an instruction that must appear at the beginning of a basic block, if any. Note that the return value must not be subject to register allocation.
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impl MachInstEmit for Inst

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type State = EmitState

Persistent state carried across emit invocations.
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type Info = EmitInfo

Constant information used in emit invocations.
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fn emit( &self, allocs: &[Allocation], sink: &mut MachBuffer<Inst>, info: &Self::Info, state: &mut Self::State )

Emit the instruction.
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fn pretty_print_inst( &self, allocs: &[Allocation], _: &mut Self::State ) -> String

Pretty-print the instruction.

Auto Trait Implementations§

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impl RefUnwindSafe for MInst

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impl Send for MInst

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impl Sync for MInst

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impl Unpin for MInst

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impl UnwindSafe for MInst

Blanket Implementations§

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impl<T> Any for Twhere T: 'static + ?Sized,

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fn type_id(&self) -> TypeId

Gets the TypeId of self. Read more
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impl<T> Borrow<T> for Twhere T: ?Sized,

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fn borrow(&self) -> &T

Immutably borrows from an owned value. Read more
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impl<T> BorrowMut<T> for Twhere T: ?Sized,

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fn borrow_mut(&mut self) -> &mut T

Mutably borrows from an owned value. Read more
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impl<T> From<T> for T

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fn from(t: T) -> T

Returns the argument unchanged.

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impl<T, U> Into<U> for Twhere U: From<T>,

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fn into(self) -> U

Calls U::from(self).

That is, this conversion is whatever the implementation of From<T> for U chooses to do.

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impl<T> ToOwned for Twhere T: Clone,

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type Owned = T

The resulting type after obtaining ownership.
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fn to_owned(&self) -> T

Creates owned data from borrowed data, usually by cloning. Read more
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fn clone_into(&self, target: &mut T)

Uses borrowed data to replace owned data, usually by cloning. Read more
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impl<T, U> TryFrom<U> for Twhere U: Into<T>,

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type Error = Infallible

The type returned in the event of a conversion error.
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fn try_from(value: U) -> Result<T, <T as TryFrom<U>>::Error>

Performs the conversion.
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impl<T, U> TryInto<U> for Twhere U: TryFrom<T>,

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type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.
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fn try_into(self) -> Result<U, <U as TryFrom<T>>::Error>

Performs the conversion.