// Code generated by mknode.go. DO NOT EDIT. package ir import "fmt" func (n *AddStringExpr) Format(s fmt.State, verb rune) { fmtNode(n, s, verb) } func (n *AddStringExpr) copy() Node { c := *n c.init = copyNodes(c.init) c.List = copyNodes(c.List) return &c } func (n *AddStringExpr) doChildren(do func(Node) bool) bool { if doNodes(n.init, do) { return true } if doNodes(n.List, do) { return true } if n.Prealloc != nil && do(n.Prealloc) { return true } return false } func (n *AddStringExpr) editChildren(edit func(Node) Node) { editNodes(n.init, edit) editNodes(n.List, edit) if n.Prealloc != nil { n.Prealloc = edit(n.Prealloc).(*Name) } } func (n *AddrExpr) Format(s fmt.State, verb rune) { fmtNode(n, s, verb) } func (n *AddrExpr) copy() Node { c := *n c.init = copyNodes(c.init) return &c } func (n *AddrExpr) doChildren(do func(Node) bool) bool { if doNodes(n.init, do) { return true } if n.X != nil && do(n.X) { return true } if n.Prealloc != nil && do(n.Prealloc) { return true } return false } func (n *AddrExpr) editChildren(edit func(Node) Node) { editNodes(n.init, edit) if n.X != nil { n.X = edit(n.X).(Node) } if n.Prealloc != nil { n.Prealloc = edit(n.Prealloc).(*Name) } } func (n *ArrayType) Format(s fmt.State, verb rune) { fmtNode(n, s, verb) } func (n *ArrayType) copy() Node { c := *n return &c } func (n *ArrayType) doChildren(do func(Node) bool) bool { if n.Len != nil && do(n.Len) { return true } if n.Elem != nil && do(n.Elem) { return true } return false } func (n *ArrayType) editChildren(edit func(Node) Node) { if n.Len != nil { n.Len = edit(n.Len).(Node) } if n.Elem != nil { n.Elem = edit(n.Elem).(Ntype) } } func (n *AssignListStmt) Format(s fmt.State, verb rune) { fmtNode(n, s, verb) } func (n *AssignListStmt) copy() Node { c := *n c.init = copyNodes(c.init) c.Lhs = copyNodes(c.Lhs) c.Rhs = copyNodes(c.Rhs) return &c } func (n *AssignListStmt) doChildren(do func(Node) bool) bool { if doNodes(n.init, do) { return true } if doNodes(n.Lhs, do) { return true } if doNodes(n.Rhs, do) { return true } return false } func (n *AssignListStmt) editChildren(edit func(Node) Node) { editNodes(n.init, edit) editNodes(n.Lhs, edit) editNodes(n.Rhs, edit) } func (n *AssignOpStmt) Format(s fmt.State, verb rune) { fmtNode(n, s, verb) } func (n *AssignOpStmt) copy() Node { c := *n c.init = copyNodes(c.init) return &c } func (n *AssignOpStmt) doChildren(do func(Node) bool) bool { if doNodes(n.init, do) { return true } if n.X != nil && do(n.X) { return true } if n.Y != nil && do(n.Y) { return true } return false } func (n *AssignOpStmt) editChildren(edit func(Node) Node) { editNodes(n.init, edit) if n.X != nil { n.X = edit(n.X).(Node) } if n.Y != nil { n.Y = edit(n.Y).(Node) } } func (n *AssignStmt) Format(s fmt.State, verb rune) { fmtNode(n, s, verb) } func (n *AssignStmt) copy() Node { c := *n c.init = copyNodes(c.init) return &c } func (n *AssignStmt) doChildren(do func(Node) bool) bool { if doNodes(n.init, do) { return true } if n.X != nil && do(n.X) { return true } if n.Y != nil && do(n.Y) { return true } return false } func (n *AssignStmt) editChildren(edit func(Node) Node) { editNodes(n.init, edit) if n.X != nil { n.X = edit(n.X).(Node) } if n.Y != nil { n.Y = edit(n.Y).(Node) } } func (n *BasicLit) Format(s fmt.State, verb rune) { fmtNode(n, s, verb) } func (n *BasicLit) copy() Node { c := *n c.init = copyNodes(c.init) return &c } func (n *BasicLit) doChildren(do func(Node) bool) bool { if doNodes(n.init, do) { return true } return false } func (n *BasicLit) editChildren(edit func(Node) Node) { editNodes(n.init, edit) } func (n *BinaryExpr) Format(s fmt.State, verb rune) { fmtNode(n, s, verb) } func (n *BinaryExpr) copy() Node { c := *n c.init = copyNodes(c.init) return &c } func (n *BinaryExpr) doChildren(do func(Node) bool) bool { if doNodes(n.init, do) { return true } if n.X != nil && do(n.X) { return true } if n.Y != nil && do(n.Y) { return true } return false } func (n *BinaryExpr) editChildren(edit func(Node) Node) { editNodes(n.init, edit) if n.X != nil { n.X = edit(n.X).(Node) } if n.Y != nil { n.Y = edit(n.Y).(Node) } } func (n *BlockStmt) Format(s fmt.State, verb rune) { fmtNode(n, s, verb) } func (n *BlockStmt) copy() Node { c := *n c.init = copyNodes(c.init) c.List = copyNodes(c.List) return &c } func (n *BlockStmt) doChildren(do func(Node) bool) bool { if doNodes(n.init, do) { return true } if doNodes(n.List, do) { return true } return false } func (n *BlockStmt) editChildren(edit func(Node) Node) { editNodes(n.init, edit) editNodes(n.List, edit) } func (n *BranchStmt) Format(s fmt.State, verb rune) { fmtNode(n, s, verb) } func (n *BranchStmt) copy() Node { c := *n c.init = copyNodes(c.init) return &c } func (n *BranchStmt) doChildren(do func(Node) bool) bool { if doNodes(n.init, do) { return true } return false } func (n *BranchStmt) editChildren(edit func(Node) Node) { editNodes(n.init, edit) } func (n *CallExpr) Format(s fmt.State, verb rune) { fmtNode(n, s, verb) } func (n *CallExpr) copy() Node { c := *n c.init = copyNodes(c.init) c.Args = copyNodes(c.Args) c.KeepAlive = copyNames(c.KeepAlive) return &c } func (n *CallExpr) doChildren(do func(Node) bool) bool { if doNodes(n.init, do) { return true } if n.X != nil && do(n.X) { return true } if doNodes(n.Args, do) { return true } if doNames(n.KeepAlive, do) { return true } return false } func (n *CallExpr) editChildren(edit func(Node) Node) { editNodes(n.init, edit) if n.X != nil { n.X = edit(n.X).(Node) } editNodes(n.Args, edit) editNames(n.KeepAlive, edit) } func (n *CaseClause) Format(s fmt.State, verb rune) { fmtNode(n, s, verb) } func (n *CaseClause) copy() Node { c := *n c.init = copyNodes(c.init) c.List = copyNodes(c.List) c.Body = copyNodes(c.Body) return &c } func (n *CaseClause) doChildren(do func(Node) bool) bool { if doNodes(n.init, do) { return true } if n.Var != nil && do(n.Var) { return true } if doNodes(n.List, do) { return true } if doNodes(n.Body, do) { return true } return false } func (n *CaseClause) editChildren(edit func(Node) Node) { editNodes(n.init, edit) if n.Var != nil { n.Var = edit(n.Var).(*Name) } editNodes(n.List, edit) editNodes(n.Body, edit) } func (n *ChanType) Format(s fmt.State, verb rune) { fmtNode(n, s, verb) } func (n *ChanType) copy() Node { c := *n return &c } func (n *ChanType) doChildren(do func(Node) bool) bool { if n.Elem != nil && do(n.Elem) { return true } return false } func (n *ChanType) editChildren(edit func(Node) Node) { if n.Elem != nil { n.Elem = edit(n.Elem).(Ntype) } } func (n *ClosureExpr) Format(s fmt.State, verb rune) { fmtNode(n, s, verb) } func (n *ClosureExpr) copy() Node { c := *n c.init = copyNodes(c.init) return &c } func (n *ClosureExpr) doChildren(do func(Node) bool) bool { if doNodes(n.init, do) { return true } if n.Prealloc != nil && do(n.Prealloc) { return true } return false } func (n *ClosureExpr) editChildren(edit func(Node) Node) { editNodes(n.init, edit) if n.Prealloc != nil { n.Prealloc = edit(n.Prealloc).(*Name) } } func (n *CommClause) Format(s fmt.State, verb rune) { fmtNode(n, s, verb) } func (n *CommClause) copy() Node { c := *n c.init = copyNodes(c.init) c.Body = copyNodes(c.Body) return &c } func (n *CommClause) doChildren(do func(Node) bool) bool { if doNodes(n.init, do) { return true } if n.Comm != nil && do(n.Comm) { return true } if doNodes(n.Body, do) { return true } return false } func (n *CommClause) editChildren(edit func(Node) Node) { editNodes(n.init, edit) if n.Comm != nil { n.Comm = edit(n.Comm).(Node) } editNodes(n.Body, edit) } func (n *CompLitExpr) Format(s fmt.State, verb rune) { fmtNode(n, s, verb) } func (n *CompLitExpr) copy() Node { c := *n c.init = copyNodes(c.init) c.List = copyNodes(c.List) return &c } func (n *CompLitExpr) doChildren(do func(Node) bool) bool { if doNodes(n.init, do) { return true } if n.Ntype != nil && do(n.Ntype) { return true } if doNodes(n.List, do) { return true } if n.Prealloc != nil && do(n.Prealloc) { return true } return false } func (n *CompLitExpr) editChildren(edit func(Node) Node) { editNodes(n.init, edit) if n.Ntype != nil { n.Ntype = edit(n.Ntype).(Ntype) } editNodes(n.List, edit) if n.Prealloc != nil { n.Prealloc = edit(n.Prealloc).(*Name) } } func (n *ConstExpr) Format(s fmt.State, verb rune) { fmtNode(n, s, verb) } func (n *ConstExpr) copy() Node { c := *n c.init = copyNodes(c.init) return &c } func (n *ConstExpr) doChildren(do func(Node) bool) bool { if doNodes(n.init, do) { return true } return false } func (n *ConstExpr) editChildren(edit func(Node) Node) { editNodes(n.init, edit) } func (n *ConvExpr) Format(s fmt.State, verb rune) { fmtNode(n, s, verb) } func (n *ConvExpr) copy() Node { c := *n c.init = copyNodes(c.init) return &c } func (n *ConvExpr) doChildren(do func(Node) bool) bool { if doNodes(n.init, do) { return true } if n.X != nil && do(n.X) { return true } return false } func (n *ConvExpr) editChildren(edit func(Node) Node) { editNodes(n.init, edit) if n.X != nil { n.X = edit(n.X).(Node) } } func (n *Decl) Format(s fmt.State, verb rune) { fmtNode(n, s, verb) } func (n *Decl) copy() Node { c := *n return &c } func (n *Decl) doChildren(do func(Node) bool) bool { if n.X != nil && do(n.X) { return true } return false } func (n *Decl) editChildren(edit func(Node) Node) { if n.X != nil { n.X = edit(n.X).(*Name) } } func (n *DynamicType) Format(s fmt.State, verb rune) { fmtNode(n, s, verb) } func (n *DynamicType) copy() Node { c := *n c.init = copyNodes(c.init) return &c } func (n *DynamicType) doChildren(do func(Node) bool) bool { if doNodes(n.init, do) { return true } if n.X != nil && do(n.X) { return true } if n.ITab != nil && do(n.ITab) { return true } return false } func (n *DynamicType) editChildren(edit func(Node) Node) { editNodes(n.init, edit) if n.X != nil { n.X = edit(n.X).(Node) } if n.ITab != nil { n.ITab = edit(n.ITab).(Node) } } func (n *DynamicTypeAssertExpr) Format(s fmt.State, verb rune) { fmtNode(n, s, verb) } func (n *DynamicTypeAssertExpr) copy() Node { c := *n c.init = copyNodes(c.init) return &c } func (n *DynamicTypeAssertExpr) doChildren(do func(Node) bool) bool { if doNodes(n.init, do) { return true } if n.X != nil && do(n.X) { return true } if n.T != nil && do(n.T) { return true } return false } func (n *DynamicTypeAssertExpr) editChildren(edit func(Node) Node) { editNodes(n.init, edit) if n.X != nil { n.X = edit(n.X).(Node) } if n.T != nil { n.T = edit(n.T).(Node) } } func (n *ForStmt) Format(s fmt.State, verb rune) { fmtNode(n, s, verb) } func (n *ForStmt) copy() Node { c := *n c.init = copyNodes(c.init) c.Late = copyNodes(c.Late) c.Body = copyNodes(c.Body) return &c } func (n *ForStmt) doChildren(do func(Node) bool) bool { if doNodes(n.init, do) { return true } if n.Cond != nil && do(n.Cond) { return true } if doNodes(n.Late, do) { return true } if n.Post != nil && do(n.Post) { return true } if doNodes(n.Body, do) { return true } return false } func (n *ForStmt) editChildren(edit func(Node) Node) { editNodes(n.init, edit) if n.Cond != nil { n.Cond = edit(n.Cond).(Node) } editNodes(n.Late, edit) if n.Post != nil { n.Post = edit(n.Post).(Node) } editNodes(n.Body, edit) } func (n *Func) Format(s fmt.State, verb rune) { fmtNode(n, s, verb) } func (n *FuncType) Format(s fmt.State, verb rune) { fmtNode(n, s, verb) } func (n *FuncType) copy() Node { c := *n c.Recv = copyField(c.Recv) c.Params = copyFields(c.Params) c.Results = copyFields(c.Results) return &c } func (n *FuncType) doChildren(do func(Node) bool) bool { if doField(n.Recv, do) { return true } if doFields(n.Params, do) { return true } if doFields(n.Results, do) { return true } return false } func (n *FuncType) editChildren(edit func(Node) Node) { editField(n.Recv, edit) editFields(n.Params, edit) editFields(n.Results, edit) } func (n *GoDeferStmt) Format(s fmt.State, verb rune) { fmtNode(n, s, verb) } func (n *GoDeferStmt) copy() Node { c := *n c.init = copyNodes(c.init) return &c } func (n *GoDeferStmt) doChildren(do func(Node) bool) bool { if doNodes(n.init, do) { return true } if n.Call != nil && do(n.Call) { return true } return false } func (n *GoDeferStmt) editChildren(edit func(Node) Node) { editNodes(n.init, edit) if n.Call != nil { n.Call = edit(n.Call).(Node) } } func (n *Ident) Format(s fmt.State, verb rune) { fmtNode(n, s, verb) } func (n *Ident) copy() Node { c := *n c.init = copyNodes(c.init) return &c } func (n *Ident) doChildren(do func(Node) bool) bool { if doNodes(n.init, do) { return true } return false } func (n *Ident) editChildren(edit func(Node) Node) { editNodes(n.init, edit) } func (n *IfStmt) Format(s fmt.State, verb rune) { fmtNode(n, s, verb) } func (n *IfStmt) copy() Node { c := *n c.init = copyNodes(c.init) c.Body = copyNodes(c.Body) c.Else = copyNodes(c.Else) return &c } func (n *IfStmt) doChildren(do func(Node) bool) bool { if doNodes(n.init, do) { return true } if n.Cond != nil && do(n.Cond) { return true } if doNodes(n.Body, do) { return true } if doNodes(n.Else, do) { return true } return false } func (n *IfStmt) editChildren(edit func(Node) Node) { editNodes(n.init, edit) if n.Cond != nil { n.Cond = edit(n.Cond).(Node) } editNodes(n.Body, edit) editNodes(n.Else, edit) } func (n *IndexExpr) Format(s fmt.State, verb rune) { fmtNode(n, s, verb) } func (n *IndexExpr) copy() Node { c := *n c.init = copyNodes(c.init) return &c } func (n *IndexExpr) doChildren(do func(Node) bool) bool { if doNodes(n.init, do) { return true } if n.X != nil && do(n.X) { return true } if n.Index != nil && do(n.Index) { return true } return false } func (n *IndexExpr) editChildren(edit func(Node) Node) { editNodes(n.init, edit) if n.X != nil { n.X = edit(n.X).(Node) } if n.Index != nil { n.Index = edit(n.Index).(Node) } } func (n *InlineMarkStmt) Format(s fmt.State, verb rune) { fmtNode(n, s, verb) } func (n *InlineMarkStmt) copy() Node { c := *n c.init = copyNodes(c.init) return &c } func (n *InlineMarkStmt) doChildren(do func(Node) bool) bool { if doNodes(n.init, do) { return true } return false } func (n *InlineMarkStmt) editChildren(edit func(Node) Node) { editNodes(n.init, edit) } func (n *InlinedCallExpr) Format(s fmt.State, verb rune) { fmtNode(n, s, verb) } func (n *InlinedCallExpr) copy() Node { c := *n c.init = copyNodes(c.init) c.Body = copyNodes(c.Body) c.ReturnVars = copyNodes(c.ReturnVars) return &c } func (n *InlinedCallExpr) doChildren(do func(Node) bool) bool { if doNodes(n.init, do) { return true } if doNodes(n.Body, do) { return true } if doNodes(n.ReturnVars, do) { return true } return false } func (n *InlinedCallExpr) editChildren(edit func(Node) Node) { editNodes(n.init, edit) editNodes(n.Body, edit) editNodes(n.ReturnVars, edit) } func (n *InstExpr) Format(s fmt.State, verb rune) { fmtNode(n, s, verb) } func (n *InstExpr) copy() Node { c := *n c.init = copyNodes(c.init) c.Targs = copyNodes(c.Targs) return &c } func (n *InstExpr) doChildren(do func(Node) bool) bool { if doNodes(n.init, do) { return true } if n.X != nil && do(n.X) { return true } if doNodes(n.Targs, do) { return true } return false } func (n *InstExpr) editChildren(edit func(Node) Node) { editNodes(n.init, edit) if n.X != nil { n.X = edit(n.X).(Node) } editNodes(n.Targs, edit) } func (n *InterfaceType) Format(s fmt.State, verb rune) { fmtNode(n, s, verb) } func (n *InterfaceType) copy() Node { c := *n c.Methods = copyFields(c.Methods) return &c } func (n *InterfaceType) doChildren(do func(Node) bool) bool { if doFields(n.Methods, do) { return true } return false } func (n *InterfaceType) editChildren(edit func(Node) Node) { editFields(n.Methods, edit) } func (n *KeyExpr) Format(s fmt.State, verb rune) { fmtNode(n, s, verb) } func (n *KeyExpr) copy() Node { c := *n c.init = copyNodes(c.init) return &c } func (n *KeyExpr) doChildren(do func(Node) bool) bool { if doNodes(n.init, do) { return true } if n.Key != nil && do(n.Key) { return true } if n.Value != nil && do(n.Value) { return true } return false } func (n *KeyExpr) editChildren(edit func(Node) Node) { editNodes(n.init, edit) if n.Key != nil { n.Key = edit(n.Key).(Node) } if n.Value != nil { n.Value = edit(n.Value).(Node) } } func (n *LabelStmt) Format(s fmt.State, verb rune) { fmtNode(n, s, verb) } func (n *LabelStmt) copy() Node { c := *n c.init = copyNodes(c.init) return &c } func (n *LabelStmt) doChildren(do func(Node) bool) bool { if doNodes(n.init, do) { return true } return false } func (n *LabelStmt) editChildren(edit func(Node) Node) { editNodes(n.init, edit) } func (n *LinksymOffsetExpr) Format(s fmt.State, verb rune) { fmtNode(n, s, verb) } func (n *LinksymOffsetExpr) copy() Node { c := *n c.init = copyNodes(c.init) return &c } func (n *LinksymOffsetExpr) doChildren(do func(Node) bool) bool { if doNodes(n.init, do) { return true } return false } func (n *LinksymOffsetExpr) editChildren(edit func(Node) Node) { editNodes(n.init, edit) } func (n *LogicalExpr) Format(s fmt.State, verb rune) { fmtNode(n, s, verb) } func (n *LogicalExpr) copy() Node { c := *n c.init = copyNodes(c.init) return &c } func (n *LogicalExpr) doChildren(do func(Node) bool) bool { if doNodes(n.init, do) { return true } if n.X != nil && do(n.X) { return true } if n.Y != nil && do(n.Y) { return true } return false } func (n *LogicalExpr) editChildren(edit func(Node) Node) { editNodes(n.init, edit) if n.X != nil { n.X = edit(n.X).(Node) } if n.Y != nil { n.Y = edit(n.Y).(Node) } } func (n *MakeExpr) Format(s fmt.State, verb rune) { fmtNode(n, s, verb) } func (n *MakeExpr) copy() Node { c := *n c.init = copyNodes(c.init) return &c } func (n *MakeExpr) doChildren(do func(Node) bool) bool { if doNodes(n.init, do) { return true } if n.Len != nil && do(n.Len) { return true } if n.Cap != nil && do(n.Cap) { return true } return false } func (n *MakeExpr) editChildren(edit func(Node) Node) { editNodes(n.init, edit) if n.Len != nil { n.Len = edit(n.Len).(Node) } if n.Cap != nil { n.Cap = edit(n.Cap).(Node) } } func (n *MapType) Format(s fmt.State, verb rune) { fmtNode(n, s, verb) } func (n *MapType) copy() Node { c := *n return &c } func (n *MapType) doChildren(do func(Node) bool) bool { if n.Key != nil && do(n.Key) { return true } if n.Elem != nil && do(n.Elem) { return true } return false } func (n *MapType) editChildren(edit func(Node) Node) { if n.Key != nil { n.Key = edit(n.Key).(Ntype) } if n.Elem != nil { n.Elem = edit(n.Elem).(Ntype) } } func (n *Name) Format(s fmt.State, verb rune) { fmtNode(n, s, verb) } func (n *NilExpr) Format(s fmt.State, verb rune) { fmtNode(n, s, verb) } func (n *NilExpr) copy() Node { c := *n c.init = copyNodes(c.init) return &c } func (n *NilExpr) doChildren(do func(Node) bool) bool { if doNodes(n.init, do) { return true } return false } func (n *NilExpr) editChildren(edit func(Node) Node) { editNodes(n.init, edit) } func (n *ParenExpr) Format(s fmt.State, verb rune) { fmtNode(n, s, verb) } func (n *ParenExpr) copy() Node { c := *n c.init = copyNodes(c.init) return &c } func (n *ParenExpr) doChildren(do func(Node) bool) bool { if doNodes(n.init, do) { return true } if n.X != nil && do(n.X) { return true } return false } func (n *ParenExpr) editChildren(edit func(Node) Node) { editNodes(n.init, edit) if n.X != nil { n.X = edit(n.X).(Node) } } func (n *PkgName) Format(s fmt.State, verb rune) { fmtNode(n, s, verb) } func (n *PkgName) copy() Node { c := *n return &c } func (n *PkgName) doChildren(do func(Node) bool) bool { return false } func (n *PkgName) editChildren(edit func(Node) Node) { } func (n *RangeStmt) Format(s fmt.State, verb rune) { fmtNode(n, s, verb) } func (n *RangeStmt) copy() Node { c := *n c.init = copyNodes(c.init) c.Body = copyNodes(c.Body) return &c } func (n *RangeStmt) doChildren(do func(Node) bool) bool { if doNodes(n.init, do) { return true } if n.X != nil && do(n.X) { return true } if n.Key != nil && do(n.Key) { return true } if n.Value != nil && do(n.Value) { return true } if doNodes(n.Body, do) { return true } if n.Prealloc != nil && do(n.Prealloc) { return true } return false } func (n *RangeStmt) editChildren(edit func(Node) Node) { editNodes(n.init, edit) if n.X != nil { n.X = edit(n.X).(Node) } if n.Key != nil { n.Key = edit(n.Key).(Node) } if n.Value != nil { n.Value = edit(n.Value).(Node) } editNodes(n.Body, edit) if n.Prealloc != nil { n.Prealloc = edit(n.Prealloc).(*Name) } } func (n *RawOrigExpr) Format(s fmt.State, verb rune) { fmtNode(n, s, verb) } func (n *RawOrigExpr) copy() Node { c := *n c.init = copyNodes(c.init) return &c } func (n *RawOrigExpr) doChildren(do func(Node) bool) bool { if doNodes(n.init, do) { return true } return false } func (n *RawOrigExpr) editChildren(edit func(Node) Node) { editNodes(n.init, edit) } func (n *ResultExpr) Format(s fmt.State, verb rune) { fmtNode(n, s, verb) } func (n *ResultExpr) copy() Node { c := *n c.init = copyNodes(c.init) return &c } func (n *ResultExpr) doChildren(do func(Node) bool) bool { if doNodes(n.init, do) { return true } return false } func (n *ResultExpr) editChildren(edit func(Node) Node) { editNodes(n.init, edit) } func (n *ReturnStmt) Format(s fmt.State, verb rune) { fmtNode(n, s, verb) } func (n *ReturnStmt) copy() Node { c := *n c.init = copyNodes(c.init) c.Results = copyNodes(c.Results) return &c } func (n *ReturnStmt) doChildren(do func(Node) bool) bool { if doNodes(n.init, do) { return true } if doNodes(n.Results, do) { return true } return false } func (n *ReturnStmt) editChildren(edit func(Node) Node) { editNodes(n.init, edit) editNodes(n.Results, edit) } func (n *SelectStmt) Format(s fmt.State, verb rune) { fmtNode(n, s, verb) } func (n *SelectStmt) copy() Node { c := *n c.init = copyNodes(c.init) c.Cases = copyCommClauses(c.Cases) c.Compiled = copyNodes(c.Compiled) return &c } func (n *SelectStmt) doChildren(do func(Node) bool) bool { if doNodes(n.init, do) { return true } if doCommClauses(n.Cases, do) { return true } if doNodes(n.Compiled, do) { return true } return false } func (n *SelectStmt) editChildren(edit func(Node) Node) { editNodes(n.init, edit) editCommClauses(n.Cases, edit) editNodes(n.Compiled, edit) } func (n *SelectorExpr) Format(s fmt.State, verb rune) { fmtNode(n, s, verb) } func (n *SelectorExpr) copy() Node { c := *n c.init = copyNodes(c.init) return &c } func (n *SelectorExpr) doChildren(do func(Node) bool) bool { if doNodes(n.init, do) { return true } if n.X != nil && do(n.X) { return true } if n.Prealloc != nil && do(n.Prealloc) { return true } return false } func (n *SelectorExpr) editChildren(edit func(Node) Node) { editNodes(n.init, edit) if n.X != nil { n.X = edit(n.X).(Node) } if n.Prealloc != nil { n.Prealloc = edit(n.Prealloc).(*Name) } } func (n *SendStmt) Format(s fmt.State, verb rune) { fmtNode(n, s, verb) } func (n *SendStmt) copy() Node { c := *n c.init = copyNodes(c.init) return &c } func (n *SendStmt) doChildren(do func(Node) bool) bool { if doNodes(n.init, do) { return true } if n.Chan != nil && do(n.Chan) { return true } if n.Value != nil && do(n.Value) { return true } return false } func (n *SendStmt) editChildren(edit func(Node) Node) { editNodes(n.init, edit) if n.Chan != nil { n.Chan = edit(n.Chan).(Node) } if n.Value != nil { n.Value = edit(n.Value).(Node) } } func (n *SliceExpr) Format(s fmt.State, verb rune) { fmtNode(n, s, verb) } func (n *SliceExpr) copy() Node { c := *n c.init = copyNodes(c.init) return &c } func (n *SliceExpr) doChildren(do func(Node) bool) bool { if doNodes(n.init, do) { return true } if n.X != nil && do(n.X) { return true } if n.Low != nil && do(n.Low) { return true } if n.High != nil && do(n.High) { return true } if n.Max != nil && do(n.Max) { return true } return false } func (n *SliceExpr) editChildren(edit func(Node) Node) { editNodes(n.init, edit) if n.X != nil { n.X = edit(n.X).(Node) } if n.Low != nil { n.Low = edit(n.Low).(Node) } if n.High != nil { n.High = edit(n.High).(Node) } if n.Max != nil { n.Max = edit(n.Max).(Node) } } func (n *SliceHeaderExpr) Format(s fmt.State, verb rune) { fmtNode(n, s, verb) } func (n *SliceHeaderExpr) copy() Node { c := *n c.init = copyNodes(c.init) return &c } func (n *SliceHeaderExpr) doChildren(do func(Node) bool) bool { if doNodes(n.init, do) { return true } if n.Ptr != nil && do(n.Ptr) { return true } if n.Len != nil && do(n.Len) { return true } if n.Cap != nil && do(n.Cap) { return true } return false } func (n *SliceHeaderExpr) editChildren(edit func(Node) Node) { editNodes(n.init, edit) if n.Ptr != nil { n.Ptr = edit(n.Ptr).(Node) } if n.Len != nil { n.Len = edit(n.Len).(Node) } if n.Cap != nil { n.Cap = edit(n.Cap).(Node) } } func (n *SliceType) Format(s fmt.State, verb rune) { fmtNode(n, s, verb) } func (n *SliceType) copy() Node { c := *n return &c } func (n *SliceType) doChildren(do func(Node) bool) bool { if n.Elem != nil && do(n.Elem) { return true } return false } func (n *SliceType) editChildren(edit func(Node) Node) { if n.Elem != nil { n.Elem = edit(n.Elem).(Ntype) } } func (n *StarExpr) Format(s fmt.State, verb rune) { fmtNode(n, s, verb) } func (n *StarExpr) copy() Node { c := *n c.init = copyNodes(c.init) return &c } func (n *StarExpr) doChildren(do func(Node) bool) bool { if doNodes(n.init, do) { return true } if n.X != nil && do(n.X) { return true } return false } func (n *StarExpr) editChildren(edit func(Node) Node) { editNodes(n.init, edit) if n.X != nil { n.X = edit(n.X).(Node) } } func (n *StructKeyExpr) Format(s fmt.State, verb rune) { fmtNode(n, s, verb) } func (n *StructKeyExpr) copy() Node { c := *n c.init = copyNodes(c.init) return &c } func (n *StructKeyExpr) doChildren(do func(Node) bool) bool { if doNodes(n.init, do) { return true } if n.Value != nil && do(n.Value) { return true } return false } func (n *StructKeyExpr) editChildren(edit func(Node) Node) { editNodes(n.init, edit) if n.Value != nil { n.Value = edit(n.Value).(Node) } } func (n *StructType) Format(s fmt.State, verb rune) { fmtNode(n, s, verb) } func (n *StructType) copy() Node { c := *n c.Fields = copyFields(c.Fields) return &c } func (n *StructType) doChildren(do func(Node) bool) bool { if doFields(n.Fields, do) { return true } return false } func (n *StructType) editChildren(edit func(Node) Node) { editFields(n.Fields, edit) } func (n *SwitchStmt) Format(s fmt.State, verb rune) { fmtNode(n, s, verb) } func (n *SwitchStmt) copy() Node { c := *n c.init = copyNodes(c.init) c.Cases = copyCaseClauses(c.Cases) c.Compiled = copyNodes(c.Compiled) return &c } func (n *SwitchStmt) doChildren(do func(Node) bool) bool { if doNodes(n.init, do) { return true } if n.Tag != nil && do(n.Tag) { return true } if doCaseClauses(n.Cases, do) { return true } if doNodes(n.Compiled, do) { return true } return false } func (n *SwitchStmt) editChildren(edit func(Node) Node) { editNodes(n.init, edit) if n.Tag != nil { n.Tag = edit(n.Tag).(Node) } editCaseClauses(n.Cases, edit) editNodes(n.Compiled, edit) } func (n *TailCallStmt) Format(s fmt.State, verb rune) { fmtNode(n, s, verb) } func (n *TailCallStmt) copy() Node { c := *n c.init = copyNodes(c.init) return &c } func (n *TailCallStmt) doChildren(do func(Node) bool) bool { if doNodes(n.init, do) { return true } if n.Target != nil && do(n.Target) { return true } return false } func (n *TailCallStmt) editChildren(edit func(Node) Node) { editNodes(n.init, edit) if n.Target != nil { n.Target = edit(n.Target).(*Name) } } func (n *TypeAssertExpr) Format(s fmt.State, verb rune) { fmtNode(n, s, verb) } func (n *TypeAssertExpr) copy() Node { c := *n c.init = copyNodes(c.init) return &c } func (n *TypeAssertExpr) doChildren(do func(Node) bool) bool { if doNodes(n.init, do) { return true } if n.X != nil && do(n.X) { return true } if n.Ntype != nil && do(n.Ntype) { return true } return false } func (n *TypeAssertExpr) editChildren(edit func(Node) Node) { editNodes(n.init, edit) if n.X != nil { n.X = edit(n.X).(Node) } if n.Ntype != nil { n.Ntype = edit(n.Ntype).(Ntype) } } func (n *TypeSwitchGuard) Format(s fmt.State, verb rune) { fmtNode(n, s, verb) } func (n *TypeSwitchGuard) copy() Node { c := *n return &c } func (n *TypeSwitchGuard) doChildren(do func(Node) bool) bool { if n.Tag != nil && do(n.Tag) { return true } if n.X != nil && do(n.X) { return true } return false } func (n *TypeSwitchGuard) editChildren(edit func(Node) Node) { if n.Tag != nil { n.Tag = edit(n.Tag).(*Ident) } if n.X != nil { n.X = edit(n.X).(Node) } } func (n *UnaryExpr) Format(s fmt.State, verb rune) { fmtNode(n, s, verb) } func (n *UnaryExpr) copy() Node { c := *n c.init = copyNodes(c.init) return &c } func (n *UnaryExpr) doChildren(do func(Node) bool) bool { if doNodes(n.init, do) { return true } if n.X != nil && do(n.X) { return true } return false } func (n *UnaryExpr) editChildren(edit func(Node) Node) { editNodes(n.init, edit) if n.X != nil { n.X = edit(n.X).(Node) } } func (n *typeNode) Format(s fmt.State, verb rune) { fmtNode(n, s, verb) } func (n *typeNode) copy() Node { c := *n return &c } func (n *typeNode) doChildren(do func(Node) bool) bool { return false } func (n *typeNode) editChildren(edit func(Node) Node) { } func copyCaseClauses(list []*CaseClause) []*CaseClause { if list == nil { return nil } c := make([]*CaseClause, len(list)) copy(c, list) return c } func doCaseClauses(list []*CaseClause, do func(Node) bool) bool { for _, x := range list { if x != nil && do(x) { return true } } return false } func editCaseClauses(list []*CaseClause, edit func(Node) Node) { for i, x := range list { if x != nil { list[i] = edit(x).(*CaseClause) } } } func copyCommClauses(list []*CommClause) []*CommClause { if list == nil { return nil } c := make([]*CommClause, len(list)) copy(c, list) return c } func doCommClauses(list []*CommClause, do func(Node) bool) bool { for _, x := range list { if x != nil && do(x) { return true } } return false } func editCommClauses(list []*CommClause, edit func(Node) Node) { for i, x := range list { if x != nil { list[i] = edit(x).(*CommClause) } } } func copyNames(list []*Name) []*Name { if list == nil { return nil } c := make([]*Name, len(list)) copy(c, list) return c } func doNames(list []*Name, do func(Node) bool) bool { for _, x := range list { if x != nil && do(x) { return true } } return false } func editNames(list []*Name, edit func(Node) Node) { for i, x := range list { if x != nil { list[i] = edit(x).(*Name) } } } func copyNodes(list []Node) []Node { if list == nil { return nil } c := make([]Node, len(list)) copy(c, list) return c } func doNodes(list []Node, do func(Node) bool) bool { for _, x := range list { if x != nil && do(x) { return true } } return false } func editNodes(list []Node, edit func(Node) Node) { for i, x := range list { if x != nil { list[i] = edit(x).(Node) } } }