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[dev.simd] cmd/compile: updates simd ordering and docs

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This CL is generated by CL 681395.

Change-Id: Ic930aeeb24fc7f95a4d74c77403532d0b0eb39ff
Reviewed-on: https://go-review.googlesource.com/c/go/+/681215
Auto-Submit: Junyang Shao <shaojunyang@google.com>
Reviewed-by: Junyang Shao <shaojunyang@google.com>
LUCI-TryBot-Result: Go LUCI <golang-scoped@luci-project-accounts.iam.gserviceaccount.com>
Reviewed-by: Cherry Mui <cherryyz@google.com>
This commit is contained in:
Junyang Shao 2025-06-12 03:54:34 +00:00 committed by Gopher Robot
parent c81cb05e3e
commit 5289e0f24e
8 changed files with 10065 additions and 14958 deletions
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3131
src/cmd/compile/internal/amd64/simdssa.go
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2101
src/cmd/compile/internal/ssa/_gen/simdAMD64.rules
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src/cmd/compile/internal/ssa/_gen/simdAMD64ops.go
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src/cmd/compile/internal/ssa/opGen.go
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src/cmd/compile/internal/ssa/rewriteAMD64.go
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766
src/cmd/compile/internal/ssagen/simdintrinsics.go
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@ -1083,408 +1083,408 @@ func simdIntrinsics(addF func(pkg, fn string, b intrinsicBuilder, archFamilies .
addF(simdPackage, "Uint8x64.MaskedSaturatedAdd", opLen3(ssa.OpMaskedSaturatedAddUint8x64, types.TypeVec512), sys.AMD64) addF(simdPackage, "Uint8x64.MaskedSaturatedAdd", opLen3(ssa.OpMaskedSaturatedAddUint8x64, types.TypeVec512), sys.AMD64)
addF(simdPackage, "Uint8x64.MaskedSaturatedSub", opLen3(ssa.OpMaskedSaturatedSubUint8x64, types.TypeVec512), sys.AMD64) addF(simdPackage, "Uint8x64.MaskedSaturatedSub", opLen3(ssa.OpMaskedSaturatedSubUint8x64, types.TypeVec512), sys.AMD64)
addF(simdPackage, "Uint8x64.MaskedSub", opLen3(ssa.OpMaskedSubUint8x64, types.TypeVec512), sys.AMD64) addF(simdPackage, "Uint8x64.MaskedSub", opLen3(ssa.OpMaskedSubUint8x64, types.TypeVec512), sys.AMD64)
addF(simdPackage, "Int16x16.AsInt32x8", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int16x16.AsUint64x4", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int16x16.AsInt64x4", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int16x16.AsFloat64x4", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int16x16.AsFloat32x8", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int16x16.AsUint16x16", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int16x16.AsInt8x32", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int16x16.AsUint8x32", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int16x16.AsUint32x8", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int32x8.AsInt16x16", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int32x8.AsUint64x4", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int32x8.AsInt64x4", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int32x8.AsFloat64x4", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int32x8.AsFloat32x8", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int32x8.AsUint16x16", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int32x8.AsInt8x32", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int32x8.AsUint8x32", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int32x8.AsUint32x8", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint64x4.AsInt16x16", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint64x4.AsInt32x8", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint64x4.AsInt64x4", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint64x4.AsFloat64x4", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint64x4.AsFloat32x8", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint64x4.AsUint16x16", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint64x4.AsInt8x32", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint64x4.AsUint8x32", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint64x4.AsUint32x8", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int64x4.AsInt16x16", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int64x4.AsInt32x8", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int64x4.AsUint64x4", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int64x4.AsFloat64x4", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int64x4.AsFloat32x8", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int64x4.AsUint16x16", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int64x4.AsInt8x32", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int64x4.AsUint8x32", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int64x4.AsUint32x8", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Float64x4.AsInt16x16", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Float64x4.AsInt32x8", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Float64x4.AsUint64x4", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Float64x4.AsInt64x4", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Float64x4.AsFloat32x8", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Float64x4.AsUint16x16", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Float64x4.AsInt8x32", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Float64x4.AsUint8x32", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Float64x4.AsUint32x8", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Float32x8.AsInt16x16", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Float32x8.AsInt32x8", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Float32x8.AsUint64x4", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Float32x8.AsInt64x4", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Float32x8.AsFloat64x4", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Float32x8.AsUint16x16", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Float32x8.AsInt8x32", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Float32x8.AsUint8x32", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Float32x8.AsUint32x8", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint16x16.AsInt16x16", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint16x16.AsInt32x8", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint16x16.AsUint64x4", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint16x16.AsInt64x4", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint16x16.AsFloat64x4", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint16x16.AsFloat32x8", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint16x16.AsInt8x32", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint16x16.AsUint8x32", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint16x16.AsUint32x8", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int8x32.AsInt16x16", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int8x32.AsInt32x8", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int8x32.AsUint64x4", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int8x32.AsInt64x4", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int8x32.AsFloat64x4", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int8x32.AsFloat32x8", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int8x32.AsUint16x16", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int8x32.AsUint8x32", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int8x32.AsUint32x8", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint8x32.AsInt16x16", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint8x32.AsInt32x8", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint8x32.AsUint64x4", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint8x32.AsInt64x4", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint8x32.AsFloat64x4", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint8x32.AsFloat32x8", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint8x32.AsUint16x16", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint8x32.AsInt8x32", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint8x32.AsUint32x8", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint32x8.AsInt16x16", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint32x8.AsInt32x8", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint32x8.AsUint64x4", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint32x8.AsInt64x4", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint32x8.AsFloat64x4", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint32x8.AsFloat32x8", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint32x8.AsUint16x16", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint32x8.AsInt8x32", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint32x8.AsUint8x32", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Float64x8.AsInt64x8", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Float64x8.AsUint8x64", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Float64x8.AsInt8x64", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Float64x8.AsFloat32x16", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Float64x8.AsInt32x16", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Float64x8.AsUint16x32", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Float64x8.AsInt16x32", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Float64x8.AsUint64x8", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Float64x8.AsUint32x16", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int64x8.AsFloat64x8", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int64x8.AsUint8x64", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int64x8.AsInt8x64", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int64x8.AsFloat32x16", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int64x8.AsInt32x16", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int64x8.AsUint16x32", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int64x8.AsInt16x32", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int64x8.AsUint64x8", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int64x8.AsUint32x16", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint8x64.AsFloat64x8", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint8x64.AsInt64x8", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint8x64.AsInt8x64", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint8x64.AsFloat32x16", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint8x64.AsInt32x16", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint8x64.AsUint16x32", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint8x64.AsInt16x32", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint8x64.AsUint64x8", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint8x64.AsUint32x16", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int8x64.AsFloat64x8", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int8x64.AsInt64x8", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int8x64.AsUint8x64", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int8x64.AsFloat32x16", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int8x64.AsInt32x16", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int8x64.AsUint16x32", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int8x64.AsInt16x32", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int8x64.AsUint64x8", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int8x64.AsUint32x16", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Float32x16.AsFloat64x8", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64) addF(simdPackage, "Float32x16.AsFloat64x8", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Float32x16.AsInt64x8", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Float32x16.AsUint8x64", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Float32x16.AsInt8x64", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Float32x16.AsInt32x16", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Float32x16.AsUint16x32", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Float32x16.AsInt16x32", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64) addF(simdPackage, "Float32x16.AsInt16x32", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Float32x16.AsUint64x8", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64) addF(simdPackage, "Float32x16.AsInt32x16", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Float32x16.AsInt64x8", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Float32x16.AsInt8x64", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Float32x16.AsUint16x32", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Float32x16.AsUint32x16", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64) addF(simdPackage, "Float32x16.AsUint32x16", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int32x16.AsFloat64x8", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64) addF(simdPackage, "Float32x16.AsUint64x8", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int32x16.AsInt64x8", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64) addF(simdPackage, "Float32x16.AsUint8x64", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int32x16.AsUint8x64", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64) addF(simdPackage, "Float32x4.AsFloat64x2", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int32x16.AsInt8x64", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64) addF(simdPackage, "Float32x4.AsInt16x8", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int32x16.AsFloat32x16", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int32x16.AsUint16x32", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int32x16.AsInt16x32", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int32x16.AsUint64x8", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int32x16.AsUint32x16", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint16x32.AsFloat64x8", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint16x32.AsInt64x8", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint16x32.AsUint8x64", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint16x32.AsInt8x64", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint16x32.AsFloat32x16", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint16x32.AsInt32x16", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint16x32.AsInt16x32", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint16x32.AsUint64x8", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint16x32.AsUint32x16", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int16x32.AsFloat64x8", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int16x32.AsInt64x8", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int16x32.AsUint8x64", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int16x32.AsInt8x64", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int16x32.AsFloat32x16", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int16x32.AsInt32x16", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int16x32.AsUint16x32", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int16x32.AsUint64x8", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int16x32.AsUint32x16", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint64x8.AsFloat64x8", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint64x8.AsInt64x8", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint64x8.AsUint8x64", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint64x8.AsInt8x64", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint64x8.AsFloat32x16", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint64x8.AsInt32x16", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint64x8.AsUint16x32", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint64x8.AsInt16x32", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint64x8.AsUint32x16", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint32x16.AsFloat64x8", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint32x16.AsInt64x8", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint32x16.AsUint8x64", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint32x16.AsInt8x64", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint32x16.AsFloat32x16", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint32x16.AsInt32x16", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint32x16.AsUint16x32", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint32x16.AsInt16x32", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint32x16.AsUint64x8", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int32x4.AsInt8x16", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int32x4.AsUint16x8", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int32x4.AsInt16x8", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int32x4.AsFloat32x4", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int32x4.AsUint64x2", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int32x4.AsFloat64x2", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int32x4.AsInt64x2", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int32x4.AsUint8x16", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int32x4.AsUint32x4", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int8x16.AsInt32x4", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int8x16.AsUint16x8", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int8x16.AsInt16x8", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int8x16.AsFloat32x4", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int8x16.AsUint64x2", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int8x16.AsFloat64x2", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int8x16.AsInt64x2", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int8x16.AsUint8x16", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int8x16.AsUint32x4", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint16x8.AsInt32x4", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint16x8.AsInt8x16", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint16x8.AsInt16x8", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint16x8.AsFloat32x4", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint16x8.AsUint64x2", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint16x8.AsFloat64x2", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint16x8.AsInt64x2", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint16x8.AsUint8x16", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint16x8.AsUint32x4", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int16x8.AsInt32x4", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int16x8.AsInt8x16", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int16x8.AsUint16x8", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int16x8.AsFloat32x4", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int16x8.AsUint64x2", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int16x8.AsFloat64x2", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int16x8.AsInt64x2", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int16x8.AsUint8x16", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int16x8.AsUint32x4", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Float32x4.AsInt32x4", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64) addF(simdPackage, "Float32x4.AsInt32x4", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Float32x4.AsInt64x2", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Float32x4.AsInt8x16", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64) addF(simdPackage, "Float32x4.AsInt8x16", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Float32x4.AsUint16x8", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64) addF(simdPackage, "Float32x4.AsUint16x8", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Float32x4.AsInt16x8", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Float32x4.AsUint64x2", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Float32x4.AsFloat64x2", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Float32x4.AsInt64x2", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Float32x4.AsUint8x16", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Float32x4.AsUint32x4", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64) addF(simdPackage, "Float32x4.AsUint32x4", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint64x2.AsInt32x4", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64) addF(simdPackage, "Float32x4.AsUint64x2", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint64x2.AsInt8x16", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64) addF(simdPackage, "Float32x4.AsUint8x16", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint64x2.AsUint16x8", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64) addF(simdPackage, "Float32x8.AsFloat64x4", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint64x2.AsInt16x8", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64) addF(simdPackage, "Float32x8.AsInt16x16", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint64x2.AsFloat32x4", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64) addF(simdPackage, "Float32x8.AsInt32x8", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint64x2.AsFloat64x2", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64) addF(simdPackage, "Float32x8.AsInt64x4", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint64x2.AsInt64x2", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64) addF(simdPackage, "Float32x8.AsInt8x32", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint64x2.AsUint8x16", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64) addF(simdPackage, "Float32x8.AsUint16x16", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint64x2.AsUint32x4", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64) addF(simdPackage, "Float32x8.AsUint32x8", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Float32x8.AsUint64x4", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Float32x8.AsUint8x32", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Float64x2.AsFloat32x4", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Float64x2.AsInt16x8", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Float64x2.AsInt32x4", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64) addF(simdPackage, "Float64x2.AsInt32x4", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Float64x2.AsInt64x2", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Float64x2.AsInt8x16", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64) addF(simdPackage, "Float64x2.AsInt8x16", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Float64x2.AsUint16x8", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64) addF(simdPackage, "Float64x2.AsUint16x8", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Float64x2.AsInt16x8", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Float64x2.AsFloat32x4", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Float64x2.AsUint64x2", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Float64x2.AsInt64x2", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Float64x2.AsUint8x16", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Float64x2.AsUint32x4", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64) addF(simdPackage, "Float64x2.AsUint32x4", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Float64x2.AsUint64x2", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Float64x2.AsUint8x16", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Float64x4.AsFloat32x8", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Float64x4.AsInt16x16", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Float64x4.AsInt32x8", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Float64x4.AsInt64x4", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Float64x4.AsInt8x32", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Float64x4.AsUint16x16", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Float64x4.AsUint32x8", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Float64x4.AsUint64x4", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Float64x4.AsUint8x32", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Float64x8.AsFloat32x16", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Float64x8.AsInt16x32", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Float64x8.AsInt32x16", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Float64x8.AsInt64x8", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Float64x8.AsInt8x64", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Float64x8.AsUint16x32", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Float64x8.AsUint32x16", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Float64x8.AsUint64x8", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Float64x8.AsUint8x64", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int16x16.AsFloat32x8", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int16x16.AsFloat64x4", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int16x16.AsInt32x8", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int16x16.AsInt64x4", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int16x16.AsInt8x32", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int16x16.AsUint16x16", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int16x16.AsUint32x8", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int16x16.AsUint64x4", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int16x16.AsUint8x32", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int16x32.AsFloat32x16", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int16x32.AsFloat64x8", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int16x32.AsInt32x16", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int16x32.AsInt64x8", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int16x32.AsInt8x64", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int16x32.AsUint16x32", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int16x32.AsUint32x16", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int16x32.AsUint64x8", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int16x32.AsUint8x64", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int16x8.AsFloat32x4", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int16x8.AsFloat64x2", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int16x8.AsInt32x4", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int16x8.AsInt64x2", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int16x8.AsInt8x16", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int16x8.AsUint16x8", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int16x8.AsUint32x4", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int16x8.AsUint64x2", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int16x8.AsUint8x16", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int32x16.AsFloat32x16", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int32x16.AsFloat64x8", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int32x16.AsInt16x32", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int32x16.AsInt64x8", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int32x16.AsInt8x64", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int32x16.AsUint16x32", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int32x16.AsUint32x16", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int32x16.AsUint64x8", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int32x16.AsUint8x64", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int32x4.AsFloat32x4", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int32x4.AsFloat64x2", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int32x4.AsInt16x8", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int32x4.AsInt64x2", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int32x4.AsInt8x16", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int32x4.AsUint16x8", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int32x4.AsUint32x4", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int32x4.AsUint64x2", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int32x4.AsUint8x16", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int32x8.AsFloat32x8", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int32x8.AsFloat64x4", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int32x8.AsInt16x16", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int32x8.AsInt64x4", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int32x8.AsInt8x32", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int32x8.AsUint16x16", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int32x8.AsUint32x8", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int32x8.AsUint64x4", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int32x8.AsUint8x32", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int64x2.AsFloat32x4", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int64x2.AsFloat64x2", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int64x2.AsInt16x8", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int64x2.AsInt32x4", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64) addF(simdPackage, "Int64x2.AsInt32x4", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int64x2.AsInt8x16", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64) addF(simdPackage, "Int64x2.AsInt8x16", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int64x2.AsUint16x8", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64) addF(simdPackage, "Int64x2.AsUint16x8", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int64x2.AsInt16x8", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int64x2.AsFloat32x4", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int64x2.AsUint64x2", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int64x2.AsFloat64x2", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int64x2.AsUint8x16", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int64x2.AsUint32x4", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64) addF(simdPackage, "Int64x2.AsUint32x4", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint8x16.AsInt32x4", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64) addF(simdPackage, "Int64x2.AsUint64x2", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint8x16.AsInt8x16", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64) addF(simdPackage, "Int64x2.AsUint8x16", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint8x16.AsUint16x8", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64) addF(simdPackage, "Int64x4.AsFloat32x8", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint8x16.AsInt16x8", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64) addF(simdPackage, "Int64x4.AsFloat64x4", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint8x16.AsFloat32x4", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64) addF(simdPackage, "Int64x4.AsInt16x16", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint8x16.AsUint64x2", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64) addF(simdPackage, "Int64x4.AsInt32x8", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint8x16.AsFloat64x2", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64) addF(simdPackage, "Int64x4.AsInt8x32", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint8x16.AsInt64x2", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64) addF(simdPackage, "Int64x4.AsUint16x16", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint8x16.AsUint32x4", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64) addF(simdPackage, "Int64x4.AsUint32x8", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int64x4.AsUint64x4", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int64x4.AsUint8x32", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int64x8.AsFloat32x16", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int64x8.AsFloat64x8", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int64x8.AsInt16x32", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int64x8.AsInt32x16", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int64x8.AsInt8x64", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int64x8.AsUint16x32", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int64x8.AsUint32x16", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int64x8.AsUint64x8", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int64x8.AsUint8x64", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int8x16.AsFloat32x4", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int8x16.AsFloat64x2", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int8x16.AsInt16x8", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int8x16.AsInt32x4", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int8x16.AsInt64x2", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int8x16.AsUint16x8", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int8x16.AsUint32x4", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int8x16.AsUint64x2", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int8x16.AsUint8x16", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int8x32.AsFloat32x8", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int8x32.AsFloat64x4", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int8x32.AsInt16x16", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int8x32.AsInt32x8", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int8x32.AsInt64x4", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int8x32.AsUint16x16", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int8x32.AsUint32x8", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int8x32.AsUint64x4", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int8x32.AsUint8x32", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int8x64.AsFloat32x16", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int8x64.AsFloat64x8", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int8x64.AsInt16x32", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int8x64.AsInt32x16", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int8x64.AsInt64x8", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int8x64.AsUint16x32", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int8x64.AsUint32x16", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int8x64.AsUint64x8", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int8x64.AsUint8x64", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint16x16.AsFloat32x8", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint16x16.AsFloat64x4", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint16x16.AsInt16x16", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint16x16.AsInt32x8", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint16x16.AsInt64x4", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint16x16.AsInt8x32", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint16x16.AsUint32x8", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint16x16.AsUint64x4", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint16x16.AsUint8x32", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint16x32.AsFloat32x16", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint16x32.AsFloat64x8", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint16x32.AsInt16x32", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint16x32.AsInt32x16", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint16x32.AsInt64x8", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint16x32.AsInt8x64", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint16x32.AsUint32x16", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint16x32.AsUint64x8", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint16x32.AsUint8x64", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint16x8.AsFloat32x4", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint16x8.AsFloat64x2", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint16x8.AsInt16x8", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint16x8.AsInt32x4", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint16x8.AsInt64x2", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint16x8.AsInt8x16", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint16x8.AsUint32x4", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint16x8.AsUint64x2", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint16x8.AsUint8x16", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint32x16.AsFloat32x16", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint32x16.AsFloat64x8", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint32x16.AsInt16x32", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint32x16.AsInt32x16", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint32x16.AsInt64x8", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint32x16.AsInt8x64", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint32x16.AsUint16x32", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint32x16.AsUint64x8", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint32x16.AsUint8x64", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint32x4.AsFloat32x4", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint32x4.AsFloat64x2", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint32x4.AsInt16x8", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint32x4.AsInt32x4", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64) addF(simdPackage, "Uint32x4.AsInt32x4", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint32x4.AsInt64x2", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint32x4.AsInt8x16", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64) addF(simdPackage, "Uint32x4.AsInt8x16", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint32x4.AsUint16x8", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64) addF(simdPackage, "Uint32x4.AsUint16x8", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint32x4.AsInt16x8", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint32x4.AsFloat32x4", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint32x4.AsUint64x2", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64) addF(simdPackage, "Uint32x4.AsUint64x2", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint32x4.AsFloat64x2", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint32x4.AsInt64x2", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint32x4.AsUint8x16", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64) addF(simdPackage, "Uint32x4.AsUint8x16", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "LoadInt32x4", simdLoad(), sys.AMD64) addF(simdPackage, "Uint32x8.AsFloat32x8", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int32x4.Store", simdStore(), sys.AMD64) addF(simdPackage, "Uint32x8.AsFloat64x4", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "LoadMask32x4", simdLoad(), sys.AMD64) addF(simdPackage, "Uint32x8.AsInt16x16", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Mask32x4.Store", simdStore(), sys.AMD64) addF(simdPackage, "Uint32x8.AsInt32x8", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "LoadInt8x16", simdLoad(), sys.AMD64) addF(simdPackage, "Uint32x8.AsInt64x4", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int8x16.Store", simdStore(), sys.AMD64) addF(simdPackage, "Uint32x8.AsInt8x32", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "LoadMask8x16", simdLoad(), sys.AMD64) addF(simdPackage, "Uint32x8.AsUint16x16", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Mask8x16.Store", simdStore(), sys.AMD64) addF(simdPackage, "Uint32x8.AsUint64x4", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "LoadUint16x8", simdLoad(), sys.AMD64) addF(simdPackage, "Uint32x8.AsUint8x32", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint16x8.Store", simdStore(), sys.AMD64) addF(simdPackage, "Uint64x2.AsFloat32x4", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "LoadMask16x8", simdLoad(), sys.AMD64) addF(simdPackage, "Uint64x2.AsFloat64x2", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Mask16x8.Store", simdStore(), sys.AMD64) addF(simdPackage, "Uint64x2.AsInt16x8", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint64x2.AsInt32x4", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint64x2.AsInt64x2", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint64x2.AsInt8x16", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint64x2.AsUint16x8", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint64x2.AsUint32x4", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint64x2.AsUint8x16", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint64x4.AsFloat32x8", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint64x4.AsFloat64x4", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint64x4.AsInt16x16", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint64x4.AsInt32x8", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint64x4.AsInt64x4", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint64x4.AsInt8x32", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint64x4.AsUint16x16", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint64x4.AsUint32x8", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint64x4.AsUint8x32", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint64x8.AsFloat32x16", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint64x8.AsFloat64x8", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint64x8.AsInt16x32", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint64x8.AsInt32x16", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint64x8.AsInt64x8", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint64x8.AsInt8x64", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint64x8.AsUint16x32", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint64x8.AsUint32x16", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint64x8.AsUint8x64", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint8x16.AsFloat32x4", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint8x16.AsFloat64x2", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint8x16.AsInt16x8", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint8x16.AsInt32x4", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint8x16.AsInt64x2", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint8x16.AsInt8x16", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint8x16.AsUint16x8", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint8x16.AsUint32x4", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint8x16.AsUint64x2", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint8x32.AsFloat32x8", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint8x32.AsFloat64x4", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint8x32.AsInt16x16", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint8x32.AsInt32x8", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint8x32.AsInt64x4", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint8x32.AsInt8x32", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint8x32.AsUint16x16", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint8x32.AsUint32x8", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint8x32.AsUint64x4", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint8x64.AsFloat32x16", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint8x64.AsFloat64x8", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint8x64.AsInt16x32", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint8x64.AsInt32x16", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint8x64.AsInt64x8", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint8x64.AsInt8x64", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint8x64.AsUint16x32", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint8x64.AsUint32x16", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Uint8x64.AsUint64x8", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "LoadInt16x8", simdLoad(), sys.AMD64) addF(simdPackage, "LoadInt16x8", simdLoad(), sys.AMD64)
addF(simdPackage, "Int16x8.Store", simdStore(), sys.AMD64) addF(simdPackage, "Int16x8.Store", simdStore(), sys.AMD64)
addF(simdPackage, "LoadFloat32x4", simdLoad(), sys.AMD64) addF(simdPackage, "LoadInt32x4", simdLoad(), sys.AMD64)
addF(simdPackage, "Float32x4.Store", simdStore(), sys.AMD64) addF(simdPackage, "Int32x4.Store", simdStore(), sys.AMD64)
addF(simdPackage, "LoadUint64x2", simdLoad(), sys.AMD64) addF(simdPackage, "LoadInt8x16", simdLoad(), sys.AMD64)
addF(simdPackage, "Uint64x2.Store", simdStore(), sys.AMD64) addF(simdPackage, "Int8x16.Store", simdStore(), sys.AMD64)
addF(simdPackage, "LoadFloat64x2", simdLoad(), sys.AMD64)
addF(simdPackage, "Float64x2.Store", simdStore(), sys.AMD64)
addF(simdPackage, "LoadMask64x2", simdLoad(), sys.AMD64)
addF(simdPackage, "Mask64x2.Store", simdStore(), sys.AMD64)
addF(simdPackage, "LoadInt64x2", simdLoad(), sys.AMD64) addF(simdPackage, "LoadInt64x2", simdLoad(), sys.AMD64)
addF(simdPackage, "Int64x2.Store", simdStore(), sys.AMD64) addF(simdPackage, "Int64x2.Store", simdStore(), sys.AMD64)
addF(simdPackage, "LoadUint8x16", simdLoad(), sys.AMD64) addF(simdPackage, "LoadMask64x2", simdLoad(), sys.AMD64)
addF(simdPackage, "Uint8x16.Store", simdStore(), sys.AMD64) addF(simdPackage, "Mask64x2.Store", simdStore(), sys.AMD64)
addF(simdPackage, "LoadFloat32x4", simdLoad(), sys.AMD64)
addF(simdPackage, "Float32x4.Store", simdStore(), sys.AMD64)
addF(simdPackage, "LoadFloat64x2", simdLoad(), sys.AMD64)
addF(simdPackage, "Float64x2.Store", simdStore(), sys.AMD64)
addF(simdPackage, "LoadUint16x8", simdLoad(), sys.AMD64)
addF(simdPackage, "Uint16x8.Store", simdStore(), sys.AMD64)
addF(simdPackage, "LoadUint32x4", simdLoad(), sys.AMD64) addF(simdPackage, "LoadUint32x4", simdLoad(), sys.AMD64)
addF(simdPackage, "Uint32x4.Store", simdStore(), sys.AMD64) addF(simdPackage, "Uint32x4.Store", simdStore(), sys.AMD64)
addF(simdPackage, "LoadUint64x2", simdLoad(), sys.AMD64)
addF(simdPackage, "Uint64x2.Store", simdStore(), sys.AMD64)
addF(simdPackage, "LoadUint8x16", simdLoad(), sys.AMD64)
addF(simdPackage, "Uint8x16.Store", simdStore(), sys.AMD64)
addF(simdPackage, "LoadMask32x4", simdLoad(), sys.AMD64)
addF(simdPackage, "Mask32x4.Store", simdStore(), sys.AMD64)
addF(simdPackage, "LoadMask16x8", simdLoad(), sys.AMD64)
addF(simdPackage, "Mask16x8.Store", simdStore(), sys.AMD64)
addF(simdPackage, "LoadMask8x16", simdLoad(), sys.AMD64)
addF(simdPackage, "Mask8x16.Store", simdStore(), sys.AMD64)
addF(simdPackage, "LoadInt16x16", simdLoad(), sys.AMD64) addF(simdPackage, "LoadInt16x16", simdLoad(), sys.AMD64)
addF(simdPackage, "Int16x16.Store", simdStore(), sys.AMD64) addF(simdPackage, "Int16x16.Store", simdStore(), sys.AMD64)
addF(simdPackage, "LoadInt32x8", simdLoad(), sys.AMD64) addF(simdPackage, "LoadInt32x8", simdLoad(), sys.AMD64)
addF(simdPackage, "Int32x8.Store", simdStore(), sys.AMD64) addF(simdPackage, "Int32x8.Store", simdStore(), sys.AMD64)
addF(simdPackage, "LoadUint64x4", simdLoad(), sys.AMD64)
addF(simdPackage, "Uint64x4.Store", simdStore(), sys.AMD64)
addF(simdPackage, "LoadMask64x4", simdLoad(), sys.AMD64)
addF(simdPackage, "Mask64x4.Store", simdStore(), sys.AMD64)
addF(simdPackage, "LoadInt64x4", simdLoad(), sys.AMD64)
addF(simdPackage, "Int64x4.Store", simdStore(), sys.AMD64)
addF(simdPackage, "LoadFloat64x4", simdLoad(), sys.AMD64)
addF(simdPackage, "Float64x4.Store", simdStore(), sys.AMD64)
addF(simdPackage, "LoadMask16x16", simdLoad(), sys.AMD64)
addF(simdPackage, "Mask16x16.Store", simdStore(), sys.AMD64)
addF(simdPackage, "LoadMask32x8", simdLoad(), sys.AMD64)
addF(simdPackage, "Mask32x8.Store", simdStore(), sys.AMD64)
addF(simdPackage, "LoadFloat32x8", simdLoad(), sys.AMD64)
addF(simdPackage, "Float32x8.Store", simdStore(), sys.AMD64)
addF(simdPackage, "LoadUint16x16", simdLoad(), sys.AMD64)
addF(simdPackage, "Uint16x16.Store", simdStore(), sys.AMD64)
addF(simdPackage, "LoadInt8x32", simdLoad(), sys.AMD64) addF(simdPackage, "LoadInt8x32", simdLoad(), sys.AMD64)
addF(simdPackage, "Int8x32.Store", simdStore(), sys.AMD64) addF(simdPackage, "Int8x32.Store", simdStore(), sys.AMD64)
addF(simdPackage, "LoadUint8x32", simdLoad(), sys.AMD64) addF(simdPackage, "LoadInt64x4", simdLoad(), sys.AMD64)
addF(simdPackage, "Uint8x32.Store", simdStore(), sys.AMD64) addF(simdPackage, "Int64x4.Store", simdStore(), sys.AMD64)
addF(simdPackage, "LoadMask8x32", simdLoad(), sys.AMD64) addF(simdPackage, "LoadMask64x4", simdLoad(), sys.AMD64)
addF(simdPackage, "Mask8x32.Store", simdStore(), sys.AMD64) addF(simdPackage, "Mask64x4.Store", simdStore(), sys.AMD64)
addF(simdPackage, "LoadFloat32x8", simdLoad(), sys.AMD64)
addF(simdPackage, "Float32x8.Store", simdStore(), sys.AMD64)
addF(simdPackage, "LoadFloat64x4", simdLoad(), sys.AMD64)
addF(simdPackage, "Float64x4.Store", simdStore(), sys.AMD64)
addF(simdPackage, "LoadUint16x16", simdLoad(), sys.AMD64)
addF(simdPackage, "Uint16x16.Store", simdStore(), sys.AMD64)
addF(simdPackage, "LoadUint32x8", simdLoad(), sys.AMD64) addF(simdPackage, "LoadUint32x8", simdLoad(), sys.AMD64)
addF(simdPackage, "Uint32x8.Store", simdStore(), sys.AMD64) addF(simdPackage, "Uint32x8.Store", simdStore(), sys.AMD64)
addF(simdPackage, "LoadFloat64x8", simdLoad(), sys.AMD64) addF(simdPackage, "LoadUint64x4", simdLoad(), sys.AMD64)
addF(simdPackage, "Float64x8.Store", simdStore(), sys.AMD64) addF(simdPackage, "Uint64x4.Store", simdStore(), sys.AMD64)
addF(simdPackage, "LoadMask64x8", simdLoad(), sys.AMD64) addF(simdPackage, "LoadUint8x32", simdLoad(), sys.AMD64)
addF(simdPackage, "Mask64x8.Store", simdStore(), sys.AMD64) addF(simdPackage, "Uint8x32.Store", simdStore(), sys.AMD64)
addF(simdPackage, "LoadInt64x8", simdLoad(), sys.AMD64) addF(simdPackage, "LoadMask32x8", simdLoad(), sys.AMD64)
addF(simdPackage, "Int64x8.Store", simdStore(), sys.AMD64) addF(simdPackage, "Mask32x8.Store", simdStore(), sys.AMD64)
addF(simdPackage, "LoadUint8x64", simdLoad(), sys.AMD64) addF(simdPackage, "LoadMask16x16", simdLoad(), sys.AMD64)
addF(simdPackage, "Uint8x64.Store", simdStore(), sys.AMD64) addF(simdPackage, "Mask16x16.Store", simdStore(), sys.AMD64)
addF(simdPackage, "LoadMask8x64", simdLoad(), sys.AMD64) addF(simdPackage, "LoadMask8x32", simdLoad(), sys.AMD64)
addF(simdPackage, "Mask8x64.Store", simdStore(), sys.AMD64) addF(simdPackage, "Mask8x32.Store", simdStore(), sys.AMD64)
addF(simdPackage, "LoadInt8x64", simdLoad(), sys.AMD64)
addF(simdPackage, "Int8x64.Store", simdStore(), sys.AMD64)
addF(simdPackage, "LoadFloat32x16", simdLoad(), sys.AMD64)
addF(simdPackage, "Float32x16.Store", simdStore(), sys.AMD64)
addF(simdPackage, "LoadMask32x16", simdLoad(), sys.AMD64)
addF(simdPackage, "Mask32x16.Store", simdStore(), sys.AMD64)
addF(simdPackage, "LoadInt32x16", simdLoad(), sys.AMD64)
addF(simdPackage, "Int32x16.Store", simdStore(), sys.AMD64)
addF(simdPackage, "LoadUint16x32", simdLoad(), sys.AMD64)
addF(simdPackage, "Uint16x32.Store", simdStore(), sys.AMD64)
addF(simdPackage, "LoadMask16x32", simdLoad(), sys.AMD64)
addF(simdPackage, "Mask16x32.Store", simdStore(), sys.AMD64)
addF(simdPackage, "LoadInt16x32", simdLoad(), sys.AMD64) addF(simdPackage, "LoadInt16x32", simdLoad(), sys.AMD64)
addF(simdPackage, "Int16x32.Store", simdStore(), sys.AMD64) addF(simdPackage, "Int16x32.Store", simdStore(), sys.AMD64)
addF(simdPackage, "LoadUint64x8", simdLoad(), sys.AMD64) addF(simdPackage, "LoadMask16x32", simdLoad(), sys.AMD64)
addF(simdPackage, "Uint64x8.Store", simdStore(), sys.AMD64) addF(simdPackage, "Mask16x32.Store", simdStore(), sys.AMD64)
addF(simdPackage, "LoadInt32x16", simdLoad(), sys.AMD64)
addF(simdPackage, "Int32x16.Store", simdStore(), sys.AMD64)
addF(simdPackage, "LoadMask32x16", simdLoad(), sys.AMD64)
addF(simdPackage, "Mask32x16.Store", simdStore(), sys.AMD64)
addF(simdPackage, "LoadInt64x8", simdLoad(), sys.AMD64)
addF(simdPackage, "Int64x8.Store", simdStore(), sys.AMD64)
addF(simdPackage, "LoadMask64x8", simdLoad(), sys.AMD64)
addF(simdPackage, "Mask64x8.Store", simdStore(), sys.AMD64)
addF(simdPackage, "LoadInt8x64", simdLoad(), sys.AMD64)
addF(simdPackage, "Int8x64.Store", simdStore(), sys.AMD64)
addF(simdPackage, "LoadMask8x64", simdLoad(), sys.AMD64)
addF(simdPackage, "Mask8x64.Store", simdStore(), sys.AMD64)
addF(simdPackage, "LoadFloat32x16", simdLoad(), sys.AMD64)
addF(simdPackage, "Float32x16.Store", simdStore(), sys.AMD64)
addF(simdPackage, "LoadFloat64x8", simdLoad(), sys.AMD64)
addF(simdPackage, "Float64x8.Store", simdStore(), sys.AMD64)
addF(simdPackage, "LoadUint16x32", simdLoad(), sys.AMD64)
addF(simdPackage, "Uint16x32.Store", simdStore(), sys.AMD64)
addF(simdPackage, "LoadUint32x16", simdLoad(), sys.AMD64) addF(simdPackage, "LoadUint32x16", simdLoad(), sys.AMD64)
addF(simdPackage, "Uint32x16.Store", simdStore(), sys.AMD64) addF(simdPackage, "Uint32x16.Store", simdStore(), sys.AMD64)
addF(simdPackage, "Mask64x4.AsInt64x4", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64) addF(simdPackage, "LoadUint64x8", simdLoad(), sys.AMD64)
addF(simdPackage, "Int64x4.AsMask64x4", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64) addF(simdPackage, "Uint64x8.Store", simdStore(), sys.AMD64)
addF(simdPackage, "Mask64x4.And", opLen2(ssa.OpAndInt32x8, types.TypeVec256), sys.AMD64) addF(simdPackage, "LoadUint8x64", simdLoad(), sys.AMD64)
addF(simdPackage, "Mask64x4.Or", opLen2(ssa.OpOrInt32x8, types.TypeVec256), sys.AMD64) addF(simdPackage, "Uint8x64.Store", simdStore(), sys.AMD64)
addF(simdPackage, "Mask16x16.AsInt16x16", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64) addF(simdPackage, "Mask16x16.AsInt16x16", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int16x16.AsMask16x16", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64) addF(simdPackage, "Int16x16.AsMask16x16", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Mask16x16.And", opLen2(ssa.OpAndInt32x8, types.TypeVec256), sys.AMD64) addF(simdPackage, "Mask16x16.And", opLen2(ssa.OpAndInt32x8, types.TypeVec256), sys.AMD64)
addF(simdPackage, "Mask16x16.Or", opLen2(ssa.OpOrInt32x8, types.TypeVec256), sys.AMD64) addF(simdPackage, "Mask16x16.Or", opLen2(ssa.OpOrInt32x8, types.TypeVec256), sys.AMD64)
addF(simdPackage, "Mask32x8.AsInt32x8", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int32x8.AsMask32x8", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Mask32x8.And", opLen2(ssa.OpAndInt32x8, types.TypeVec256), sys.AMD64)
addF(simdPackage, "Mask32x8.Or", opLen2(ssa.OpOrInt32x8, types.TypeVec256), sys.AMD64)
addF(simdPackage, "Mask8x32.AsInt8x32", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int8x32.AsMask8x32", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Mask8x32.And", opLen2(ssa.OpAndInt32x8, types.TypeVec256), sys.AMD64)
addF(simdPackage, "Mask8x32.Or", opLen2(ssa.OpOrInt32x8, types.TypeVec256), sys.AMD64)
addF(simdPackage, "Mask64x8.AsInt64x8", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int64x8.AsMask64x8", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Mask64x8.And", opLen2(ssa.OpAndInt32x16, types.TypeVec512), sys.AMD64)
addF(simdPackage, "Mask64x8.Or", opLen2(ssa.OpOrInt32x16, types.TypeVec512), sys.AMD64)
addF(simdPackage, "Mask8x64.AsInt8x64", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int8x64.AsMask8x64", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Mask8x64.And", opLen2(ssa.OpAndInt32x16, types.TypeVec512), sys.AMD64)
addF(simdPackage, "Mask8x64.Or", opLen2(ssa.OpOrInt32x16, types.TypeVec512), sys.AMD64)
addF(simdPackage, "Mask32x16.AsInt32x16", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int32x16.AsMask32x16", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Mask32x16.And", opLen2(ssa.OpAndInt32x16, types.TypeVec512), sys.AMD64)
addF(simdPackage, "Mask32x16.Or", opLen2(ssa.OpOrInt32x16, types.TypeVec512), sys.AMD64)
addF(simdPackage, "Mask16x32.AsInt16x32", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64) addF(simdPackage, "Mask16x32.AsInt16x32", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int16x32.AsMask16x32", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64) addF(simdPackage, "Int16x32.AsMask16x32", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Mask16x32.And", opLen2(ssa.OpAndInt32x16, types.TypeVec512), sys.AMD64) addF(simdPackage, "Mask16x32.And", opLen2(ssa.OpAndInt32x16, types.TypeVec512), sys.AMD64)
addF(simdPackage, "Mask16x32.Or", opLen2(ssa.OpOrInt32x16, types.TypeVec512), sys.AMD64) addF(simdPackage, "Mask16x32.Or", opLen2(ssa.OpOrInt32x16, types.TypeVec512), sys.AMD64)
addF(simdPackage, "Mask32x4.AsInt32x4", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int32x4.AsMask32x4", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Mask32x4.And", opLen2(ssa.OpAndInt32x4, types.TypeVec128), sys.AMD64)
addF(simdPackage, "Mask32x4.Or", opLen2(ssa.OpOrInt32x4, types.TypeVec128), sys.AMD64)
addF(simdPackage, "Mask8x16.AsInt8x16", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int8x16.AsMask8x16", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Mask8x16.And", opLen2(ssa.OpAndInt32x4, types.TypeVec128), sys.AMD64)
addF(simdPackage, "Mask8x16.Or", opLen2(ssa.OpOrInt32x4, types.TypeVec128), sys.AMD64)
addF(simdPackage, "Mask16x8.AsInt16x8", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64) addF(simdPackage, "Mask16x8.AsInt16x8", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int16x8.AsMask16x8", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64) addF(simdPackage, "Int16x8.AsMask16x8", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Mask16x8.And", opLen2(ssa.OpAndInt32x4, types.TypeVec128), sys.AMD64) addF(simdPackage, "Mask16x8.And", opLen2(ssa.OpAndInt32x4, types.TypeVec128), sys.AMD64)
addF(simdPackage, "Mask16x8.Or", opLen2(ssa.OpOrInt32x4, types.TypeVec128), sys.AMD64) addF(simdPackage, "Mask16x8.Or", opLen2(ssa.OpOrInt32x4, types.TypeVec128), sys.AMD64)
addF(simdPackage, "Mask32x16.AsInt32x16", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int32x16.AsMask32x16", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Mask32x16.And", opLen2(ssa.OpAndInt32x16, types.TypeVec512), sys.AMD64)
addF(simdPackage, "Mask32x16.Or", opLen2(ssa.OpOrInt32x16, types.TypeVec512), sys.AMD64)
addF(simdPackage, "Mask32x4.AsInt32x4", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int32x4.AsMask32x4", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Mask32x4.And", opLen2(ssa.OpAndInt32x4, types.TypeVec128), sys.AMD64)
addF(simdPackage, "Mask32x4.Or", opLen2(ssa.OpOrInt32x4, types.TypeVec128), sys.AMD64)
addF(simdPackage, "Mask32x8.AsInt32x8", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int32x8.AsMask32x8", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Mask32x8.And", opLen2(ssa.OpAndInt32x8, types.TypeVec256), sys.AMD64)
addF(simdPackage, "Mask32x8.Or", opLen2(ssa.OpOrInt32x8, types.TypeVec256), sys.AMD64)
addF(simdPackage, "Mask64x2.AsInt64x2", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64) addF(simdPackage, "Mask64x2.AsInt64x2", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int64x2.AsMask64x2", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64) addF(simdPackage, "Int64x2.AsMask64x2", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Mask64x2.And", opLen2(ssa.OpAndInt32x4, types.TypeVec128), sys.AMD64) addF(simdPackage, "Mask64x2.And", opLen2(ssa.OpAndInt32x4, types.TypeVec128), sys.AMD64)
addF(simdPackage, "Mask64x2.Or", opLen2(ssa.OpOrInt32x4, types.TypeVec128), sys.AMD64) addF(simdPackage, "Mask64x2.Or", opLen2(ssa.OpOrInt32x4, types.TypeVec128), sys.AMD64)
addF(simdPackage, "Mask64x4.AsInt64x4", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int64x4.AsMask64x4", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Mask64x4.And", opLen2(ssa.OpAndInt32x8, types.TypeVec256), sys.AMD64)
addF(simdPackage, "Mask64x4.Or", opLen2(ssa.OpOrInt32x8, types.TypeVec256), sys.AMD64)
addF(simdPackage, "Mask64x8.AsInt64x8", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int64x8.AsMask64x8", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Mask64x8.And", opLen2(ssa.OpAndInt32x16, types.TypeVec512), sys.AMD64)
addF(simdPackage, "Mask64x8.Or", opLen2(ssa.OpOrInt32x16, types.TypeVec512), sys.AMD64)
addF(simdPackage, "Mask8x16.AsInt8x16", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int8x16.AsMask8x16", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Mask8x16.And", opLen2(ssa.OpAndInt32x4, types.TypeVec128), sys.AMD64)
addF(simdPackage, "Mask8x16.Or", opLen2(ssa.OpOrInt32x4, types.TypeVec128), sys.AMD64)
addF(simdPackage, "Mask8x32.AsInt8x32", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int8x32.AsMask8x32", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Mask8x32.And", opLen2(ssa.OpAndInt32x8, types.TypeVec256), sys.AMD64)
addF(simdPackage, "Mask8x32.Or", opLen2(ssa.OpOrInt32x8, types.TypeVec256), sys.AMD64)
addF(simdPackage, "Mask8x64.AsInt8x64", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Int8x64.AsMask8x64", func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return args[0] }, sys.AMD64)
addF(simdPackage, "Mask8x64.And", opLen2(ssa.OpAndInt32x16, types.TypeVec512), sys.AMD64)
addF(simdPackage, "Mask8x64.Or", opLen2(ssa.OpOrInt32x16, types.TypeVec512), sys.AMD64)
} }
func opLen1(op ssa.Op, t *types.Type) func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { func opLen1(op ssa.Op, t *types.Type) func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value {
@ -1505,6 +1505,76 @@ func opLen3(op ssa.Op, t *types.Type) func(s *state, n *ir.CallExpr, args []*ssa
} }
} }
func opLen4(op ssa.Op, t *types.Type) func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value {
return func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value {
return s.newValue4(op, t, args[0], args[1], args[2], args[3])
}
}
func plainPanicSimdImm(s *state) {
cmp := s.newValue0(ssa.OpConstBool, types.Types[types.TBOOL])
cmp.AuxInt = 1
// TODO: make this a standalone panic instead of reusing the overflow panic.
// Or maybe after we implement the switch table this will be obsolete anyway.
s.check(cmp, ir.Syms.Panicoverflow)
}
func opLen1Imm8(op ssa.Op, t *types.Type, offset int) func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value {
return func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value {
if args[1].Op == ssa.OpConst8 {
return s.newValue1I(op, t, args[1].AuxInt<<int64(offset), args[0])
}
plainPanicSimdImm(s)
// Even though this default call is unreachable semantically,
// it has to return something, otherwise the compiler will try to generate
// default codes which might lead to a FwdRef being put at the entry block
// triggering a compiler panic.
return s.newValue1I(op, t, 0, args[0])
}
}
func opLen2Imm8(op ssa.Op, t *types.Type, offset int) func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value {
return func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value {
if args[1].Op == ssa.OpConst8 {
return s.newValue2I(op, t, args[1].AuxInt<<int64(offset), args[0], args[2])
}
plainPanicSimdImm(s)
// Even though this default call is unreachable semantically,
// it has to return something, otherwise the compiler will try to generate
// default codes which might lead to a FwdRef being put at the entry block
// triggering a compiler panic.
return s.newValue2I(op, t, 0, args[0], args[2])
}
}
func opLen3Imm8(op ssa.Op, t *types.Type, offset int) func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value {
return func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value {
if args[1].Op == ssa.OpConst8 {
return s.newValue3I(op, t, args[1].AuxInt<<int64(offset), args[0], args[2], args[3])
}
plainPanicSimdImm(s)
// Even though this default call is unreachable semantically,
// it has to return something, otherwise the compiler will try to generate
// default codes which might lead to a FwdRef being put at the entry block
// triggering a compiler panic.
return s.newValue3I(op, t, 0, args[0], args[2], args[3])
}
}
func opLen4Imm8(op ssa.Op, t *types.Type, offset int) func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value {
return func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value {
if args[1].Op == ssa.OpConst8 {
return s.newValue4I(op, t, args[1].AuxInt<<int64(offset), args[0], args[2], args[3], args[4])
}
plainPanicSimdImm(s)
// Even though this default call is unreachable semantically,
// it has to return something, otherwise the compiler will try to generate
// default codes which might lead to a FwdRef being put at the entry block
// triggering a compiler panic.
return s.newValue4I(op, t, 0, args[0], args[2], args[3], args[4])
}
}
func simdLoad() func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { func simdLoad() func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value {
return func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value { return func(s *state, n *ir.CallExpr, args []*ssa.Value) *ssa.Value {
return s.newValue2(ssa.OpLoad, n.Type(), args[0], s.mem()) return s.newValue2(ssa.OpLoad, n.Type(), args[0], s.mem())

4606
src/simd/stubs_amd64.go
View file

File diff suppressed because it is too large Load diff

772
src/simd/types_amd64.go
View file

@ -9,81 +9,6 @@ type v128 struct {
_128 struct{} _128 struct{}
} }
// Int32x4 is a 128-bit SIMD vector of 4 int32
type Int32x4 struct {
int32x4 v128
vals [4]int32
}
// Len returns the number of elements in a Int32x4
func (x Int32x4) Len() int { return 4 }
// LoadInt32x4 loads a Int32x4 from an array
//
//go:noescape
func LoadInt32x4(y *[4]int32) Int32x4
// Store stores a Int32x4 to an array
//
//go:noescape
func (x Int32x4) Store(y *[4]int32)
// Mask32x4 is a 128-bit SIMD vector of 4 int32
type Mask32x4 struct {
int32x4 v128
vals [4]int32
}
// Int8x16 is a 128-bit SIMD vector of 16 int8
type Int8x16 struct {
int8x16 v128
vals [16]int8
}
// Len returns the number of elements in a Int8x16
func (x Int8x16) Len() int { return 16 }
// LoadInt8x16 loads a Int8x16 from an array
//
//go:noescape
func LoadInt8x16(y *[16]int8) Int8x16
// Store stores a Int8x16 to an array
//
//go:noescape
func (x Int8x16) Store(y *[16]int8)
// Mask8x16 is a 128-bit SIMD vector of 16 int8
type Mask8x16 struct {
int8x16 v128
vals [16]int8
}
// Uint16x8 is a 128-bit SIMD vector of 8 uint16
type Uint16x8 struct {
uint16x8 v128
vals [8]uint16
}
// Len returns the number of elements in a Uint16x8
func (x Uint16x8) Len() int { return 8 }
// LoadUint16x8 loads a Uint16x8 from an array
//
//go:noescape
func LoadUint16x8(y *[8]uint16) Uint16x8
// Store stores a Uint16x8 to an array
//
//go:noescape
func (x Uint16x8) Store(y *[8]uint16)
// Mask16x8 is a 128-bit SIMD vector of 8 int16
type Mask16x8 struct {
int16x8 v128
vals [8]int16
}
// Int16x8 is a 128-bit SIMD vector of 8 int16 // Int16x8 is a 128-bit SIMD vector of 8 int16
type Int16x8 struct { type Int16x8 struct {
int16x8 v128 int16x8 v128
@ -103,68 +28,43 @@ func LoadInt16x8(y *[8]int16) Int16x8
//go:noescape //go:noescape
func (x Int16x8) Store(y *[8]int16) func (x Int16x8) Store(y *[8]int16)
// Float32x4 is a 128-bit SIMD vector of 4 float32 // Int32x4 is a 128-bit SIMD vector of 4 int32
type Float32x4 struct { type Int32x4 struct {
float32x4 v128 int32x4 v128
vals [4]float32 vals [4]int32
} }
// Len returns the number of elements in a Float32x4 // Len returns the number of elements in a Int32x4
func (x Float32x4) Len() int { return 4 } func (x Int32x4) Len() int { return 4 }
// LoadFloat32x4 loads a Float32x4 from an array // LoadInt32x4 loads a Int32x4 from an array
// //
//go:noescape //go:noescape
func LoadFloat32x4(y *[4]float32) Float32x4 func LoadInt32x4(y *[4]int32) Int32x4
// Store stores a Float32x4 to an array // Store stores a Int32x4 to an array
// //
//go:noescape //go:noescape
func (x Float32x4) Store(y *[4]float32) func (x Int32x4) Store(y *[4]int32)
// Uint64x2 is a 128-bit SIMD vector of 2 uint64 // Int8x16 is a 128-bit SIMD vector of 16 int8
type Uint64x2 struct { type Int8x16 struct {
uint64x2 v128 int8x16 v128
vals [2]uint64 vals [16]int8
} }
// Len returns the number of elements in a Uint64x2 // Len returns the number of elements in a Int8x16
func (x Uint64x2) Len() int { return 2 } func (x Int8x16) Len() int { return 16 }
// LoadUint64x2 loads a Uint64x2 from an array // LoadInt8x16 loads a Int8x16 from an array
// //
//go:noescape //go:noescape
func LoadUint64x2(y *[2]uint64) Uint64x2 func LoadInt8x16(y *[16]int8) Int8x16
// Store stores a Uint64x2 to an array // Store stores a Int8x16 to an array
// //
//go:noescape //go:noescape
func (x Uint64x2) Store(y *[2]uint64) func (x Int8x16) Store(y *[16]int8)
// Float64x2 is a 128-bit SIMD vector of 2 float64
type Float64x2 struct {
float64x2 v128
vals [2]float64
}
// Len returns the number of elements in a Float64x2
func (x Float64x2) Len() int { return 2 }
// LoadFloat64x2 loads a Float64x2 from an array
//
//go:noescape
func LoadFloat64x2(y *[2]float64) Float64x2
// Store stores a Float64x2 to an array
//
//go:noescape
func (x Float64x2) Store(y *[2]float64)
// Mask64x2 is a 128-bit SIMD vector of 2 int64
type Mask64x2 struct {
int64x2 v128
vals [2]int64
}
// Int64x2 is a 128-bit SIMD vector of 2 int64 // Int64x2 is a 128-bit SIMD vector of 2 int64
type Int64x2 struct { type Int64x2 struct {
@ -185,24 +85,68 @@ func LoadInt64x2(y *[2]int64) Int64x2
//go:noescape //go:noescape
func (x Int64x2) Store(y *[2]int64) func (x Int64x2) Store(y *[2]int64)
// Uint8x16 is a 128-bit SIMD vector of 16 uint8 // Mask64x2 is a 128-bit SIMD vector of 2 int64
type Uint8x16 struct { type Mask64x2 struct {
uint8x16 v128 int64x2 v128
vals [16]uint8 vals [2]int64
} }
// Len returns the number of elements in a Uint8x16 // Float32x4 is a 128-bit SIMD vector of 4 float32
func (x Uint8x16) Len() int { return 16 } type Float32x4 struct {
float32x4 v128
vals [4]float32
}
// LoadUint8x16 loads a Uint8x16 from an array // Len returns the number of elements in a Float32x4
func (x Float32x4) Len() int { return 4 }
// LoadFloat32x4 loads a Float32x4 from an array
// //
//go:noescape //go:noescape
func LoadUint8x16(y *[16]uint8) Uint8x16 func LoadFloat32x4(y *[4]float32) Float32x4
// Store stores a Uint8x16 to an array // Store stores a Float32x4 to an array
// //
//go:noescape //go:noescape
func (x Uint8x16) Store(y *[16]uint8) func (x Float32x4) Store(y *[4]float32)
// Float64x2 is a 128-bit SIMD vector of 2 float64
type Float64x2 struct {
float64x2 v128
vals [2]float64
}
// Len returns the number of elements in a Float64x2
func (x Float64x2) Len() int { return 2 }
// LoadFloat64x2 loads a Float64x2 from an array
//
//go:noescape
func LoadFloat64x2(y *[2]float64) Float64x2
// Store stores a Float64x2 to an array
//
//go:noescape
func (x Float64x2) Store(y *[2]float64)
// Uint16x8 is a 128-bit SIMD vector of 8 uint16
type Uint16x8 struct {
uint16x8 v128
vals [8]uint16
}
// Len returns the number of elements in a Uint16x8
func (x Uint16x8) Len() int { return 8 }
// LoadUint16x8 loads a Uint16x8 from an array
//
//go:noescape
func LoadUint16x8(y *[8]uint16) Uint16x8
// Store stores a Uint16x8 to an array
//
//go:noescape
func (x Uint16x8) Store(y *[8]uint16)
// Uint32x4 is a 128-bit SIMD vector of 4 uint32 // Uint32x4 is a 128-bit SIMD vector of 4 uint32
type Uint32x4 struct { type Uint32x4 struct {
@ -223,6 +167,62 @@ func LoadUint32x4(y *[4]uint32) Uint32x4
//go:noescape //go:noescape
func (x Uint32x4) Store(y *[4]uint32) func (x Uint32x4) Store(y *[4]uint32)
// Uint64x2 is a 128-bit SIMD vector of 2 uint64
type Uint64x2 struct {
uint64x2 v128
vals [2]uint64
}
// Len returns the number of elements in a Uint64x2
func (x Uint64x2) Len() int { return 2 }
// LoadUint64x2 loads a Uint64x2 from an array
//
//go:noescape
func LoadUint64x2(y *[2]uint64) Uint64x2
// Store stores a Uint64x2 to an array
//
//go:noescape
func (x Uint64x2) Store(y *[2]uint64)
// Uint8x16 is a 128-bit SIMD vector of 16 uint8
type Uint8x16 struct {
uint8x16 v128
vals [16]uint8
}
// Len returns the number of elements in a Uint8x16
func (x Uint8x16) Len() int { return 16 }
// LoadUint8x16 loads a Uint8x16 from an array
//
//go:noescape
func LoadUint8x16(y *[16]uint8) Uint8x16
// Store stores a Uint8x16 to an array
//
//go:noescape
func (x Uint8x16) Store(y *[16]uint8)
// Mask32x4 is a 128-bit SIMD vector of 4 int32
type Mask32x4 struct {
int32x4 v128
vals [4]int32
}
// Mask16x8 is a 128-bit SIMD vector of 8 int16
type Mask16x8 struct {
int16x8 v128
vals [8]int16
}
// Mask8x16 is a 128-bit SIMD vector of 16 int8
type Mask8x16 struct {
int8x16 v128
vals [16]int8
}
// v256 is a tag type that tells the compiler that this is really 256-bit SIMD // v256 is a tag type that tells the compiler that this is really 256-bit SIMD
type v256 struct { type v256 struct {
_256 struct{} _256 struct{}
@ -266,30 +266,24 @@ func LoadInt32x8(y *[8]int32) Int32x8
//go:noescape //go:noescape
func (x Int32x8) Store(y *[8]int32) func (x Int32x8) Store(y *[8]int32)
// Uint64x4 is a 256-bit SIMD vector of 4 uint64 // Int8x32 is a 256-bit SIMD vector of 32 int8
type Uint64x4 struct { type Int8x32 struct {
uint64x4 v256 int8x32 v256
vals [4]uint64 vals [32]int8
} }
// Len returns the number of elements in a Uint64x4 // Len returns the number of elements in a Int8x32
func (x Uint64x4) Len() int { return 4 } func (x Int8x32) Len() int { return 32 }
// LoadUint64x4 loads a Uint64x4 from an array // LoadInt8x32 loads a Int8x32 from an array
// //
//go:noescape //go:noescape
func LoadUint64x4(y *[4]uint64) Uint64x4 func LoadInt8x32(y *[32]int8) Int8x32
// Store stores a Uint64x4 to an array // Store stores a Int8x32 to an array
// //
//go:noescape //go:noescape
func (x Uint64x4) Store(y *[4]uint64) func (x Int8x32) Store(y *[32]int8)
// Mask64x4 is a 256-bit SIMD vector of 4 int64
type Mask64x4 struct {
int64x4 v256
vals [4]int64
}
// Int64x4 is a 256-bit SIMD vector of 4 int64 // Int64x4 is a 256-bit SIMD vector of 4 int64
type Int64x4 struct { type Int64x4 struct {
@ -310,35 +304,10 @@ func LoadInt64x4(y *[4]int64) Int64x4
//go:noescape //go:noescape
func (x Int64x4) Store(y *[4]int64) func (x Int64x4) Store(y *[4]int64)
// Float64x4 is a 256-bit SIMD vector of 4 float64 // Mask64x4 is a 256-bit SIMD vector of 4 int64
type Float64x4 struct { type Mask64x4 struct {
float64x4 v256 int64x4 v256
vals [4]float64 vals [4]int64
}
// Len returns the number of elements in a Float64x4
func (x Float64x4) Len() int { return 4 }
// LoadFloat64x4 loads a Float64x4 from an array
//
//go:noescape
func LoadFloat64x4(y *[4]float64) Float64x4
// Store stores a Float64x4 to an array
//
//go:noescape
func (x Float64x4) Store(y *[4]float64)
// Mask16x16 is a 256-bit SIMD vector of 16 int16
type Mask16x16 struct {
int16x16 v256
vals [16]int16
}
// Mask32x8 is a 256-bit SIMD vector of 8 int32
type Mask32x8 struct {
int32x8 v256
vals [8]int32
} }
// Float32x8 is a 256-bit SIMD vector of 8 float32 // Float32x8 is a 256-bit SIMD vector of 8 float32
@ -360,6 +329,25 @@ func LoadFloat32x8(y *[8]float32) Float32x8
//go:noescape //go:noescape
func (x Float32x8) Store(y *[8]float32) func (x Float32x8) Store(y *[8]float32)
// Float64x4 is a 256-bit SIMD vector of 4 float64
type Float64x4 struct {
float64x4 v256
vals [4]float64
}
// Len returns the number of elements in a Float64x4
func (x Float64x4) Len() int { return 4 }
// LoadFloat64x4 loads a Float64x4 from an array
//
//go:noescape
func LoadFloat64x4(y *[4]float64) Float64x4
// Store stores a Float64x4 to an array
//
//go:noescape
func (x Float64x4) Store(y *[4]float64)
// Uint16x16 is a 256-bit SIMD vector of 16 uint16 // Uint16x16 is a 256-bit SIMD vector of 16 uint16
type Uint16x16 struct { type Uint16x16 struct {
uint16x16 v256 uint16x16 v256
@ -379,50 +367,6 @@ func LoadUint16x16(y *[16]uint16) Uint16x16
//go:noescape //go:noescape
func (x Uint16x16) Store(y *[16]uint16) func (x Uint16x16) Store(y *[16]uint16)
// Int8x32 is a 256-bit SIMD vector of 32 int8
type Int8x32 struct {
int8x32 v256
vals [32]int8
}
// Len returns the number of elements in a Int8x32
func (x Int8x32) Len() int { return 32 }
// LoadInt8x32 loads a Int8x32 from an array
//
//go:noescape
func LoadInt8x32(y *[32]int8) Int8x32
// Store stores a Int8x32 to an array
//
//go:noescape
func (x Int8x32) Store(y *[32]int8)
// Uint8x32 is a 256-bit SIMD vector of 32 uint8
type Uint8x32 struct {
uint8x32 v256
vals [32]uint8
}
// Len returns the number of elements in a Uint8x32
func (x Uint8x32) Len() int { return 32 }
// LoadUint8x32 loads a Uint8x32 from an array
//
//go:noescape
func LoadUint8x32(y *[32]uint8) Uint8x32
// Store stores a Uint8x32 to an array
//
//go:noescape
func (x Uint8x32) Store(y *[32]uint8)
// Mask8x32 is a 256-bit SIMD vector of 32 int8
type Mask8x32 struct {
int8x32 v256
vals [32]int8
}
// Uint32x8 is a 256-bit SIMD vector of 8 uint32 // Uint32x8 is a 256-bit SIMD vector of 8 uint32
type Uint32x8 struct { type Uint32x8 struct {
uint32x8 v256 uint32x8 v256
@ -442,168 +386,67 @@ func LoadUint32x8(y *[8]uint32) Uint32x8
//go:noescape //go:noescape
func (x Uint32x8) Store(y *[8]uint32) func (x Uint32x8) Store(y *[8]uint32)
// Uint64x4 is a 256-bit SIMD vector of 4 uint64
type Uint64x4 struct {
uint64x4 v256
vals [4]uint64
}
// Len returns the number of elements in a Uint64x4
func (x Uint64x4) Len() int { return 4 }
// LoadUint64x4 loads a Uint64x4 from an array
//
//go:noescape
func LoadUint64x4(y *[4]uint64) Uint64x4
// Store stores a Uint64x4 to an array
//
//go:noescape
func (x Uint64x4) Store(y *[4]uint64)
// Uint8x32 is a 256-bit SIMD vector of 32 uint8
type Uint8x32 struct {
uint8x32 v256
vals [32]uint8
}
// Len returns the number of elements in a Uint8x32
func (x Uint8x32) Len() int { return 32 }
// LoadUint8x32 loads a Uint8x32 from an array
//
//go:noescape
func LoadUint8x32(y *[32]uint8) Uint8x32
// Store stores a Uint8x32 to an array
//
//go:noescape
func (x Uint8x32) Store(y *[32]uint8)
// Mask32x8 is a 256-bit SIMD vector of 8 int32
type Mask32x8 struct {
int32x8 v256
vals [8]int32
}
// Mask16x16 is a 256-bit SIMD vector of 16 int16
type Mask16x16 struct {
int16x16 v256
vals [16]int16
}
// Mask8x32 is a 256-bit SIMD vector of 32 int8
type Mask8x32 struct {
int8x32 v256
vals [32]int8
}
// v512 is a tag type that tells the compiler that this is really 512-bit SIMD // v512 is a tag type that tells the compiler that this is really 512-bit SIMD
type v512 struct { type v512 struct {
_512 struct{} _512 struct{}
} }
// Float64x8 is a 512-bit SIMD vector of 8 float64
type Float64x8 struct {
float64x8 v512
vals [8]float64
}
// Len returns the number of elements in a Float64x8
func (x Float64x8) Len() int { return 8 }
// LoadFloat64x8 loads a Float64x8 from an array
//
//go:noescape
func LoadFloat64x8(y *[8]float64) Float64x8
// Store stores a Float64x8 to an array
//
//go:noescape
func (x Float64x8) Store(y *[8]float64)
// Mask64x8 is a 512-bit SIMD vector of 8 int64
type Mask64x8 struct {
int64x8 v512
vals [8]int64
}
// Int64x8 is a 512-bit SIMD vector of 8 int64
type Int64x8 struct {
int64x8 v512
vals [8]int64
}
// Len returns the number of elements in a Int64x8
func (x Int64x8) Len() int { return 8 }
// LoadInt64x8 loads a Int64x8 from an array
//
//go:noescape
func LoadInt64x8(y *[8]int64) Int64x8
// Store stores a Int64x8 to an array
//
//go:noescape
func (x Int64x8) Store(y *[8]int64)
// Uint8x64 is a 512-bit SIMD vector of 64 uint8
type Uint8x64 struct {
uint8x64 v512
vals [64]uint8
}
// Len returns the number of elements in a Uint8x64
func (x Uint8x64) Len() int { return 64 }
// LoadUint8x64 loads a Uint8x64 from an array
//
//go:noescape
func LoadUint8x64(y *[64]uint8) Uint8x64
// Store stores a Uint8x64 to an array
//
//go:noescape
func (x Uint8x64) Store(y *[64]uint8)
// Mask8x64 is a 512-bit SIMD vector of 64 int8
type Mask8x64 struct {
int8x64 v512
vals [64]int8
}
// Int8x64 is a 512-bit SIMD vector of 64 int8
type Int8x64 struct {
int8x64 v512
vals [64]int8
}
// Len returns the number of elements in a Int8x64
func (x Int8x64) Len() int { return 64 }
// LoadInt8x64 loads a Int8x64 from an array
//
//go:noescape
func LoadInt8x64(y *[64]int8) Int8x64
// Store stores a Int8x64 to an array
//
//go:noescape
func (x Int8x64) Store(y *[64]int8)
// Float32x16 is a 512-bit SIMD vector of 16 float32
type Float32x16 struct {
float32x16 v512
vals [16]float32
}
// Len returns the number of elements in a Float32x16
func (x Float32x16) Len() int { return 16 }
// LoadFloat32x16 loads a Float32x16 from an array
//
//go:noescape
func LoadFloat32x16(y *[16]float32) Float32x16
// Store stores a Float32x16 to an array
//
//go:noescape
func (x Float32x16) Store(y *[16]float32)
// Mask32x16 is a 512-bit SIMD vector of 16 int32
type Mask32x16 struct {
int32x16 v512
vals [16]int32
}
// Int32x16 is a 512-bit SIMD vector of 16 int32
type Int32x16 struct {
int32x16 v512
vals [16]int32
}
// Len returns the number of elements in a Int32x16
func (x Int32x16) Len() int { return 16 }
// LoadInt32x16 loads a Int32x16 from an array
//
//go:noescape
func LoadInt32x16(y *[16]int32) Int32x16
// Store stores a Int32x16 to an array
//
//go:noescape
func (x Int32x16) Store(y *[16]int32)
// Uint16x32 is a 512-bit SIMD vector of 32 uint16
type Uint16x32 struct {
uint16x32 v512
vals [32]uint16
}
// Len returns the number of elements in a Uint16x32
func (x Uint16x32) Len() int { return 32 }
// LoadUint16x32 loads a Uint16x32 from an array
//
//go:noescape
func LoadUint16x32(y *[32]uint16) Uint16x32
// Store stores a Uint16x32 to an array
//
//go:noescape
func (x Uint16x32) Store(y *[32]uint16)
// Mask16x32 is a 512-bit SIMD vector of 32 int16
type Mask16x32 struct {
int16x32 v512
vals [32]int16
}
// Int16x32 is a 512-bit SIMD vector of 32 int16 // Int16x32 is a 512-bit SIMD vector of 32 int16
type Int16x32 struct { type Int16x32 struct {
int16x32 v512 int16x32 v512
@ -623,24 +466,143 @@ func LoadInt16x32(y *[32]int16) Int16x32
//go:noescape //go:noescape
func (x Int16x32) Store(y *[32]int16) func (x Int16x32) Store(y *[32]int16)
// Uint64x8 is a 512-bit SIMD vector of 8 uint64 // Mask16x32 is a 512-bit SIMD vector of 32 int16
type Uint64x8 struct { type Mask16x32 struct {
uint64x8 v512 int16x32 v512
vals [8]uint64 vals [32]int16
} }
// Len returns the number of elements in a Uint64x8 // Int32x16 is a 512-bit SIMD vector of 16 int32
func (x Uint64x8) Len() int { return 8 } type Int32x16 struct {
int32x16 v512
vals [16]int32
}
// LoadUint64x8 loads a Uint64x8 from an array // Len returns the number of elements in a Int32x16
func (x Int32x16) Len() int { return 16 }
// LoadInt32x16 loads a Int32x16 from an array
// //
//go:noescape //go:noescape
func LoadUint64x8(y *[8]uint64) Uint64x8 func LoadInt32x16(y *[16]int32) Int32x16
// Store stores a Uint64x8 to an array // Store stores a Int32x16 to an array
// //
//go:noescape //go:noescape
func (x Uint64x8) Store(y *[8]uint64) func (x Int32x16) Store(y *[16]int32)
// Mask32x16 is a 512-bit SIMD vector of 16 int32
type Mask32x16 struct {
int32x16 v512
vals [16]int32
}
// Int64x8 is a 512-bit SIMD vector of 8 int64
type Int64x8 struct {
int64x8 v512
vals [8]int64
}
// Len returns the number of elements in a Int64x8
func (x Int64x8) Len() int { return 8 }
// LoadInt64x8 loads a Int64x8 from an array
//
//go:noescape
func LoadInt64x8(y *[8]int64) Int64x8
// Store stores a Int64x8 to an array
//
//go:noescape
func (x Int64x8) Store(y *[8]int64)
// Mask64x8 is a 512-bit SIMD vector of 8 int64
type Mask64x8 struct {
int64x8 v512
vals [8]int64
}
// Int8x64 is a 512-bit SIMD vector of 64 int8
type Int8x64 struct {
int8x64 v512
vals [64]int8
}
// Len returns the number of elements in a Int8x64
func (x Int8x64) Len() int { return 64 }
// LoadInt8x64 loads a Int8x64 from an array
//
//go:noescape
func LoadInt8x64(y *[64]int8) Int8x64
// Store stores a Int8x64 to an array
//
//go:noescape
func (x Int8x64) Store(y *[64]int8)
// Mask8x64 is a 512-bit SIMD vector of 64 int8
type Mask8x64 struct {
int8x64 v512
vals [64]int8
}
// Float32x16 is a 512-bit SIMD vector of 16 float32
type Float32x16 struct {
float32x16 v512
vals [16]float32
}
// Len returns the number of elements in a Float32x16
func (x Float32x16) Len() int { return 16 }
// LoadFloat32x16 loads a Float32x16 from an array
//
//go:noescape
func LoadFloat32x16(y *[16]float32) Float32x16
// Store stores a Float32x16 to an array
//
//go:noescape
func (x Float32x16) Store(y *[16]float32)
// Float64x8 is a 512-bit SIMD vector of 8 float64
type Float64x8 struct {
float64x8 v512
vals [8]float64
}
// Len returns the number of elements in a Float64x8
func (x Float64x8) Len() int { return 8 }
// LoadFloat64x8 loads a Float64x8 from an array
//
//go:noescape
func LoadFloat64x8(y *[8]float64) Float64x8
// Store stores a Float64x8 to an array
//
//go:noescape
func (x Float64x8) Store(y *[8]float64)
// Uint16x32 is a 512-bit SIMD vector of 32 uint16
type Uint16x32 struct {
uint16x32 v512
vals [32]uint16
}
// Len returns the number of elements in a Uint16x32
func (x Uint16x32) Len() int { return 32 }
// LoadUint16x32 loads a Uint16x32 from an array
//
//go:noescape
func LoadUint16x32(y *[32]uint16) Uint16x32
// Store stores a Uint16x32 to an array
//
//go:noescape
func (x Uint16x32) Store(y *[32]uint16)
// Uint32x16 is a 512-bit SIMD vector of 16 uint32 // Uint32x16 is a 512-bit SIMD vector of 16 uint32
type Uint32x16 struct { type Uint32x16 struct {
@ -660,3 +622,41 @@ func LoadUint32x16(y *[16]uint32) Uint32x16
// //
//go:noescape //go:noescape
func (x Uint32x16) Store(y *[16]uint32) func (x Uint32x16) Store(y *[16]uint32)
// Uint64x8 is a 512-bit SIMD vector of 8 uint64
type Uint64x8 struct {
uint64x8 v512
vals [8]uint64
}
// Len returns the number of elements in a Uint64x8
func (x Uint64x8) Len() int { return 8 }
// LoadUint64x8 loads a Uint64x8 from an array
//
//go:noescape
func LoadUint64x8(y *[8]uint64) Uint64x8
// Store stores a Uint64x8 to an array
//
//go:noescape
func (x Uint64x8) Store(y *[8]uint64)
// Uint8x64 is a 512-bit SIMD vector of 64 uint8
type Uint8x64 struct {
uint8x64 v512
vals [64]uint8
}
// Len returns the number of elements in a Uint8x64
func (x Uint8x64) Len() int { return 64 }
// LoadUint8x64 loads a Uint8x64 from an array
//
//go:noescape
func LoadUint8x64(y *[64]uint8) Uint8x64
// Store stores a Uint8x64 to an array
//
//go:noescape
func (x Uint8x64) Store(y *[64]uint8)