// Code generated from _gen/dec.rules using 'go generate'; DO NOT EDIT. package ssa import "cmd/compile/internal/types" func rewriteValuedec(v *Value) bool { switch v.Op { case OpArrayMake1: return rewriteValuedec_OpArrayMake1(v) case OpArraySelect: return rewriteValuedec_OpArraySelect(v) case OpComplexImag: return rewriteValuedec_OpComplexImag(v) case OpComplexReal: return rewriteValuedec_OpComplexReal(v) case OpIData: return rewriteValuedec_OpIData(v) case OpIMake: return rewriteValuedec_OpIMake(v) case OpITab: return rewriteValuedec_OpITab(v) case OpLoad: return rewriteValuedec_OpLoad(v) case OpSliceCap: return rewriteValuedec_OpSliceCap(v) case OpSliceLen: return rewriteValuedec_OpSliceLen(v) case OpSlicePtr: return rewriteValuedec_OpSlicePtr(v) case OpSlicePtrUnchecked: return rewriteValuedec_OpSlicePtrUnchecked(v) case OpStore: return rewriteValuedec_OpStore(v) case OpStringLen: return rewriteValuedec_OpStringLen(v) case OpStringPtr: return rewriteValuedec_OpStringPtr(v) case OpStructMake1: return rewriteValuedec_OpStructMake1(v) case OpStructSelect: return rewriteValuedec_OpStructSelect(v) } return false } func rewriteValuedec_OpArrayMake1(v *Value) bool { v_0 := v.Args[0] // match: (ArrayMake1 x) // cond: x.Type.IsPtrShaped() // result: x for { x := v_0 if !(x.Type.IsPtrShaped()) { break } v.copyOf(x) return true } return false } func rewriteValuedec_OpArraySelect(v *Value) bool { v_0 := v.Args[0] b := v.Block // match: (ArraySelect [0] x) // cond: x.Type.IsPtrShaped() // result: x for { if auxIntToInt64(v.AuxInt) != 0 { break } x := v_0 if !(x.Type.IsPtrShaped()) { break } v.copyOf(x) return true } // match: (ArraySelect (ArrayMake1 x)) // result: x for { if v_0.Op != OpArrayMake1 { break } x := v_0.Args[0] v.copyOf(x) return true } // match: (ArraySelect [0] (IData x)) // result: (IData x) for { if auxIntToInt64(v.AuxInt) != 0 || v_0.Op != OpIData { break } x := v_0.Args[0] v.reset(OpIData) v.AddArg(x) return true } // match: (ArraySelect [i] x:(Load ptr mem)) // result: @x.Block (Load (OffPtr [t.Elem().Size()*i] ptr) mem) for { i := auxIntToInt64(v.AuxInt) x := v_0 if x.Op != OpLoad { break } t := x.Type mem := x.Args[1] ptr := x.Args[0] b = x.Block v0 := b.NewValue0(v.Pos, OpLoad, v.Type) v.copyOf(v0) v1 := b.NewValue0(v.Pos, OpOffPtr, v.Type.PtrTo()) v1.AuxInt = int64ToAuxInt(t.Elem().Size() * i) v1.AddArg(ptr) v0.AddArg2(v1, mem) return true } return false } func rewriteValuedec_OpComplexImag(v *Value) bool { v_0 := v.Args[0] b := v.Block typ := &b.Func.Config.Types // match: (ComplexImag (ComplexMake _ imag )) // result: imag for { if v_0.Op != OpComplexMake { break } imag := v_0.Args[1] v.copyOf(imag) return true } // match: (ComplexImag x:(Load ptr mem)) // cond: t.IsComplex() && t.Size() == 8 // result: @x.Block (Load (OffPtr [4] ptr) mem) for { x := v_0 if x.Op != OpLoad { break } t := x.Type mem := x.Args[1] ptr := x.Args[0] if !(t.IsComplex() && t.Size() == 8) { break } b = x.Block v0 := b.NewValue0(v.Pos, OpLoad, typ.Float32) v.copyOf(v0) v1 := b.NewValue0(v.Pos, OpOffPtr, typ.Float32Ptr) v1.AuxInt = int64ToAuxInt(4) v1.AddArg(ptr) v0.AddArg2(v1, mem) return true } // match: (ComplexImag x:(Load ptr mem)) // cond: t.IsComplex() && t.Size() == 16 // result: @x.Block (Load (OffPtr [8] ptr) mem) for { x := v_0 if x.Op != OpLoad { break } t := x.Type mem := x.Args[1] ptr := x.Args[0] if !(t.IsComplex() && t.Size() == 16) { break } b = x.Block v0 := b.NewValue0(v.Pos, OpLoad, typ.Float64) v.copyOf(v0) v1 := b.NewValue0(v.Pos, OpOffPtr, typ.Float64Ptr) v1.AuxInt = int64ToAuxInt(8) v1.AddArg(ptr) v0.AddArg2(v1, mem) return true } return false } func rewriteValuedec_OpComplexReal(v *Value) bool { v_0 := v.Args[0] b := v.Block typ := &b.Func.Config.Types // match: (ComplexReal (ComplexMake real _ )) // result: real for { if v_0.Op != OpComplexMake { break } real := v_0.Args[0] v.copyOf(real) return true } // match: (ComplexReal x:(Load ptr mem)) // cond: t.IsComplex() && t.Size() == 8 // result: @x.Block (Load ptr mem) for { x := v_0 if x.Op != OpLoad { break } t := x.Type mem := x.Args[1] ptr := x.Args[0] if !(t.IsComplex() && t.Size() == 8) { break } b = x.Block v0 := b.NewValue0(v.Pos, OpLoad, typ.Float32) v.copyOf(v0) v0.AddArg2(ptr, mem) return true } // match: (ComplexReal x:(Load ptr mem)) // cond: t.IsComplex() && t.Size() == 16 // result: @x.Block (Load ptr mem) for { x := v_0 if x.Op != OpLoad { break } t := x.Type mem := x.Args[1] ptr := x.Args[0] if !(t.IsComplex() && t.Size() == 16) { break } b = x.Block v0 := b.NewValue0(v.Pos, OpLoad, typ.Float64) v.copyOf(v0) v0.AddArg2(ptr, mem) return true } return false } func rewriteValuedec_OpIData(v *Value) bool { v_0 := v.Args[0] b := v.Block config := b.Func.Config typ := &b.Func.Config.Types // match: (IData (IMake _ data)) // result: data for { if v_0.Op != OpIMake { break } data := v_0.Args[1] v.copyOf(data) return true } // match: (IData x:(Load ptr mem)) // cond: t.IsInterface() // result: @x.Block (Load (OffPtr [config.PtrSize] ptr) mem) for { x := v_0 if x.Op != OpLoad { break } t := x.Type mem := x.Args[1] ptr := x.Args[0] if !(t.IsInterface()) { break } b = x.Block v0 := b.NewValue0(v.Pos, OpLoad, typ.BytePtr) v.copyOf(v0) v1 := b.NewValue0(v.Pos, OpOffPtr, typ.BytePtrPtr) v1.AuxInt = int64ToAuxInt(config.PtrSize) v1.AddArg(ptr) v0.AddArg2(v1, mem) return true } return false } func rewriteValuedec_OpIMake(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] // match: (IMake _typ (StructMake1 val)) // result: (IMake _typ val) for { _typ := v_0 if v_1.Op != OpStructMake1 { break } val := v_1.Args[0] v.reset(OpIMake) v.AddArg2(_typ, val) return true } return false } func rewriteValuedec_OpITab(v *Value) bool { v_0 := v.Args[0] b := v.Block typ := &b.Func.Config.Types // match: (ITab (IMake itab _)) // result: itab for { if v_0.Op != OpIMake { break } itab := v_0.Args[0] v.copyOf(itab) return true } // match: (ITab x:(Load ptr mem)) // cond: t.IsInterface() // result: @x.Block (Load ptr mem) for { x := v_0 if x.Op != OpLoad { break } t := x.Type mem := x.Args[1] ptr := x.Args[0] if !(t.IsInterface()) { break } b = x.Block v0 := b.NewValue0(v.Pos, OpLoad, typ.Uintptr) v.copyOf(v0) v0.AddArg2(ptr, mem) return true } return false } func rewriteValuedec_OpLoad(v *Value) bool { v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block config := b.Func.Config typ := &b.Func.Config.Types // match: (Load ptr mem) // cond: t.IsComplex() && t.Size() == 8 // result: (ComplexMake (Load ptr mem) (Load (OffPtr [4] ptr) mem) ) for { t := v.Type ptr := v_0 mem := v_1 if !(t.IsComplex() && t.Size() == 8) { break } v.reset(OpComplexMake) v0 := b.NewValue0(v.Pos, OpLoad, typ.Float32) v0.AddArg2(ptr, mem) v1 := b.NewValue0(v.Pos, OpLoad, typ.Float32) v2 := b.NewValue0(v.Pos, OpOffPtr, typ.Float32Ptr) v2.AuxInt = int64ToAuxInt(4) v2.AddArg(ptr) v1.AddArg2(v2, mem) v.AddArg2(v0, v1) return true } // match: (Load ptr mem) // cond: t.IsComplex() && t.Size() == 16 // result: (ComplexMake (Load ptr mem) (Load (OffPtr [8] ptr) mem) ) for { t := v.Type ptr := v_0 mem := v_1 if !(t.IsComplex() && t.Size() == 16) { break } v.reset(OpComplexMake) v0 := b.NewValue0(v.Pos, OpLoad, typ.Float64) v0.AddArg2(ptr, mem) v1 := b.NewValue0(v.Pos, OpLoad, typ.Float64) v2 := b.NewValue0(v.Pos, OpOffPtr, typ.Float64Ptr) v2.AuxInt = int64ToAuxInt(8) v2.AddArg(ptr) v1.AddArg2(v2, mem) v.AddArg2(v0, v1) return true } // match: (Load ptr mem) // cond: t.IsString() // result: (StringMake (Load ptr mem) (Load (OffPtr [config.PtrSize] ptr) mem)) for { t := v.Type ptr := v_0 mem := v_1 if !(t.IsString()) { break } v.reset(OpStringMake) v0 := b.NewValue0(v.Pos, OpLoad, typ.BytePtr) v0.AddArg2(ptr, mem) v1 := b.NewValue0(v.Pos, OpLoad, typ.Int) v2 := b.NewValue0(v.Pos, OpOffPtr, typ.IntPtr) v2.AuxInt = int64ToAuxInt(config.PtrSize) v2.AddArg(ptr) v1.AddArg2(v2, mem) v.AddArg2(v0, v1) return true } // match: (Load ptr mem) // cond: t.IsSlice() // result: (SliceMake (Load ptr mem) (Load (OffPtr [config.PtrSize] ptr) mem) (Load (OffPtr [2*config.PtrSize] ptr) mem)) for { t := v.Type ptr := v_0 mem := v_1 if !(t.IsSlice()) { break } v.reset(OpSliceMake) v0 := b.NewValue0(v.Pos, OpLoad, t.Elem().PtrTo()) v0.AddArg2(ptr, mem) v1 := b.NewValue0(v.Pos, OpLoad, typ.Int) v2 := b.NewValue0(v.Pos, OpOffPtr, typ.IntPtr) v2.AuxInt = int64ToAuxInt(config.PtrSize) v2.AddArg(ptr) v1.AddArg2(v2, mem) v3 := b.NewValue0(v.Pos, OpLoad, typ.Int) v4 := b.NewValue0(v.Pos, OpOffPtr, typ.IntPtr) v4.AuxInt = int64ToAuxInt(2 * config.PtrSize) v4.AddArg(ptr) v3.AddArg2(v4, mem) v.AddArg3(v0, v1, v3) return true } // match: (Load ptr mem) // cond: t.IsInterface() // result: (IMake (Load ptr mem) (Load (OffPtr [config.PtrSize] ptr) mem)) for { t := v.Type ptr := v_0 mem := v_1 if !(t.IsInterface()) { break } v.reset(OpIMake) v0 := b.NewValue0(v.Pos, OpLoad, typ.Uintptr) v0.AddArg2(ptr, mem) v1 := b.NewValue0(v.Pos, OpLoad, typ.BytePtr) v2 := b.NewValue0(v.Pos, OpOffPtr, typ.BytePtrPtr) v2.AuxInt = int64ToAuxInt(config.PtrSize) v2.AddArg(ptr) v1.AddArg2(v2, mem) v.AddArg2(v0, v1) return true } return false } func rewriteValuedec_OpSliceCap(v *Value) bool { v_0 := v.Args[0] b := v.Block config := b.Func.Config typ := &b.Func.Config.Types // match: (SliceCap (SliceMake _ _ cap)) // result: cap for { if v_0.Op != OpSliceMake { break } cap := v_0.Args[2] v.copyOf(cap) return true } // match: (SliceCap x:(Load ptr mem)) // cond: t.IsSlice() // result: @x.Block (Load (OffPtr [2*config.PtrSize] ptr) mem) for { x := v_0 if x.Op != OpLoad { break } t := x.Type mem := x.Args[1] ptr := x.Args[0] if !(t.IsSlice()) { break } b = x.Block v0 := b.NewValue0(v.Pos, OpLoad, typ.Int) v.copyOf(v0) v1 := b.NewValue0(v.Pos, OpOffPtr, typ.IntPtr) v1.AuxInt = int64ToAuxInt(2 * config.PtrSize) v1.AddArg(ptr) v0.AddArg2(v1, mem) return true } return false } func rewriteValuedec_OpSliceLen(v *Value) bool { v_0 := v.Args[0] b := v.Block config := b.Func.Config typ := &b.Func.Config.Types // match: (SliceLen (SliceMake _ len _)) // result: len for { if v_0.Op != OpSliceMake { break } len := v_0.Args[1] v.copyOf(len) return true } // match: (SliceLen x:(Load ptr mem)) // cond: t.IsSlice() // result: @x.Block (Load (OffPtr [config.PtrSize] ptr) mem) for { x := v_0 if x.Op != OpLoad { break } t := x.Type mem := x.Args[1] ptr := x.Args[0] if !(t.IsSlice()) { break } b = x.Block v0 := b.NewValue0(v.Pos, OpLoad, typ.Int) v.copyOf(v0) v1 := b.NewValue0(v.Pos, OpOffPtr, typ.IntPtr) v1.AuxInt = int64ToAuxInt(config.PtrSize) v1.AddArg(ptr) v0.AddArg2(v1, mem) return true } return false } func rewriteValuedec_OpSlicePtr(v *Value) bool { v_0 := v.Args[0] b := v.Block // match: (SlicePtr (SliceMake ptr _ _ )) // result: ptr for { if v_0.Op != OpSliceMake { break } ptr := v_0.Args[0] v.copyOf(ptr) return true } // match: (SlicePtr x:(Load ptr mem)) // cond: t.IsSlice() // result: @x.Block (Load ptr mem) for { x := v_0 if x.Op != OpLoad { break } t := x.Type mem := x.Args[1] ptr := x.Args[0] if !(t.IsSlice()) { break } b = x.Block v0 := b.NewValue0(v.Pos, OpLoad, t.Elem().PtrTo()) v.copyOf(v0) v0.AddArg2(ptr, mem) return true } return false } func rewriteValuedec_OpSlicePtrUnchecked(v *Value) bool { v_0 := v.Args[0] // match: (SlicePtrUnchecked (SliceMake ptr _ _ )) // result: ptr for { if v_0.Op != OpSliceMake { break } ptr := v_0.Args[0] v.copyOf(ptr) return true } return false } func rewriteValuedec_OpStore(v *Value) bool { v_2 := v.Args[2] v_1 := v.Args[1] v_0 := v.Args[0] b := v.Block config := b.Func.Config typ := &b.Func.Config.Types // match: (Store {t} _ _ mem) // cond: t.Size() == 0 // result: mem for { t := auxToType(v.Aux) mem := v_2 if !(t.Size() == 0) { break } v.copyOf(mem) return true } // match: (Store {t} dst (ComplexMake real imag) mem) // cond: t.Size() == 8 // result: (Store {typ.Float32} (OffPtr [4] dst) imag (Store {typ.Float32} dst real mem)) for { t := auxToType(v.Aux) dst := v_0 if v_1.Op != OpComplexMake { break } imag := v_1.Args[1] real := v_1.Args[0] mem := v_2 if !(t.Size() == 8) { break } v.reset(OpStore) v.Aux = typeToAux(typ.Float32) v0 := b.NewValue0(v.Pos, OpOffPtr, typ.Float32Ptr) v0.AuxInt = int64ToAuxInt(4) v0.AddArg(dst) v1 := b.NewValue0(v.Pos, OpStore, types.TypeMem) v1.Aux = typeToAux(typ.Float32) v1.AddArg3(dst, real, mem) v.AddArg3(v0, imag, v1) return true } // match: (Store {t} dst (ComplexMake real imag) mem) // cond: t.Size() == 16 // result: (Store {typ.Float64} (OffPtr [8] dst) imag (Store {typ.Float64} dst real mem)) for { t := auxToType(v.Aux) dst := v_0 if v_1.Op != OpComplexMake { break } imag := v_1.Args[1] real := v_1.Args[0] mem := v_2 if !(t.Size() == 16) { break } v.reset(OpStore) v.Aux = typeToAux(typ.Float64) v0 := b.NewValue0(v.Pos, OpOffPtr, typ.Float64Ptr) v0.AuxInt = int64ToAuxInt(8) v0.AddArg(dst) v1 := b.NewValue0(v.Pos, OpStore, types.TypeMem) v1.Aux = typeToAux(typ.Float64) v1.AddArg3(dst, real, mem) v.AddArg3(v0, imag, v1) return true } // match: (Store dst (StringMake ptr len) mem) // result: (Store {typ.Int} (OffPtr [config.PtrSize] dst) len (Store {typ.BytePtr} dst ptr mem)) for { dst := v_0 if v_1.Op != OpStringMake { break } len := v_1.Args[1] ptr := v_1.Args[0] mem := v_2 v.reset(OpStore) v.Aux = typeToAux(typ.Int) v0 := b.NewValue0(v.Pos, OpOffPtr, typ.IntPtr) v0.AuxInt = int64ToAuxInt(config.PtrSize) v0.AddArg(dst) v1 := b.NewValue0(v.Pos, OpStore, types.TypeMem) v1.Aux = typeToAux(typ.BytePtr) v1.AddArg3(dst, ptr, mem) v.AddArg3(v0, len, v1) return true } // match: (Store {t} dst (SliceMake ptr len cap) mem) // result: (Store {typ.Int} (OffPtr [2*config.PtrSize] dst) cap (Store {typ.Int} (OffPtr [config.PtrSize] dst) len (Store {t.Elem().PtrTo()} dst ptr mem))) for { t := auxToType(v.Aux) dst := v_0 if v_1.Op != OpSliceMake { break } cap := v_1.Args[2] ptr := v_1.Args[0] len := v_1.Args[1] mem := v_2 v.reset(OpStore) v.Aux = typeToAux(typ.Int) v0 := b.NewValue0(v.Pos, OpOffPtr, typ.IntPtr) v0.AuxInt = int64ToAuxInt(2 * config.PtrSize) v0.AddArg(dst) v1 := b.NewValue0(v.Pos, OpStore, types.TypeMem) v1.Aux = typeToAux(typ.Int) v2 := b.NewValue0(v.Pos, OpOffPtr, typ.IntPtr) v2.AuxInt = int64ToAuxInt(config.PtrSize) v2.AddArg(dst) v3 := b.NewValue0(v.Pos, OpStore, types.TypeMem) v3.Aux = typeToAux(t.Elem().PtrTo()) v3.AddArg3(dst, ptr, mem) v1.AddArg3(v2, len, v3) v.AddArg3(v0, cap, v1) return true } // match: (Store dst (IMake itab data) mem) // result: (Store {typ.BytePtr} (OffPtr [config.PtrSize] dst) data (Store {typ.Uintptr} dst itab mem)) for { dst := v_0 if v_1.Op != OpIMake { break } data := v_1.Args[1] itab := v_1.Args[0] mem := v_2 v.reset(OpStore) v.Aux = typeToAux(typ.BytePtr) v0 := b.NewValue0(v.Pos, OpOffPtr, typ.BytePtrPtr) v0.AuxInt = int64ToAuxInt(config.PtrSize) v0.AddArg(dst) v1 := b.NewValue0(v.Pos, OpStore, types.TypeMem) v1.Aux = typeToAux(typ.Uintptr) v1.AddArg3(dst, itab, mem) v.AddArg3(v0, data, v1) return true } // match: (Store dst (StructMake1 f0) mem) // result: (Store {t.FieldType(0)} (OffPtr [0] dst) f0 mem) for { dst := v_0 if v_1.Op != OpStructMake1 { break } t := v_1.Type f0 := v_1.Args[0] mem := v_2 v.reset(OpStore) v.Aux = typeToAux(t.FieldType(0)) v0 := b.NewValue0(v.Pos, OpOffPtr, t.FieldType(0).PtrTo()) v0.AuxInt = int64ToAuxInt(0) v0.AddArg(dst) v.AddArg3(v0, f0, mem) return true } // match: (Store dst (StructMake2 f0 f1) mem) // result: (Store {t.FieldType(1)} (OffPtr [t.FieldOff(1)] dst) f1 (Store {t.FieldType(0)} (OffPtr [0] dst) f0 mem)) for { dst := v_0 if v_1.Op != OpStructMake2 { break } t := v_1.Type f1 := v_1.Args[1] f0 := v_1.Args[0] mem := v_2 v.reset(OpStore) v.Aux = typeToAux(t.FieldType(1)) v0 := b.NewValue0(v.Pos, OpOffPtr, t.FieldType(1).PtrTo()) v0.AuxInt = int64ToAuxInt(t.FieldOff(1)) v0.AddArg(dst) v1 := b.NewValue0(v.Pos, OpStore, types.TypeMem) v1.Aux = typeToAux(t.FieldType(0)) v2 := b.NewValue0(v.Pos, OpOffPtr, t.FieldType(0).PtrTo()) v2.AuxInt = int64ToAuxInt(0) v2.AddArg(dst) v1.AddArg3(v2, f0, mem) v.AddArg3(v0, f1, v1) return true } // match: (Store dst (StructMake3 f0 f1 f2) mem) // result: (Store {t.FieldType(2)} (OffPtr [t.FieldOff(2)] dst) f2 (Store {t.FieldType(1)} (OffPtr [t.FieldOff(1)] dst) f1 (Store {t.FieldType(0)} (OffPtr [0] dst) f0 mem))) for { dst := v_0 if v_1.Op != OpStructMake3 { break } t := v_1.Type f2 := v_1.Args[2] f0 := v_1.Args[0] f1 := v_1.Args[1] mem := v_2 v.reset(OpStore) v.Aux = typeToAux(t.FieldType(2)) v0 := b.NewValue0(v.Pos, OpOffPtr, t.FieldType(2).PtrTo()) v0.AuxInt = int64ToAuxInt(t.FieldOff(2)) v0.AddArg(dst) v1 := b.NewValue0(v.Pos, OpStore, types.TypeMem) v1.Aux = typeToAux(t.FieldType(1)) v2 := b.NewValue0(v.Pos, OpOffPtr, t.FieldType(1).PtrTo()) v2.AuxInt = int64ToAuxInt(t.FieldOff(1)) v2.AddArg(dst) v3 := b.NewValue0(v.Pos, OpStore, types.TypeMem) v3.Aux = typeToAux(t.FieldType(0)) v4 := b.NewValue0(v.Pos, OpOffPtr, t.FieldType(0).PtrTo()) v4.AuxInt = int64ToAuxInt(0) v4.AddArg(dst) v3.AddArg3(v4, f0, mem) v1.AddArg3(v2, f1, v3) v.AddArg3(v0, f2, v1) return true } // match: (Store dst (StructMake4 f0 f1 f2 f3) mem) // result: (Store {t.FieldType(3)} (OffPtr [t.FieldOff(3)] dst) f3 (Store {t.FieldType(2)} (OffPtr [t.FieldOff(2)] dst) f2 (Store {t.FieldType(1)} (OffPtr [t.FieldOff(1)] dst) f1 (Store {t.FieldType(0)} (OffPtr [0] dst) f0 mem)))) for { dst := v_0 if v_1.Op != OpStructMake4 { break } t := v_1.Type f3 := v_1.Args[3] f0 := v_1.Args[0] f1 := v_1.Args[1] f2 := v_1.Args[2] mem := v_2 v.reset(OpStore) v.Aux = typeToAux(t.FieldType(3)) v0 := b.NewValue0(v.Pos, OpOffPtr, t.FieldType(3).PtrTo()) v0.AuxInt = int64ToAuxInt(t.FieldOff(3)) v0.AddArg(dst) v1 := b.NewValue0(v.Pos, OpStore, types.TypeMem) v1.Aux = typeToAux(t.FieldType(2)) v2 := b.NewValue0(v.Pos, OpOffPtr, t.FieldType(2).PtrTo()) v2.AuxInt = int64ToAuxInt(t.FieldOff(2)) v2.AddArg(dst) v3 := b.NewValue0(v.Pos, OpStore, types.TypeMem) v3.Aux = typeToAux(t.FieldType(1)) v4 := b.NewValue0(v.Pos, OpOffPtr, t.FieldType(1).PtrTo()) v4.AuxInt = int64ToAuxInt(t.FieldOff(1)) v4.AddArg(dst) v5 := b.NewValue0(v.Pos, OpStore, types.TypeMem) v5.Aux = typeToAux(t.FieldType(0)) v6 := b.NewValue0(v.Pos, OpOffPtr, t.FieldType(0).PtrTo()) v6.AuxInt = int64ToAuxInt(0) v6.AddArg(dst) v5.AddArg3(v6, f0, mem) v3.AddArg3(v4, f1, v5) v1.AddArg3(v2, f2, v3) v.AddArg3(v0, f3, v1) return true } // match: (Store dst (ArrayMake1 e) mem) // result: (Store {e.Type} dst e mem) for { dst := v_0 if v_1.Op != OpArrayMake1 { break } e := v_1.Args[0] mem := v_2 v.reset(OpStore) v.Aux = typeToAux(e.Type) v.AddArg3(dst, e, mem) return true } return false } func rewriteValuedec_OpStringLen(v *Value) bool { v_0 := v.Args[0] b := v.Block config := b.Func.Config typ := &b.Func.Config.Types // match: (StringLen (StringMake _ len)) // result: len for { if v_0.Op != OpStringMake { break } len := v_0.Args[1] v.copyOf(len) return true } // match: (StringLen x:(Load ptr mem)) // cond: t.IsString() // result: @x.Block (Load (OffPtr [config.PtrSize] ptr) mem) for { x := v_0 if x.Op != OpLoad { break } t := x.Type mem := x.Args[1] ptr := x.Args[0] if !(t.IsString()) { break } b = x.Block v0 := b.NewValue0(v.Pos, OpLoad, typ.Int) v.copyOf(v0) v1 := b.NewValue0(v.Pos, OpOffPtr, typ.IntPtr) v1.AuxInt = int64ToAuxInt(config.PtrSize) v1.AddArg(ptr) v0.AddArg2(v1, mem) return true } return false } func rewriteValuedec_OpStringPtr(v *Value) bool { v_0 := v.Args[0] b := v.Block typ := &b.Func.Config.Types // match: (StringPtr (StringMake ptr _)) // result: ptr for { if v_0.Op != OpStringMake { break } ptr := v_0.Args[0] v.copyOf(ptr) return true } // match: (StringPtr x:(Load ptr mem)) // cond: t.IsString() // result: @x.Block (Load ptr mem) for { x := v_0 if x.Op != OpLoad { break } t := x.Type mem := x.Args[1] ptr := x.Args[0] if !(t.IsString()) { break } b = x.Block v0 := b.NewValue0(v.Pos, OpLoad, typ.BytePtr) v.copyOf(v0) v0.AddArg2(ptr, mem) return true } return false } func rewriteValuedec_OpStructMake1(v *Value) bool { v_0 := v.Args[0] // match: (StructMake1 x) // cond: x.Type.IsPtrShaped() // result: x for { x := v_0 if !(x.Type.IsPtrShaped()) { break } v.copyOf(x) return true } return false } func rewriteValuedec_OpStructSelect(v *Value) bool { v_0 := v.Args[0] b := v.Block // match: (StructSelect [0] (IData x)) // result: (IData x) for { if auxIntToInt64(v.AuxInt) != 0 || v_0.Op != OpIData { break } x := v_0.Args[0] v.reset(OpIData) v.AddArg(x) return true } // match: (StructSelect (StructMake1 x)) // result: x for { if v_0.Op != OpStructMake1 { break } x := v_0.Args[0] v.copyOf(x) return true } // match: (StructSelect [0] (StructMake2 x _)) // result: x for { if auxIntToInt64(v.AuxInt) != 0 || v_0.Op != OpStructMake2 { break } x := v_0.Args[0] v.copyOf(x) return true } // match: (StructSelect [1] (StructMake2 _ x)) // result: x for { if auxIntToInt64(v.AuxInt) != 1 || v_0.Op != OpStructMake2 { break } x := v_0.Args[1] v.copyOf(x) return true } // match: (StructSelect [0] (StructMake3 x _ _)) // result: x for { if auxIntToInt64(v.AuxInt) != 0 || v_0.Op != OpStructMake3 { break } x := v_0.Args[0] v.copyOf(x) return true } // match: (StructSelect [1] (StructMake3 _ x _)) // result: x for { if auxIntToInt64(v.AuxInt) != 1 || v_0.Op != OpStructMake3 { break } x := v_0.Args[1] v.copyOf(x) return true } // match: (StructSelect [2] (StructMake3 _ _ x)) // result: x for { if auxIntToInt64(v.AuxInt) != 2 || v_0.Op != OpStructMake3 { break } x := v_0.Args[2] v.copyOf(x) return true } // match: (StructSelect [0] (StructMake4 x _ _ _)) // result: x for { if auxIntToInt64(v.AuxInt) != 0 || v_0.Op != OpStructMake4 { break } x := v_0.Args[0] v.copyOf(x) return true } // match: (StructSelect [1] (StructMake4 _ x _ _)) // result: x for { if auxIntToInt64(v.AuxInt) != 1 || v_0.Op != OpStructMake4 { break } x := v_0.Args[1] v.copyOf(x) return true } // match: (StructSelect [2] (StructMake4 _ _ x _)) // result: x for { if auxIntToInt64(v.AuxInt) != 2 || v_0.Op != OpStructMake4 { break } x := v_0.Args[2] v.copyOf(x) return true } // match: (StructSelect [3] (StructMake4 _ _ _ x)) // result: x for { if auxIntToInt64(v.AuxInt) != 3 || v_0.Op != OpStructMake4 { break } x := v_0.Args[3] v.copyOf(x) return true } // match: (StructSelect [0] x) // cond: x.Type.IsPtrShaped() // result: x for { if auxIntToInt64(v.AuxInt) != 0 { break } x := v_0 if !(x.Type.IsPtrShaped()) { break } v.copyOf(x) return true } // match: (StructSelect [i] x:(Load ptr mem)) // result: @x.Block (Load (OffPtr [t.FieldOff(int(i))] ptr) mem) for { i := auxIntToInt64(v.AuxInt) x := v_0 if x.Op != OpLoad { break } t := x.Type mem := x.Args[1] ptr := x.Args[0] b = x.Block v0 := b.NewValue0(v.Pos, OpLoad, v.Type) v.copyOf(v0) v1 := b.NewValue0(v.Pos, OpOffPtr, v.Type.PtrTo()) v1.AuxInt = int64ToAuxInt(t.FieldOff(int(i))) v1.AddArg(ptr) v0.AddArg2(v1, mem) return true } return false } func rewriteBlockdec(b *Block) bool { return false }