Enum wasm_encoder::Instruction

source ·
#[non_exhaustive]
pub enum Instruction<'a> {
Show 618 variants Unreachable, Nop, Block(BlockType), Loop(BlockType), If(BlockType), Else, End, Br(u32), BrIf(u32), BrTable(Cow<'a, [u32]>, u32), BrOnNull(u32), BrOnNonNull(u32), Return, Call(u32), CallRef(u32), CallIndirect { type_index: u32, table_index: u32, }, ReturnCallRef(u32), ReturnCall(u32), ReturnCallIndirect { type_index: u32, table_index: u32, }, TryTable(BlockType, Cow<'a, [Catch]>), Throw(u32), ThrowRef, Try(BlockType), Delegate(u32), Catch(u32), CatchAll, Rethrow(u32), Drop, Select, LocalGet(u32), LocalSet(u32), LocalTee(u32), GlobalGet(u32), GlobalSet(u32), I32Load(MemArg), I64Load(MemArg), F32Load(MemArg), F64Load(MemArg), I32Load8S(MemArg), I32Load8U(MemArg), I32Load16S(MemArg), I32Load16U(MemArg), I64Load8S(MemArg), I64Load8U(MemArg), I64Load16S(MemArg), I64Load16U(MemArg), I64Load32S(MemArg), I64Load32U(MemArg), I32Store(MemArg), I64Store(MemArg), F32Store(MemArg), F64Store(MemArg), I32Store8(MemArg), I32Store16(MemArg), I64Store8(MemArg), I64Store16(MemArg), I64Store32(MemArg), MemorySize(u32), MemoryGrow(u32), MemoryInit { mem: u32, data_index: u32, }, DataDrop(u32), MemoryCopy { src_mem: u32, dst_mem: u32, }, MemoryFill(u32), MemoryDiscard(u32), I32Const(i32), I64Const(i64), F32Const(f32), F64Const(f64), I32Eqz, I32Eq, I32Ne, I32LtS, I32LtU, I32GtS, I32GtU, I32LeS, I32LeU, I32GeS, I32GeU, I64Eqz, I64Eq, I64Ne, I64LtS, I64LtU, I64GtS, I64GtU, I64LeS, I64LeU, I64GeS, I64GeU, F32Eq, F32Ne, F32Lt, F32Gt, F32Le, F32Ge, F64Eq, F64Ne, F64Lt, F64Gt, F64Le, F64Ge, I32Clz, I32Ctz, I32Popcnt, I32Add, I32Sub, I32Mul, I32DivS, I32DivU, I32RemS, I32RemU, I32And, I32Or, I32Xor, I32Shl, I32ShrS, I32ShrU, I32Rotl, I32Rotr, I64Clz, I64Ctz, I64Popcnt, I64Add, I64Sub, I64Mul, I64DivS, I64DivU, I64RemS, I64RemU, I64And, I64Or, I64Xor, I64Shl, I64ShrS, I64ShrU, I64Rotl, I64Rotr, F32Abs, F32Neg, F32Ceil, F32Floor, F32Trunc, F32Nearest, F32Sqrt, F32Add, F32Sub, F32Mul, F32Div, F32Min, F32Max, F32Copysign, F64Abs, F64Neg, F64Ceil, F64Floor, F64Trunc, F64Nearest, F64Sqrt, F64Add, F64Sub, F64Mul, F64Div, F64Min, F64Max, F64Copysign, I32WrapI64, I32TruncF32S, I32TruncF32U, I32TruncF64S, I32TruncF64U, I64ExtendI32S, I64ExtendI32U, I64TruncF32S, I64TruncF32U, I64TruncF64S, I64TruncF64U, F32ConvertI32S, F32ConvertI32U, F32ConvertI64S, F32ConvertI64U, F32DemoteF64, F64ConvertI32S, F64ConvertI32U, F64ConvertI64S, F64ConvertI64U, F64PromoteF32, I32ReinterpretF32, I64ReinterpretF64, F32ReinterpretI32, F64ReinterpretI64, I32Extend8S, I32Extend16S, I64Extend8S, I64Extend16S, I64Extend32S, I32TruncSatF32S, I32TruncSatF32U, I32TruncSatF64S, I32TruncSatF64U, I64TruncSatF32S, I64TruncSatF32U, I64TruncSatF64S, I64TruncSatF64U, TypedSelect(ValType), RefNull(HeapType), RefIsNull, RefFunc(u32), RefEq, RefAsNonNull, StructNew(u32), StructNewDefault(u32), StructGet { struct_type_index: u32, field_index: u32, }, StructGetS { struct_type_index: u32, field_index: u32, }, StructGetU { struct_type_index: u32, field_index: u32, }, StructSet { struct_type_index: u32, field_index: u32, }, ArrayNew(u32), ArrayNewDefault(u32), ArrayNewFixed { array_type_index: u32, array_size: u32, }, ArrayNewData { array_type_index: u32, array_data_index: u32, }, ArrayNewElem { array_type_index: u32, array_elem_index: u32, }, ArrayGet(u32), ArrayGetS(u32), ArrayGetU(u32), ArraySet(u32), ArrayLen, ArrayFill(u32), ArrayCopy { array_type_index_dst: u32, array_type_index_src: u32, }, ArrayInitData { array_type_index: u32, array_data_index: u32, }, ArrayInitElem { array_type_index: u32, array_elem_index: u32, }, RefTestNonNull(HeapType), RefTestNullable(HeapType), RefCastNonNull(HeapType), RefCastNullable(HeapType), BrOnCast { relative_depth: u32, from_ref_type: RefType, to_ref_type: RefType, }, BrOnCastFail { relative_depth: u32, from_ref_type: RefType, to_ref_type: RefType, }, AnyConvertExtern, ExternConvertAny, RefI31, I31GetS, I31GetU, TableInit { elem_index: u32, table: u32, }, ElemDrop(u32), TableFill(u32), TableSet(u32), TableGet(u32), TableGrow(u32), TableSize(u32), TableCopy { src_table: u32, dst_table: u32, }, V128Load(MemArg), V128Load8x8S(MemArg), V128Load8x8U(MemArg), V128Load16x4S(MemArg), V128Load16x4U(MemArg), V128Load32x2S(MemArg), V128Load32x2U(MemArg), V128Load8Splat(MemArg), V128Load16Splat(MemArg), V128Load32Splat(MemArg), V128Load64Splat(MemArg), V128Load32Zero(MemArg), V128Load64Zero(MemArg), V128Store(MemArg), V128Load8Lane { memarg: MemArg, lane: Lane, }, V128Load16Lane { memarg: MemArg, lane: Lane, }, V128Load32Lane { memarg: MemArg, lane: Lane, }, V128Load64Lane { memarg: MemArg, lane: Lane, }, V128Store8Lane { memarg: MemArg, lane: Lane, }, V128Store16Lane { memarg: MemArg, lane: Lane, }, V128Store32Lane { memarg: MemArg, lane: Lane, }, V128Store64Lane { memarg: MemArg, lane: Lane, }, V128Const(i128), I8x16Shuffle([Lane; 16]), I8x16ExtractLaneS(Lane), I8x16ExtractLaneU(Lane), I8x16ReplaceLane(Lane), I16x8ExtractLaneS(Lane), I16x8ExtractLaneU(Lane), I16x8ReplaceLane(Lane), I32x4ExtractLane(Lane), I32x4ReplaceLane(Lane), I64x2ExtractLane(Lane), I64x2ReplaceLane(Lane), F32x4ExtractLane(Lane), F32x4ReplaceLane(Lane), F64x2ExtractLane(Lane), F64x2ReplaceLane(Lane), I8x16Swizzle, I8x16Splat, I16x8Splat, I32x4Splat, I64x2Splat, F32x4Splat, F64x2Splat, I8x16Eq, I8x16Ne, I8x16LtS, I8x16LtU, I8x16GtS, I8x16GtU, I8x16LeS, I8x16LeU, I8x16GeS, I8x16GeU, I16x8Eq, I16x8Ne, I16x8LtS, I16x8LtU, I16x8GtS, I16x8GtU, I16x8LeS, I16x8LeU, I16x8GeS, I16x8GeU, I32x4Eq, I32x4Ne, I32x4LtS, I32x4LtU, I32x4GtS, I32x4GtU, I32x4LeS, I32x4LeU, I32x4GeS, I32x4GeU, I64x2Eq, I64x2Ne, I64x2LtS, I64x2GtS, I64x2LeS, I64x2GeS, F32x4Eq, F32x4Ne, F32x4Lt, F32x4Gt, F32x4Le, F32x4Ge, F64x2Eq, F64x2Ne, F64x2Lt, F64x2Gt, F64x2Le, F64x2Ge, V128Not, V128And, V128AndNot, V128Or, V128Xor, V128Bitselect, V128AnyTrue, I8x16Abs, I8x16Neg, I8x16Popcnt, I8x16AllTrue, I8x16Bitmask, I8x16NarrowI16x8S, I8x16NarrowI16x8U, I8x16Shl, I8x16ShrS, I8x16ShrU, I8x16Add, I8x16AddSatS, I8x16AddSatU, I8x16Sub, I8x16SubSatS, I8x16SubSatU, I8x16MinS, I8x16MinU, I8x16MaxS, I8x16MaxU, I8x16AvgrU, I16x8ExtAddPairwiseI8x16S, I16x8ExtAddPairwiseI8x16U, I16x8Abs, I16x8Neg, I16x8Q15MulrSatS, I16x8AllTrue, I16x8Bitmask, I16x8NarrowI32x4S, I16x8NarrowI32x4U, I16x8ExtendLowI8x16S, I16x8ExtendHighI8x16S, I16x8ExtendLowI8x16U, I16x8ExtendHighI8x16U, I16x8Shl, I16x8ShrS, I16x8ShrU, I16x8Add, I16x8AddSatS, I16x8AddSatU, I16x8Sub, I16x8SubSatS, I16x8SubSatU, I16x8Mul, I16x8MinS, I16x8MinU, I16x8MaxS, I16x8MaxU, I16x8AvgrU, I16x8ExtMulLowI8x16S, I16x8ExtMulHighI8x16S, I16x8ExtMulLowI8x16U, I16x8ExtMulHighI8x16U, I32x4ExtAddPairwiseI16x8S, I32x4ExtAddPairwiseI16x8U, I32x4Abs, I32x4Neg, I32x4AllTrue, I32x4Bitmask, I32x4ExtendLowI16x8S, I32x4ExtendHighI16x8S, I32x4ExtendLowI16x8U, I32x4ExtendHighI16x8U, I32x4Shl, I32x4ShrS, I32x4ShrU, I32x4Add, I32x4Sub, I32x4Mul, I32x4MinS, I32x4MinU, I32x4MaxS, I32x4MaxU, I32x4DotI16x8S, I32x4ExtMulLowI16x8S, I32x4ExtMulHighI16x8S, I32x4ExtMulLowI16x8U, I32x4ExtMulHighI16x8U, I64x2Abs, I64x2Neg, I64x2AllTrue, I64x2Bitmask, I64x2ExtendLowI32x4S, I64x2ExtendHighI32x4S, I64x2ExtendLowI32x4U, I64x2ExtendHighI32x4U, I64x2Shl, I64x2ShrS, I64x2ShrU, I64x2Add, I64x2Sub, I64x2Mul, I64x2ExtMulLowI32x4S, I64x2ExtMulHighI32x4S, I64x2ExtMulLowI32x4U, I64x2ExtMulHighI32x4U, F32x4Ceil, F32x4Floor, F32x4Trunc, F32x4Nearest, F32x4Abs, F32x4Neg, F32x4Sqrt, F32x4Add, F32x4Sub, F32x4Mul, F32x4Div, F32x4Min, F32x4Max, F32x4PMin, F32x4PMax, F64x2Ceil, F64x2Floor, F64x2Trunc, F64x2Nearest, F64x2Abs, F64x2Neg, F64x2Sqrt, F64x2Add, F64x2Sub, F64x2Mul, F64x2Div, F64x2Min, F64x2Max, F64x2PMin, F64x2PMax, I32x4TruncSatF32x4S, I32x4TruncSatF32x4U, F32x4ConvertI32x4S, F32x4ConvertI32x4U, I32x4TruncSatF64x2SZero, I32x4TruncSatF64x2UZero, F64x2ConvertLowI32x4S, F64x2ConvertLowI32x4U, F32x4DemoteF64x2Zero, F64x2PromoteLowF32x4, I8x16RelaxedSwizzle, I32x4RelaxedTruncF32x4S, I32x4RelaxedTruncF32x4U, I32x4RelaxedTruncF64x2SZero, I32x4RelaxedTruncF64x2UZero, F32x4RelaxedMadd, F32x4RelaxedNmadd, F64x2RelaxedMadd, F64x2RelaxedNmadd, I8x16RelaxedLaneselect, I16x8RelaxedLaneselect, I32x4RelaxedLaneselect, I64x2RelaxedLaneselect, F32x4RelaxedMin, F32x4RelaxedMax, F64x2RelaxedMin, F64x2RelaxedMax, I16x8RelaxedQ15mulrS, I16x8RelaxedDotI8x16I7x16S, I32x4RelaxedDotI8x16I7x16AddS, MemoryAtomicNotify(MemArg), MemoryAtomicWait32(MemArg), MemoryAtomicWait64(MemArg), AtomicFence, I32AtomicLoad(MemArg), I64AtomicLoad(MemArg), I32AtomicLoad8U(MemArg), I32AtomicLoad16U(MemArg), I64AtomicLoad8U(MemArg), I64AtomicLoad16U(MemArg), I64AtomicLoad32U(MemArg), I32AtomicStore(MemArg), I64AtomicStore(MemArg), I32AtomicStore8(MemArg), I32AtomicStore16(MemArg), I64AtomicStore8(MemArg), I64AtomicStore16(MemArg), I64AtomicStore32(MemArg), I32AtomicRmwAdd(MemArg), I64AtomicRmwAdd(MemArg), I32AtomicRmw8AddU(MemArg), I32AtomicRmw16AddU(MemArg), I64AtomicRmw8AddU(MemArg), I64AtomicRmw16AddU(MemArg), I64AtomicRmw32AddU(MemArg), I32AtomicRmwSub(MemArg), I64AtomicRmwSub(MemArg), I32AtomicRmw8SubU(MemArg), I32AtomicRmw16SubU(MemArg), I64AtomicRmw8SubU(MemArg), I64AtomicRmw16SubU(MemArg), I64AtomicRmw32SubU(MemArg), I32AtomicRmwAnd(MemArg), I64AtomicRmwAnd(MemArg), I32AtomicRmw8AndU(MemArg), I32AtomicRmw16AndU(MemArg), I64AtomicRmw8AndU(MemArg), I64AtomicRmw16AndU(MemArg), I64AtomicRmw32AndU(MemArg), I32AtomicRmwOr(MemArg), I64AtomicRmwOr(MemArg), I32AtomicRmw8OrU(MemArg), I32AtomicRmw16OrU(MemArg), I64AtomicRmw8OrU(MemArg), I64AtomicRmw16OrU(MemArg), I64AtomicRmw32OrU(MemArg), I32AtomicRmwXor(MemArg), I64AtomicRmwXor(MemArg), I32AtomicRmw8XorU(MemArg), I32AtomicRmw16XorU(MemArg), I64AtomicRmw8XorU(MemArg), I64AtomicRmw16XorU(MemArg), I64AtomicRmw32XorU(MemArg), I32AtomicRmwXchg(MemArg), I64AtomicRmwXchg(MemArg), I32AtomicRmw8XchgU(MemArg), I32AtomicRmw16XchgU(MemArg), I64AtomicRmw8XchgU(MemArg), I64AtomicRmw16XchgU(MemArg), I64AtomicRmw32XchgU(MemArg), I32AtomicRmwCmpxchg(MemArg), I64AtomicRmwCmpxchg(MemArg), I32AtomicRmw8CmpxchgU(MemArg), I32AtomicRmw16CmpxchgU(MemArg), I64AtomicRmw8CmpxchgU(MemArg), I64AtomicRmw16CmpxchgU(MemArg), I64AtomicRmw32CmpxchgU(MemArg), GlobalAtomicGet { ordering: Ordering, global_index: u32, }, GlobalAtomicSet { ordering: Ordering, global_index: u32, }, GlobalAtomicRmwAdd { ordering: Ordering, global_index: u32, }, GlobalAtomicRmwSub { ordering: Ordering, global_index: u32, }, GlobalAtomicRmwAnd { ordering: Ordering, global_index: u32, }, GlobalAtomicRmwOr { ordering: Ordering, global_index: u32, }, GlobalAtomicRmwXor { ordering: Ordering, global_index: u32, }, GlobalAtomicRmwXchg { ordering: Ordering, global_index: u32, }, GlobalAtomicRmwCmpxchg { ordering: Ordering, global_index: u32, }, TableAtomicGet { ordering: Ordering, table_index: u32, }, TableAtomicSet { ordering: Ordering, table_index: u32, }, TableAtomicRmwXchg { ordering: Ordering, table_index: u32, }, TableAtomicRmwCmpxchg { ordering: Ordering, table_index: u32, }, StructAtomicGet { ordering: Ordering, struct_type_index: u32, field_index: u32, }, StructAtomicGetS { ordering: Ordering, struct_type_index: u32, field_index: u32, }, StructAtomicGetU { ordering: Ordering, struct_type_index: u32, field_index: u32, }, StructAtomicSet { ordering: Ordering, struct_type_index: u32, field_index: u32, }, StructAtomicRmwAdd { ordering: Ordering, struct_type_index: u32, field_index: u32, }, StructAtomicRmwSub { ordering: Ordering, struct_type_index: u32, field_index: u32, }, StructAtomicRmwAnd { ordering: Ordering, struct_type_index: u32, field_index: u32, }, StructAtomicRmwOr { ordering: Ordering, struct_type_index: u32, field_index: u32, }, StructAtomicRmwXor { ordering: Ordering, struct_type_index: u32, field_index: u32, }, StructAtomicRmwXchg { ordering: Ordering, struct_type_index: u32, field_index: u32, }, StructAtomicRmwCmpxchg { ordering: Ordering, struct_type_index: u32, field_index: u32, }, ArrayAtomicGet { ordering: Ordering, array_type_index: u32, }, ArrayAtomicGetS { ordering: Ordering, array_type_index: u32, }, ArrayAtomicGetU { ordering: Ordering, array_type_index: u32, }, ArrayAtomicSet { ordering: Ordering, array_type_index: u32, }, ArrayAtomicRmwAdd { ordering: Ordering, array_type_index: u32, }, ArrayAtomicRmwSub { ordering: Ordering, array_type_index: u32, }, ArrayAtomicRmwAnd { ordering: Ordering, array_type_index: u32, }, ArrayAtomicRmwOr { ordering: Ordering, array_type_index: u32, }, ArrayAtomicRmwXor { ordering: Ordering, array_type_index: u32, }, ArrayAtomicRmwXchg { ordering: Ordering, array_type_index: u32, }, ArrayAtomicRmwCmpxchg { ordering: Ordering, array_type_index: u32, }, RefI31Shared, ContNew(u32), ContBind { argument_index: u32, result_index: u32, }, Suspend(u32), Resume { cont_type_index: u32, resume_table: Cow<'a, [Handle]>, }, ResumeThrow { cont_type_index: u32, tag_index: u32, resume_table: Cow<'a, [Handle]>, }, Switch { cont_type_index: u32, tag_index: u32, }, I64Add128, I64Sub128, I64MulWideS, I64MulWideU,
}
Expand description

WebAssembly instructions.

Variants (Non-exhaustive)§

This enum is marked as non-exhaustive
Non-exhaustive enums could have additional variants added in future. Therefore, when matching against variants of non-exhaustive enums, an extra wildcard arm must be added to account for any future variants.
§

Unreachable

§

Nop

§

Block(BlockType)

§

Loop(BlockType)

§

If(BlockType)

§

Else

§

End

§

Br(u32)

§

BrIf(u32)

§

BrTable(Cow<'a, [u32]>, u32)

§

BrOnNull(u32)

§

BrOnNonNull(u32)

§

Return

§

Call(u32)

§

CallRef(u32)

§

CallIndirect

Fields

§type_index: u32
§table_index: u32
§

ReturnCallRef(u32)

§

ReturnCall(u32)

§

ReturnCallIndirect

Fields

§type_index: u32
§table_index: u32
§

TryTable(BlockType, Cow<'a, [Catch]>)

§

Throw(u32)

§

ThrowRef

§

Try(BlockType)

§

Delegate(u32)

§

Catch(u32)

§

CatchAll

§

Rethrow(u32)

§

Drop

§

Select

§

LocalGet(u32)

§

LocalSet(u32)

§

LocalTee(u32)

§

GlobalGet(u32)

§

GlobalSet(u32)

§

I32Load(MemArg)

§

I64Load(MemArg)

§

F32Load(MemArg)

§

F64Load(MemArg)

§

I32Load8S(MemArg)

§

I32Load8U(MemArg)

§

I32Load16S(MemArg)

§

I32Load16U(MemArg)

§

I64Load8S(MemArg)

§

I64Load8U(MemArg)

§

I64Load16S(MemArg)

§

I64Load16U(MemArg)

§

I64Load32S(MemArg)

§

I64Load32U(MemArg)

§

I32Store(MemArg)

§

I64Store(MemArg)

§

F32Store(MemArg)

§

F64Store(MemArg)

§

I32Store8(MemArg)

§

I32Store16(MemArg)

§

I64Store8(MemArg)

§

I64Store16(MemArg)

§

I64Store32(MemArg)

§

MemorySize(u32)

§

MemoryGrow(u32)

§

MemoryInit

Fields

§mem: u32
§data_index: u32
§

DataDrop(u32)

§

MemoryCopy

Fields

§src_mem: u32
§dst_mem: u32
§

MemoryFill(u32)

§

MemoryDiscard(u32)

§

I32Const(i32)

§

I64Const(i64)

§

F32Const(f32)

§

F64Const(f64)

§

I32Eqz

§

I32Eq

§

I32Ne

§

I32LtS

§

I32LtU

§

I32GtS

§

I32GtU

§

I32LeS

§

I32LeU

§

I32GeS

§

I32GeU

§

I64Eqz

§

I64Eq

§

I64Ne

§

I64LtS

§

I64LtU

§

I64GtS

§

I64GtU

§

I64LeS

§

I64LeU

§

I64GeS

§

I64GeU

§

F32Eq

§

F32Ne

§

F32Lt

§

F32Gt

§

F32Le

§

F32Ge

§

F64Eq

§

F64Ne

§

F64Lt

§

F64Gt

§

F64Le

§

F64Ge

§

I32Clz

§

I32Ctz

§

I32Popcnt

§

I32Add

§

I32Sub

§

I32Mul

§

I32DivS

§

I32DivU

§

I32RemS

§

I32RemU

§

I32And

§

I32Or

§

I32Xor

§

I32Shl

§

I32ShrS

§

I32ShrU

§

I32Rotl

§

I32Rotr

§

I64Clz

§

I64Ctz

§

I64Popcnt

§

I64Add

§

I64Sub

§

I64Mul

§

I64DivS

§

I64DivU

§

I64RemS

§

I64RemU

§

I64And

§

I64Or

§

I64Xor

§

I64Shl

§

I64ShrS

§

I64ShrU

§

I64Rotl

§

I64Rotr

§

F32Abs

§

F32Neg

§

F32Ceil

§

F32Floor

§

F32Trunc

§

F32Nearest

§

F32Sqrt

§

F32Add

§

F32Sub

§

F32Mul

§

F32Div

§

F32Min

§

F32Max

§

F32Copysign

§

F64Abs

§

F64Neg

§

F64Ceil

§

F64Floor

§

F64Trunc

§

F64Nearest

§

F64Sqrt

§

F64Add

§

F64Sub

§

F64Mul

§

F64Div

§

F64Min

§

F64Max

§

F64Copysign

§

I32WrapI64

§

I32TruncF32S

§

I32TruncF32U

§

I32TruncF64S

§

I32TruncF64U

§

I64ExtendI32S

§

I64ExtendI32U

§

I64TruncF32S

§

I64TruncF32U

§

I64TruncF64S

§

I64TruncF64U

§

F32ConvertI32S

§

F32ConvertI32U

§

F32ConvertI64S

§

F32ConvertI64U

§

F32DemoteF64

§

F64ConvertI32S

§

F64ConvertI32U

§

F64ConvertI64S

§

F64ConvertI64U

§

F64PromoteF32

§

I32ReinterpretF32

§

I64ReinterpretF64

§

F32ReinterpretI32

§

F64ReinterpretI64

§

I32Extend8S

§

I32Extend16S

§

I64Extend8S

§

I64Extend16S

§

I64Extend32S

§

I32TruncSatF32S

§

I32TruncSatF32U

§

I32TruncSatF64S

§

I32TruncSatF64U

§

I64TruncSatF32S

§

I64TruncSatF32U

§

I64TruncSatF64S

§

I64TruncSatF64U

§

TypedSelect(ValType)

§

RefNull(HeapType)

§

RefIsNull

§

RefFunc(u32)

§

RefEq

§

RefAsNonNull

§

StructNew(u32)

§

StructNewDefault(u32)

§

StructGet

Fields

§struct_type_index: u32
§field_index: u32
§

StructGetS

Fields

§struct_type_index: u32
§field_index: u32
§

StructGetU

Fields

§struct_type_index: u32
§field_index: u32
§

StructSet

Fields

§struct_type_index: u32
§field_index: u32
§

ArrayNew(u32)

§

ArrayNewDefault(u32)

§

ArrayNewFixed

Fields

§array_type_index: u32
§array_size: u32
§

ArrayNewData

Fields

§array_type_index: u32
§array_data_index: u32
§

ArrayNewElem

Fields

§array_type_index: u32
§array_elem_index: u32
§

ArrayGet(u32)

§

ArrayGetS(u32)

§

ArrayGetU(u32)

§

ArraySet(u32)

§

ArrayLen

§

ArrayFill(u32)

§

ArrayCopy

Fields

§array_type_index_dst: u32
§array_type_index_src: u32
§

ArrayInitData

Fields

§array_type_index: u32
§array_data_index: u32
§

ArrayInitElem

Fields

§array_type_index: u32
§array_elem_index: u32
§

RefTestNonNull(HeapType)

§

RefTestNullable(HeapType)

§

RefCastNonNull(HeapType)

§

RefCastNullable(HeapType)

§

BrOnCast

Fields

§relative_depth: u32
§from_ref_type: RefType
§to_ref_type: RefType
§

BrOnCastFail

Fields

§relative_depth: u32
§from_ref_type: RefType
§to_ref_type: RefType
§

AnyConvertExtern

§

ExternConvertAny

§

RefI31

§

I31GetS

§

I31GetU

§

TableInit

Fields

§elem_index: u32
§table: u32
§

ElemDrop(u32)

§

TableFill(u32)

§

TableSet(u32)

§

TableGet(u32)

§

TableGrow(u32)

§

TableSize(u32)

§

TableCopy

Fields

§src_table: u32
§dst_table: u32
§

V128Load(MemArg)

§

V128Load8x8S(MemArg)

§

V128Load8x8U(MemArg)

§

V128Load16x4S(MemArg)

§

V128Load16x4U(MemArg)

§

V128Load32x2S(MemArg)

§

V128Load32x2U(MemArg)

§

V128Load8Splat(MemArg)

§

V128Load16Splat(MemArg)

§

V128Load32Splat(MemArg)

§

V128Load64Splat(MemArg)

§

V128Load32Zero(MemArg)

§

V128Load64Zero(MemArg)

§

V128Store(MemArg)

§

V128Load8Lane

Fields

§memarg: MemArg
§lane: Lane
§

V128Load16Lane

Fields

§memarg: MemArg
§lane: Lane
§

V128Load32Lane

Fields

§memarg: MemArg
§lane: Lane
§

V128Load64Lane

Fields

§memarg: MemArg
§lane: Lane
§

V128Store8Lane

Fields

§memarg: MemArg
§lane: Lane
§

V128Store16Lane

Fields

§memarg: MemArg
§lane: Lane
§

V128Store32Lane

Fields

§memarg: MemArg
§lane: Lane
§

V128Store64Lane

Fields

§memarg: MemArg
§lane: Lane
§

V128Const(i128)

§

I8x16Shuffle([Lane; 16])

§

I8x16ExtractLaneS(Lane)

§

I8x16ExtractLaneU(Lane)

§

I8x16ReplaceLane(Lane)

§

I16x8ExtractLaneS(Lane)

§

I16x8ExtractLaneU(Lane)

§

I16x8ReplaceLane(Lane)

§

I32x4ExtractLane(Lane)

§

I32x4ReplaceLane(Lane)

§

I64x2ExtractLane(Lane)

§

I64x2ReplaceLane(Lane)

§

F32x4ExtractLane(Lane)

§

F32x4ReplaceLane(Lane)

§

F64x2ExtractLane(Lane)

§

F64x2ReplaceLane(Lane)

§

I8x16Swizzle

§

I8x16Splat

§

I16x8Splat

§

I32x4Splat

§

I64x2Splat

§

F32x4Splat

§

F64x2Splat

§

I8x16Eq

§

I8x16Ne

§

I8x16LtS

§

I8x16LtU

§

I8x16GtS

§

I8x16GtU

§

I8x16LeS

§

I8x16LeU

§

I8x16GeS

§

I8x16GeU

§

I16x8Eq

§

I16x8Ne

§

I16x8LtS

§

I16x8LtU

§

I16x8GtS

§

I16x8GtU

§

I16x8LeS

§

I16x8LeU

§

I16x8GeS

§

I16x8GeU

§

I32x4Eq

§

I32x4Ne

§

I32x4LtS

§

I32x4LtU

§

I32x4GtS

§

I32x4GtU

§

I32x4LeS

§

I32x4LeU

§

I32x4GeS

§

I32x4GeU

§

I64x2Eq

§

I64x2Ne

§

I64x2LtS

§

I64x2GtS

§

I64x2LeS

§

I64x2GeS

§

F32x4Eq

§

F32x4Ne

§

F32x4Lt

§

F32x4Gt

§

F32x4Le

§

F32x4Ge

§

F64x2Eq

§

F64x2Ne

§

F64x2Lt

§

F64x2Gt

§

F64x2Le

§

F64x2Ge

§

V128Not

§

V128And

§

V128AndNot

§

V128Or

§

V128Xor

§

V128Bitselect

§

V128AnyTrue

§

I8x16Abs

§

I8x16Neg

§

I8x16Popcnt

§

I8x16AllTrue

§

I8x16Bitmask

§

I8x16NarrowI16x8S

§

I8x16NarrowI16x8U

§

I8x16Shl

§

I8x16ShrS

§

I8x16ShrU

§

I8x16Add

§

I8x16AddSatS

§

I8x16AddSatU

§

I8x16Sub

§

I8x16SubSatS

§

I8x16SubSatU

§

I8x16MinS

§

I8x16MinU

§

I8x16MaxS

§

I8x16MaxU

§

I8x16AvgrU

§

I16x8ExtAddPairwiseI8x16S

§

I16x8ExtAddPairwiseI8x16U

§

I16x8Abs

§

I16x8Neg

§

I16x8Q15MulrSatS

§

I16x8AllTrue

§

I16x8Bitmask

§

I16x8NarrowI32x4S

§

I16x8NarrowI32x4U

§

I16x8ExtendLowI8x16S

§

I16x8ExtendHighI8x16S

§

I16x8ExtendLowI8x16U

§

I16x8ExtendHighI8x16U

§

I16x8Shl

§

I16x8ShrS

§

I16x8ShrU

§

I16x8Add

§

I16x8AddSatS

§

I16x8AddSatU

§

I16x8Sub

§

I16x8SubSatS

§

I16x8SubSatU

§

I16x8Mul

§

I16x8MinS

§

I16x8MinU

§

I16x8MaxS

§

I16x8MaxU

§

I16x8AvgrU

§

I16x8ExtMulLowI8x16S

§

I16x8ExtMulHighI8x16S

§

I16x8ExtMulLowI8x16U

§

I16x8ExtMulHighI8x16U

§

I32x4ExtAddPairwiseI16x8S

§

I32x4ExtAddPairwiseI16x8U

§

I32x4Abs

§

I32x4Neg

§

I32x4AllTrue

§

I32x4Bitmask

§

I32x4ExtendLowI16x8S

§

I32x4ExtendHighI16x8S

§

I32x4ExtendLowI16x8U

§

I32x4ExtendHighI16x8U

§

I32x4Shl

§

I32x4ShrS

§

I32x4ShrU

§

I32x4Add

§

I32x4Sub

§

I32x4Mul

§

I32x4MinS

§

I32x4MinU

§

I32x4MaxS

§

I32x4MaxU

§

I32x4DotI16x8S

§

I32x4ExtMulLowI16x8S

§

I32x4ExtMulHighI16x8S

§

I32x4ExtMulLowI16x8U

§

I32x4ExtMulHighI16x8U

§

I64x2Abs

§

I64x2Neg

§

I64x2AllTrue

§

I64x2Bitmask

§

I64x2ExtendLowI32x4S

§

I64x2ExtendHighI32x4S

§

I64x2ExtendLowI32x4U

§

I64x2ExtendHighI32x4U

§

I64x2Shl

§

I64x2ShrS

§

I64x2ShrU

§

I64x2Add

§

I64x2Sub

§

I64x2Mul

§

I64x2ExtMulLowI32x4S

§

I64x2ExtMulHighI32x4S

§

I64x2ExtMulLowI32x4U

§

I64x2ExtMulHighI32x4U

§

F32x4Ceil

§

F32x4Floor

§

F32x4Trunc

§

F32x4Nearest

§

F32x4Abs

§

F32x4Neg

§

F32x4Sqrt

§

F32x4Add

§

F32x4Sub

§

F32x4Mul

§

F32x4Div

§

F32x4Min

§

F32x4Max

§

F32x4PMin

§

F32x4PMax

§

F64x2Ceil

§

F64x2Floor

§

F64x2Trunc

§

F64x2Nearest

§

F64x2Abs

§

F64x2Neg

§

F64x2Sqrt

§

F64x2Add

§

F64x2Sub

§

F64x2Mul

§

F64x2Div

§

F64x2Min

§

F64x2Max

§

F64x2PMin

§

F64x2PMax

§

I32x4TruncSatF32x4S

§

I32x4TruncSatF32x4U

§

F32x4ConvertI32x4S

§

F32x4ConvertI32x4U

§

I32x4TruncSatF64x2SZero

§

I32x4TruncSatF64x2UZero

§

F64x2ConvertLowI32x4S

§

F64x2ConvertLowI32x4U

§

F32x4DemoteF64x2Zero

§

F64x2PromoteLowF32x4

§

I8x16RelaxedSwizzle

§

I32x4RelaxedTruncF32x4S

§

I32x4RelaxedTruncF32x4U

§

I32x4RelaxedTruncF64x2SZero

§

I32x4RelaxedTruncF64x2UZero

§

F32x4RelaxedMadd

§

F32x4RelaxedNmadd

§

F64x2RelaxedMadd

§

F64x2RelaxedNmadd

§

I8x16RelaxedLaneselect

§

I16x8RelaxedLaneselect

§

I32x4RelaxedLaneselect

§

I64x2RelaxedLaneselect

§

F32x4RelaxedMin

§

F32x4RelaxedMax

§

F64x2RelaxedMin

§

F64x2RelaxedMax

§

I16x8RelaxedQ15mulrS

§

I16x8RelaxedDotI8x16I7x16S

§

I32x4RelaxedDotI8x16I7x16AddS

§

MemoryAtomicNotify(MemArg)

§

MemoryAtomicWait32(MemArg)

§

MemoryAtomicWait64(MemArg)

§

AtomicFence

§

I32AtomicLoad(MemArg)

§

I64AtomicLoad(MemArg)

§

I32AtomicLoad8U(MemArg)

§

I32AtomicLoad16U(MemArg)

§

I64AtomicLoad8U(MemArg)

§

I64AtomicLoad16U(MemArg)

§

I64AtomicLoad32U(MemArg)

§

I32AtomicStore(MemArg)

§

I64AtomicStore(MemArg)

§

I32AtomicStore8(MemArg)

§

I32AtomicStore16(MemArg)

§

I64AtomicStore8(MemArg)

§

I64AtomicStore16(MemArg)

§

I64AtomicStore32(MemArg)

§

I32AtomicRmwAdd(MemArg)

§

I64AtomicRmwAdd(MemArg)

§

I32AtomicRmw8AddU(MemArg)

§

I32AtomicRmw16AddU(MemArg)

§

I64AtomicRmw8AddU(MemArg)

§

I64AtomicRmw16AddU(MemArg)

§

I64AtomicRmw32AddU(MemArg)

§

I32AtomicRmwSub(MemArg)

§

I64AtomicRmwSub(MemArg)

§

I32AtomicRmw8SubU(MemArg)

§

I32AtomicRmw16SubU(MemArg)

§

I64AtomicRmw8SubU(MemArg)

§

I64AtomicRmw16SubU(MemArg)

§

I64AtomicRmw32SubU(MemArg)

§

I32AtomicRmwAnd(MemArg)

§

I64AtomicRmwAnd(MemArg)

§

I32AtomicRmw8AndU(MemArg)

§

I32AtomicRmw16AndU(MemArg)

§

I64AtomicRmw8AndU(MemArg)

§

I64AtomicRmw16AndU(MemArg)

§

I64AtomicRmw32AndU(MemArg)

§

I32AtomicRmwOr(MemArg)

§

I64AtomicRmwOr(MemArg)

§

I32AtomicRmw8OrU(MemArg)

§

I32AtomicRmw16OrU(MemArg)

§

I64AtomicRmw8OrU(MemArg)

§

I64AtomicRmw16OrU(MemArg)

§

I64AtomicRmw32OrU(MemArg)

§

I32AtomicRmwXor(MemArg)

§

I64AtomicRmwXor(MemArg)

§

I32AtomicRmw8XorU(MemArg)

§

I32AtomicRmw16XorU(MemArg)

§

I64AtomicRmw8XorU(MemArg)

§

I64AtomicRmw16XorU(MemArg)

§

I64AtomicRmw32XorU(MemArg)

§

I32AtomicRmwXchg(MemArg)

§

I64AtomicRmwXchg(MemArg)

§

I32AtomicRmw8XchgU(MemArg)

§

I32AtomicRmw16XchgU(MemArg)

§

I64AtomicRmw8XchgU(MemArg)

§

I64AtomicRmw16XchgU(MemArg)

§

I64AtomicRmw32XchgU(MemArg)

§

I32AtomicRmwCmpxchg(MemArg)

§

I64AtomicRmwCmpxchg(MemArg)

§

I32AtomicRmw8CmpxchgU(MemArg)

§

I32AtomicRmw16CmpxchgU(MemArg)

§

I64AtomicRmw8CmpxchgU(MemArg)

§

I64AtomicRmw16CmpxchgU(MemArg)

§

I64AtomicRmw32CmpxchgU(MemArg)

§

GlobalAtomicGet

Fields

§ordering: Ordering
§global_index: u32
§

GlobalAtomicSet

Fields

§ordering: Ordering
§global_index: u32
§

GlobalAtomicRmwAdd

Fields

§ordering: Ordering
§global_index: u32
§

GlobalAtomicRmwSub

Fields

§ordering: Ordering
§global_index: u32
§

GlobalAtomicRmwAnd

Fields

§ordering: Ordering
§global_index: u32
§

GlobalAtomicRmwOr

Fields

§ordering: Ordering
§global_index: u32
§

GlobalAtomicRmwXor

Fields

§ordering: Ordering
§global_index: u32
§

GlobalAtomicRmwXchg

Fields

§ordering: Ordering
§global_index: u32
§

GlobalAtomicRmwCmpxchg

Fields

§ordering: Ordering
§global_index: u32
§

TableAtomicGet

Fields

§ordering: Ordering
§table_index: u32
§

TableAtomicSet

Fields

§ordering: Ordering
§table_index: u32
§

TableAtomicRmwXchg

Fields

§ordering: Ordering
§table_index: u32
§

TableAtomicRmwCmpxchg

Fields

§ordering: Ordering
§table_index: u32
§

StructAtomicGet

Fields

§ordering: Ordering
§struct_type_index: u32
§field_index: u32
§

StructAtomicGetS

Fields

§ordering: Ordering
§struct_type_index: u32
§field_index: u32
§

StructAtomicGetU

Fields

§ordering: Ordering
§struct_type_index: u32
§field_index: u32
§

StructAtomicSet

Fields

§ordering: Ordering
§struct_type_index: u32
§field_index: u32
§

StructAtomicRmwAdd

Fields

§ordering: Ordering
§struct_type_index: u32
§field_index: u32
§

StructAtomicRmwSub

Fields

§ordering: Ordering
§struct_type_index: u32
§field_index: u32
§

StructAtomicRmwAnd

Fields

§ordering: Ordering
§struct_type_index: u32
§field_index: u32
§

StructAtomicRmwOr

Fields

§ordering: Ordering
§struct_type_index: u32
§field_index: u32
§

StructAtomicRmwXor

Fields

§ordering: Ordering
§struct_type_index: u32
§field_index: u32
§

StructAtomicRmwXchg

Fields

§ordering: Ordering
§struct_type_index: u32
§field_index: u32
§

StructAtomicRmwCmpxchg

Fields

§ordering: Ordering
§struct_type_index: u32
§field_index: u32
§

ArrayAtomicGet

Fields

§ordering: Ordering
§array_type_index: u32
§

ArrayAtomicGetS

Fields

§ordering: Ordering
§array_type_index: u32
§

ArrayAtomicGetU

Fields

§ordering: Ordering
§array_type_index: u32
§

ArrayAtomicSet

Fields

§ordering: Ordering
§array_type_index: u32
§

ArrayAtomicRmwAdd

Fields

§ordering: Ordering
§array_type_index: u32
§

ArrayAtomicRmwSub

Fields

§ordering: Ordering
§array_type_index: u32
§

ArrayAtomicRmwAnd

Fields

§ordering: Ordering
§array_type_index: u32
§

ArrayAtomicRmwOr

Fields

§ordering: Ordering
§array_type_index: u32
§

ArrayAtomicRmwXor

Fields

§ordering: Ordering
§array_type_index: u32
§

ArrayAtomicRmwXchg

Fields

§ordering: Ordering
§array_type_index: u32
§

ArrayAtomicRmwCmpxchg

Fields

§ordering: Ordering
§array_type_index: u32
§

RefI31Shared

§

ContNew(u32)

§

ContBind

Fields

§argument_index: u32
§result_index: u32
§

Suspend(u32)

§

Resume

Fields

§cont_type_index: u32
§resume_table: Cow<'a, [Handle]>
§

ResumeThrow

Fields

§cont_type_index: u32
§tag_index: u32
§resume_table: Cow<'a, [Handle]>
§

Switch

Fields

§cont_type_index: u32
§tag_index: u32
§

I64Add128

§

I64Sub128

§

I64MulWideS

§

I64MulWideU

Trait Implementations§

source§

impl<'a> Clone for Instruction<'a>

source§

fn clone(&self) -> Instruction<'a>

Returns a copy of the value. Read more
1.0.0 · source§

fn clone_from(&mut self, source: &Self)

Performs copy-assignment from source. Read more
source§

impl<'a> Debug for Instruction<'a>

source§

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

Formats the value using the given formatter. Read more
source§

impl Encode for Instruction<'_>

source§

fn encode(&self, sink: &mut Vec<u8>)

Encode the type into the given byte sink.
source§

impl<'a> TryFrom<Operator<'a>> for Instruction<'a>

source§

type Error = Error

The type returned in the event of a conversion error.
source§

fn try_from(arg: Operator<'a>) -> Result<Self, Self::Error>

Performs the conversion.

Auto Trait Implementations§

§

impl<'a> Freeze for Instruction<'a>

§

impl<'a> RefUnwindSafe for Instruction<'a>

§

impl<'a> Send for Instruction<'a>

§

impl<'a> Sync for Instruction<'a>

§

impl<'a> Unpin for Instruction<'a>

§

impl<'a> UnwindSafe for Instruction<'a>

Blanket Implementations§

source§

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

source§

fn type_id(&self) -> TypeId

Gets the TypeId of self. Read more
source§

impl<T> Borrow<T> for T
where T: ?Sized,

source§

fn borrow(&self) -> &T

Immutably borrows from an owned value. Read more
source§

impl<T> BorrowMut<T> for T
where T: ?Sized,

source§

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

Mutably borrows from an owned value. Read more
source§

impl<T> CloneToUninit for T
where T: Clone,

source§

unsafe fn clone_to_uninit(&self, dst: *mut T)

🔬This is a nightly-only experimental API. (clone_to_uninit)
Performs copy-assignment from self to dst. Read more
source§

impl<T> From<T> for T

source§

fn from(t: T) -> T

Returns the argument unchanged.

source§

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

source§

fn into(self) -> U

Calls U::from(self).

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

source§

impl<T> ToOwned for T
where T: Clone,

source§

type Owned = T

The resulting type after obtaining ownership.
source§

fn to_owned(&self) -> T

Creates owned data from borrowed data, usually by cloning. Read more
source§

fn clone_into(&self, target: &mut T)

Uses borrowed data to replace owned data, usually by cloning. Read more
source§

impl<T, U> TryFrom<U> for T
where U: Into<T>,

source§

type Error = Infallible

The type returned in the event of a conversion error.
source§

fn try_from(value: U) -> Result<T, <T as TryFrom<U>>::Error>

Performs the conversion.
source§

impl<T, U> TryInto<U> for T
where U: TryFrom<T>,

source§

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

The type returned in the event of a conversion error.
source§

fn try_into(self) -> Result<U, <U as TryFrom<T>>::Error>

Performs the conversion.