package printer import ( "bytes" "io" "strings" "github.com/z7zmey/php-parser/pkg/ast" "github.com/z7zmey/php-parser/pkg/token" ) type printerState int const ( PhpState printerState = iota HtmlState ) type Printer struct { w io.Writer s printerState bufStart string lastWrite []byte } // NewPrinter - Constructor for Printer func NewPrinter(w io.Writer) *Printer { return &Printer{ w: w, } } func (p *Printer) SetState(s printerState) { p.s = s } func (p *Printer) write(b []byte) { p.lastWrite = b p.w.Write(b) } func (p *Printer) Print(n ast.Vertex) { _, isRoot := n.(*ast.Root) _, isInlineHtml := n.(*ast.StmtInlineHtml) if p.s == HtmlState && !isInlineHtml && !isRoot { if n.GetNode().Tokens.IsEmpty() { p.bufStart = " 0 { p.write([]byte(glue)) } p.Print(n) } } func (p *Printer) joinPrintRefactored(glue string, nn []ast.Vertex) { for k, n := range nn { if k > 0 { p.bufStart = glue } p.Print(n) } } func (p *Printer) printSeparatedList(nodeList []ast.Vertex, separatorList []*token.Token, def string) { var separators []*token.Token if cap(separatorList) >= len(nodeList) { separators = separatorList[:len(nodeList)] } else { separators = make([]*token.Token, len(nodeList)) copy(separators, separatorList) } for k, n := range nodeList { p.Print(n) if k < len(nodeList)-1 { p.printToken(separators[k], def) } else { p.printToken(separators[k], "") } } } func (p *Printer) printNodes(nn []ast.Vertex) { for _, n := range nn { p.Print(n) } } func (p *Printer) printFreeFloatingOrDefault(n ast.Vertex, pos token.Position, def string) { if n == nil { return } if len(n.GetNode().Tokens[pos]) == 0 { p.write([]byte(def)) return } for _, m := range n.GetNode().Tokens[pos] { p.write(m.Value) } } func (p *Printer) printToken(t *token.Token, def string) { if t != nil { p.write(t.Skipped) p.write(t.Value) p.bufStart = "" return } if def != "" { p.write([]byte(p.bufStart)) p.bufStart = "" p.write([]byte(def)) return } } func (p *Printer) printFreeFloating(n ast.Vertex, pos token.Position) { if n == nil { return } for _, m := range n.GetNode().Tokens[pos] { p.write(m.Value) } } func (p *Printer) printNode(n ast.Vertex) { switch n := n.(type) { // node case *ast.Root: p.printNodeRoot(n) case *ast.Identifier: p.printNodeIdentifier(n) case *ast.Parameter: p.printNodeParameter(n) case *ast.Nullable: p.printNodeNullable(n) case *ast.Argument: p.printNodeArgument(n) // name case *ast.NameNamePart: p.printNameNamePart(n) case *ast.NameName: p.printNameName(n) case *ast.NameFullyQualified: p.printNameFullyQualified(n) case *ast.NameRelative: p.printNameRelative(n) // scalar case *ast.ScalarLnumber: p.printScalarLNumber(n) case *ast.ScalarDnumber: p.printScalarDNumber(n) case *ast.ScalarString: p.printScalarString(n) case *ast.ScalarEncapsedStringPart: p.printScalarEncapsedStringPart(n) case *ast.ScalarEncapsed: p.printScalarEncapsed(n) case *ast.ScalarHeredoc: p.printScalarHeredoc(n) case *ast.ScalarMagicConstant: p.printScalarMagicConstant(n) // assign case *ast.ExprAssign: p.printAssign(n) case *ast.ExprAssignReference: p.printAssignReference(n) case *ast.ExprAssignBitwiseAnd: p.printAssignBitwiseAnd(n) case *ast.ExprAssignBitwiseOr: p.printAssignBitwiseOr(n) case *ast.ExprAssignBitwiseXor: p.printAssignBitwiseXor(n) case *ast.ExprAssignCoalesce: p.printAssignCoalesce(n) case *ast.ExprAssignConcat: p.printAssignConcat(n) case *ast.ExprAssignDiv: p.printAssignDiv(n) case *ast.ExprAssignMinus: p.printAssignMinus(n) case *ast.ExprAssignMod: p.printAssignMod(n) case *ast.ExprAssignMul: p.printAssignMul(n) case *ast.ExprAssignPlus: p.printAssignPlus(n) case *ast.ExprAssignPow: p.printAssignPow(n) case *ast.ExprAssignShiftLeft: p.printAssignShiftLeft(n) case *ast.ExprAssignShiftRight: p.printAssignShiftRight(n) // binary case *ast.ExprBinaryBitwiseAnd: p.printBinaryBitwiseAnd(n) case *ast.ExprBinaryBitwiseOr: p.printBinaryBitwiseOr(n) case *ast.ExprBinaryBitwiseXor: p.printBinaryBitwiseXor(n) case *ast.ExprBinaryBooleanAnd: p.printBinaryBooleanAnd(n) case *ast.ExprBinaryBooleanOr: p.printBinaryBooleanOr(n) case *ast.ExprBinaryCoalesce: p.printBinaryCoalesce(n) case *ast.ExprBinaryConcat: p.printBinaryConcat(n) case *ast.ExprBinaryDiv: p.printBinaryDiv(n) case *ast.ExprBinaryEqual: p.printBinaryEqual(n) case *ast.ExprBinaryGreaterOrEqual: p.printBinaryGreaterOrEqual(n) case *ast.ExprBinaryGreater: p.printBinaryGreater(n) case *ast.ExprBinaryIdentical: p.printBinaryIdentical(n) case *ast.ExprBinaryLogicalAnd: p.printBinaryLogicalAnd(n) case *ast.ExprBinaryLogicalOr: p.printBinaryLogicalOr(n) case *ast.ExprBinaryLogicalXor: p.printBinaryLogicalXor(n) case *ast.ExprBinaryMinus: p.printBinaryMinus(n) case *ast.ExprBinaryMod: p.printBinaryMod(n) case *ast.ExprBinaryMul: p.printBinaryMul(n) case *ast.ExprBinaryNotEqual: p.printBinaryNotEqual(n) case *ast.ExprBinaryNotIdentical: p.printBinaryNotIdentical(n) case *ast.ExprBinaryPlus: p.printBinaryPlus(n) case *ast.ExprBinaryPow: p.printBinaryPow(n) case *ast.ExprBinaryShiftLeft: p.printBinaryShiftLeft(n) case *ast.ExprBinaryShiftRight: p.printBinaryShiftRight(n) case *ast.ExprBinarySmallerOrEqual: p.printBinarySmallerOrEqual(n) case *ast.ExprBinarySmaller: p.printBinarySmaller(n) case *ast.ExprBinarySpaceship: p.printBinarySpaceship(n) // cast case *ast.ExprCastArray: p.printArray(n) case *ast.ExprCastBool: p.printBool(n) case *ast.ExprCastDouble: p.printDouble(n) case *ast.ExprCastInt: p.printInt(n) case *ast.ExprCastObject: p.printObject(n) case *ast.ExprCastString: p.printString(n) case *ast.ExprCastUnset: p.printUnset(n) // expr case *ast.ExprArrayDimFetch: p.printExprArrayDimFetch(n) case *ast.ExprArrayItem: p.printExprArrayItem(n) case *ast.ExprArray: p.printExprArray(n) case *ast.ExprArrowFunction: p.printExprArrowFunction(n) case *ast.ExprBitwiseNot: p.printExprBitwiseNot(n) case *ast.ExprBooleanNot: p.printExprBooleanNot(n) case *ast.ExprClassConstFetch: p.printExprClassConstFetch(n) case *ast.ExprClone: p.printExprClone(n) case *ast.ExprClosureUse: p.printExprClosureUse(n) case *ast.ExprClosure: p.printExprClosure(n) case *ast.ExprConstFetch: p.printExprConstFetch(n) case *ast.ExprEmpty: p.printExprEmpty(n) case *ast.ExprErrorSuppress: p.printExprErrorSuppress(n) case *ast.ExprEval: p.printExprEval(n) case *ast.ExprExit: p.printExprExit(n) case *ast.ExprFunctionCall: p.printExprFunctionCall(n) case *ast.ExprInclude: p.printExprInclude(n) case *ast.ExprIncludeOnce: p.printExprIncludeOnce(n) case *ast.ExprInstanceOf: p.printExprInstanceOf(n) case *ast.ExprIsset: p.printExprIsset(n) case *ast.ExprList: p.printExprList(n) case *ast.ExprMethodCall: p.printExprMethodCall(n) case *ast.ExprNew: p.printExprNew(n) case *ast.ExprPostDec: p.printExprPostDec(n) case *ast.ExprPostInc: p.printExprPostInc(n) case *ast.ExprPreDec: p.printExprPreDec(n) case *ast.ExprPreInc: p.printExprPreInc(n) case *ast.ExprPrint: p.printExprPrint(n) case *ast.ExprPropertyFetch: p.printExprPropertyFetch(n) case *ast.ExprReference: p.printExprReference(n) case *ast.ExprRequire: p.printExprRequire(n) case *ast.ExprRequireOnce: p.printExprRequireOnce(n) case *ast.ExprShellExec: p.printExprShellExec(n) case *ast.ExprStaticCall: p.printExprStaticCall(n) case *ast.ExprStaticPropertyFetch: p.printExprStaticPropertyFetch(n) case *ast.ExprTernary: p.printExprTernary(n) case *ast.ExprUnaryMinus: p.printExprUnaryMinus(n) case *ast.ExprUnaryPlus: p.printExprUnaryPlus(n) case *ast.ExprVariable: p.printExprVariable(n) case *ast.ExprYieldFrom: p.printExprYieldFrom(n) case *ast.ExprYield: p.printExprYield(n) // stmt case *ast.StmtBreak: p.printStmtBreak(n) case *ast.StmtCase: p.printStmtCase(n) case *ast.StmtCatch: p.printStmtCatch(n) case *ast.StmtClassMethod: p.printStmtClassMethod(n) case *ast.StmtClass: p.printStmtClass(n) case *ast.StmtClassConstList: p.printStmtClassConstList(n) case *ast.StmtConstList: p.printStmtConstList(n) case *ast.StmtConstant: p.printStmtConstant(n) case *ast.StmtContinue: p.printStmtContinue(n) case *ast.StmtDeclare: p.printStmtDeclare(n) case *ast.StmtDefault: p.printStmtDefault(n) case *ast.StmtDo: p.printStmtDo(n) case *ast.StmtEcho: p.printStmtEcho(n) case *ast.StmtElseIf: p.printStmtElseif(n) case *ast.StmtElse: p.printStmtElse(n) case *ast.StmtExpression: p.printStmtExpression(n) case *ast.StmtFinally: p.printStmtFinally(n) case *ast.StmtFor: p.printStmtFor(n) case *ast.StmtForeach: p.printStmtForeach(n) case *ast.StmtFunction: p.printStmtFunction(n) case *ast.StmtGlobal: p.printStmtGlobal(n) case *ast.StmtGoto: p.printStmtGoto(n) case *ast.StmtHaltCompiler: p.printStmtHaltCompiler(n) case *ast.StmtIf: p.printStmtIf(n) case *ast.StmtInlineHtml: p.printStmtInlineHTML(n) case *ast.StmtInterface: p.printStmtInterface(n) case *ast.StmtLabel: p.printStmtLabel(n) case *ast.StmtNamespace: p.printStmtNamespace(n) case *ast.StmtNop: p.printStmtNop(n) case *ast.StmtPropertyList: p.printStmtPropertyList(n) case *ast.StmtProperty: p.printStmtProperty(n) case *ast.StmtReturn: p.printStmtReturn(n) case *ast.StmtStaticVar: p.printStmtStaticVar(n) case *ast.StmtStatic: p.printStmtStatic(n) case *ast.StmtStmtList: p.printStmtStmtList(n) case *ast.StmtSwitch: p.printStmtSwitch(n) case *ast.StmtThrow: p.printStmtThrow(n) case *ast.StmtTraitAdaptationList: p.printStmtTraitAdaptationList(n) case *ast.StmtTraitMethodRef: p.printStmtTraitMethodRef(n) case *ast.StmtTraitUseAlias: p.printStmtTraitUseAlias(n) case *ast.StmtTraitUsePrecedence: p.printStmtTraitUsePrecedence(n) case *ast.StmtTraitUse: p.printStmtTraitUse(n) case *ast.StmtTrait: p.printStmtTrait(n) case *ast.StmtTry: p.printStmtTry(n) case *ast.StmtUnset: p.printStmtUnset(n) case *ast.StmtUse: p.printStmtUse(n) case *ast.StmtGroupUse: p.printStmtGroupUse(n) case *ast.StmtUseDeclaration: p.printStmtUseDeclaration(n) case *ast.StmtWhile: p.printStmtWhile(n) case *ast.ParserBrackets: p.printParserBrackets(n) } } // node func (p *Printer) printNodeRoot(n ast.Vertex) { nn := n.(*ast.Root) p.SetState(HtmlState) p.printFreeFloating(nn, token.Start) p.printNodes(nn.Stmts) p.printFreeFloating(nn, token.End) } func (p *Printer) printNodeIdentifier(n ast.Vertex) { nn := n.(*ast.Identifier) p.printFreeFloatingOrDefault(nn, token.Start, p.bufStart) p.bufStart = "" p.write(nn.Value) p.printFreeFloating(nn, token.End) } func (p *Printer) printNodeParameter(n ast.Vertex) { nn := n.(*ast.Parameter) p.printFreeFloating(nn, token.Start) if nn.Type != nil { p.Print(nn.Type) } p.Print(nn.Var) if nn.DefaultValue != nil { p.write([]byte("=")) p.Print(nn.DefaultValue) } p.printFreeFloating(nn, token.End) } func (p *Printer) printNodeNullable(n ast.Vertex) { nn := n.(*ast.Nullable) p.printFreeFloating(nn, token.Start) p.write([]byte("?")) p.Print(nn.Expr) p.printFreeFloating(nn, token.End) } func (p *Printer) printNodeArgument(n ast.Vertex) { nn := n.(*ast.Argument) p.printFreeFloating(nn, token.Start) if nn.AmpersandTkn != nil { p.write([]byte("&")) } p.printFreeFloating(nn, token.Ampersand) if nn.VariadicTkn != nil { p.write([]byte("...")) } p.Print(nn.Expr) p.printFreeFloating(nn, token.End) } // name func (p *Printer) printNameNamePart(n *ast.NameNamePart) { p.printToken(n.NsSeparatorTkn, "") p.printToken(n.StringTkn, string(n.Value)) } func (p *Printer) printNameName(n *ast.NameName) { p.printFreeFloating(n, token.Start) p.joinPrintRefactored("\\", n.Parts) p.printToken(n.ListSeparatorTkn, "") } func (p *Printer) printNameFullyQualified(n *ast.NameFullyQualified) { p.printFreeFloating(n, token.Start) p.printToken(n.NsSeparatorTkn, "\\") p.joinPrintRefactored("\\", n.Parts) p.printToken(n.ListSeparatorTkn, "") } func (p *Printer) printNameRelative(n *ast.NameRelative) { p.printFreeFloating(n, token.Start) p.printToken(n.NsTkn, "namespace") p.printToken(n.NsSeparatorTkn, "\\") p.joinPrintRefactored("\\", n.Parts) p.printToken(n.ListSeparatorTkn, "") } // scalar func (p *Printer) printScalarLNumber(n ast.Vertex) { nn := n.(*ast.ScalarLnumber) p.printFreeFloatingOrDefault(nn, token.Start, p.bufStart) p.bufStart = "" p.write(nn.Value) p.printFreeFloating(nn, token.End) } func (p *Printer) printScalarDNumber(n ast.Vertex) { nn := n.(*ast.ScalarDnumber) p.printFreeFloatingOrDefault(nn, token.Start, p.bufStart) p.bufStart = "" p.write(nn.Value) p.printFreeFloating(nn, token.End) } func (p *Printer) printScalarString(n ast.Vertex) { nn := n.(*ast.ScalarString) p.printFreeFloatingOrDefault(nn, token.Start, p.bufStart) p.bufStart = "" p.write(nn.Value) p.printFreeFloating(nn, token.End) } func (p *Printer) printScalarEncapsedStringPart(n ast.Vertex) { nn := n.(*ast.ScalarEncapsedStringPart) p.printFreeFloatingOrDefault(nn, token.Start, p.bufStart) p.bufStart = "" p.write(nn.Value) p.printFreeFloating(nn, token.End) } func (p *Printer) printScalarEncapsed(n ast.Vertex) { nn := n.(*ast.ScalarEncapsed) p.printFreeFloatingOrDefault(nn, token.Start, p.bufStart) p.bufStart = "" p.write([]byte("\"")) for _, part := range nn.Parts { switch part.(type) { case *ast.ExprArrayDimFetch: s := part.GetNode().Tokens[token.Start] if len(s) > 0 && string(s[0].Value) == "${" { p.printExprArrayDimFetchWithoutLeadingDollar(part) } else { p.Print(part) } case *ast.ExprVariable: s := part.GetNode().Tokens[token.Start] if len(s) > 0 && string(s[0].Value) == "${" { p.printExprVariableWithoutLeadingDollar(part) } else { p.Print(part) } default: p.Print(part) } } p.write([]byte("\"")) p.printFreeFloating(nn, token.End) } func (p *Printer) printScalarHeredoc(n ast.Vertex) { nn := n.(*ast.ScalarHeredoc) p.printFreeFloatingOrDefault(nn, token.Start, p.bufStart) p.bufStart = "" p.write(nn.OpenHeredocTkn.Value) for _, part := range nn.Parts { switch part.(type) { case *ast.ExprArrayDimFetch: s := part.GetNode().Tokens[token.Start] if len(s) > 0 && string(s[0].Value) == "${" { p.printExprArrayDimFetchWithoutLeadingDollar(part) } else { p.Print(part) } case *ast.ExprVariable: s := part.GetNode().Tokens[token.Start] if len(s) > 0 && string(s[0].Value) == "${" { p.printExprVariableWithoutLeadingDollar(part) } else { p.Print(part) } default: p.Print(part) } } p.write([]byte(strings.Trim(string(nn.OpenHeredocTkn.Value), "<\"'\n"))) p.printFreeFloating(nn, token.End) } func (p *Printer) printScalarMagicConstant(n ast.Vertex) { nn := n.(*ast.ScalarMagicConstant) p.printFreeFloatingOrDefault(nn, token.Start, p.bufStart) p.bufStart = "" p.write(nn.Value) p.printFreeFloating(nn, token.End) } // Assign func (p *Printer) printAssign(n ast.Vertex) { nn := n.(*ast.ExprAssign) p.printFreeFloating(nn, token.Start) p.Print(nn.Var) p.printFreeFloating(nn, token.Var) p.write([]byte("=")) p.Print(nn.Expr) p.printFreeFloating(nn, token.End) } func (p *Printer) printAssignReference(n ast.Vertex) { nn := n.(*ast.ExprAssignReference) p.printFreeFloating(nn, token.Start) p.Print(nn.Var) p.printFreeFloating(nn, token.Var) p.write([]byte("=")) p.printFreeFloating(nn, token.Equal) p.write([]byte("&")) p.Print(nn.Expr) p.printFreeFloating(nn, token.End) } func (p *Printer) printAssignBitwiseAnd(n ast.Vertex) { nn := n.(*ast.ExprAssignBitwiseAnd) p.printFreeFloating(nn, token.Start) p.Print(nn.Var) p.printFreeFloating(nn, token.Var) p.write([]byte("&")) p.write([]byte("=")) p.Print(nn.Expr) p.printFreeFloating(nn, token.End) } func (p *Printer) printAssignBitwiseOr(n ast.Vertex) { nn := n.(*ast.ExprAssignBitwiseOr) p.printFreeFloating(nn, token.Start) p.Print(nn.Var) p.printFreeFloating(nn, token.Var) p.write([]byte("|=")) p.Print(nn.Expr) p.printFreeFloating(nn, token.End) } func (p *Printer) printAssignBitwiseXor(n ast.Vertex) { nn := n.(*ast.ExprAssignBitwiseXor) p.printFreeFloating(nn, token.Start) p.Print(nn.Var) p.printFreeFloating(nn, token.Var) p.write([]byte("^=")) p.Print(nn.Expr) p.printFreeFloating(nn, token.End) } func (p *Printer) printAssignCoalesce(n ast.Vertex) { nn := n.(*ast.ExprAssignCoalesce) p.printFreeFloating(nn, token.Start) p.Print(nn.Var) p.printFreeFloating(nn, token.Var) p.write([]byte("??=")) p.Print(nn.Expr) p.printFreeFloating(nn, token.End) } func (p *Printer) printAssignConcat(n ast.Vertex) { nn := n.(*ast.ExprAssignConcat) p.printFreeFloating(nn, token.Start) p.Print(nn.Var) p.printFreeFloating(nn, token.Var) p.write([]byte(".=")) p.Print(nn.Expr) p.printFreeFloating(nn, token.End) } func (p *Printer) printAssignDiv(n ast.Vertex) { nn := n.(*ast.ExprAssignDiv) p.printFreeFloating(nn, token.Start) p.Print(nn.Var) p.printFreeFloating(nn, token.Var) p.write([]byte("/=")) p.Print(nn.Expr) p.printFreeFloating(nn, token.End) } func (p *Printer) printAssignMinus(n ast.Vertex) { nn := n.(*ast.ExprAssignMinus) p.printFreeFloating(nn, token.Start) p.Print(nn.Var) p.printFreeFloating(nn, token.Var) p.write([]byte("-=")) p.Print(nn.Expr) p.printFreeFloating(nn, token.End) } func (p *Printer) printAssignMod(n ast.Vertex) { nn := n.(*ast.ExprAssignMod) p.printFreeFloating(nn, token.Start) p.Print(nn.Var) p.printFreeFloating(nn, token.Var) p.write([]byte("%=")) p.Print(nn.Expr) p.printFreeFloating(nn, token.End) } func (p *Printer) printAssignMul(n ast.Vertex) { nn := n.(*ast.ExprAssignMul) p.printFreeFloating(nn, token.Start) p.Print(nn.Var) p.printFreeFloating(nn, token.Var) p.write([]byte("*=")) p.Print(nn.Expr) p.printFreeFloating(nn, token.End) } func (p *Printer) printAssignPlus(n ast.Vertex) { nn := n.(*ast.ExprAssignPlus) p.printFreeFloating(nn, token.Start) p.Print(nn.Var) p.printFreeFloating(nn, token.Var) p.write([]byte("+=")) p.Print(nn.Expr) p.printFreeFloating(nn, token.End) } func (p *Printer) printAssignPow(n ast.Vertex) { nn := n.(*ast.ExprAssignPow) p.printFreeFloating(nn, token.Start) p.Print(nn.Var) p.printFreeFloating(nn, token.Var) p.write([]byte("**=")) p.Print(nn.Expr) p.printFreeFloating(nn, token.End) } func (p *Printer) printAssignShiftLeft(n ast.Vertex) { nn := n.(*ast.ExprAssignShiftLeft) p.printFreeFloating(nn, token.Start) p.Print(nn.Var) p.printFreeFloating(nn, token.Var) p.write([]byte("<<=")) p.Print(nn.Expr) p.printFreeFloating(nn, token.End) } func (p *Printer) printAssignShiftRight(n ast.Vertex) { nn := n.(*ast.ExprAssignShiftRight) p.printFreeFloating(nn, token.Start) p.Print(nn.Var) p.printFreeFloating(nn, token.Var) p.write([]byte(">>=")) p.Print(nn.Expr) p.printFreeFloating(nn, token.End) } // binary func (p *Printer) printBinaryBitwiseAnd(n ast.Vertex) { nn := n.(*ast.ExprBinaryBitwiseAnd) p.printFreeFloating(nn, token.Start) p.Print(nn.Left) p.printFreeFloating(nn, token.Expr) p.write([]byte("&")) p.Print(nn.Right) p.printFreeFloating(nn, token.End) } func (p *Printer) printBinaryBitwiseOr(n ast.Vertex) { nn := n.(*ast.ExprBinaryBitwiseOr) p.printFreeFloating(nn, token.Start) p.Print(nn.Left) p.printFreeFloating(nn, token.Expr) p.write([]byte("|")) p.Print(nn.Right) p.printFreeFloating(nn, token.End) } func (p *Printer) printBinaryBitwiseXor(n ast.Vertex) { nn := n.(*ast.ExprBinaryBitwiseXor) p.printFreeFloating(nn, token.Start) p.Print(nn.Left) p.printFreeFloating(nn, token.Expr) p.write([]byte("^")) p.Print(nn.Right) p.printFreeFloating(nn, token.End) } func (p *Printer) printBinaryBooleanAnd(n ast.Vertex) { nn := n.(*ast.ExprBinaryBooleanAnd) p.printFreeFloating(nn, token.Start) p.Print(nn.Left) p.printFreeFloating(nn, token.Expr) p.write([]byte("&&")) p.Print(nn.Right) p.printFreeFloating(nn, token.End) } func (p *Printer) printBinaryBooleanOr(n ast.Vertex) { nn := n.(*ast.ExprBinaryBooleanOr) p.printFreeFloating(nn, token.Start) p.Print(nn.Left) p.printFreeFloating(nn, token.Expr) p.write([]byte("||")) p.Print(nn.Right) p.printFreeFloating(nn, token.End) } func (p *Printer) printBinaryCoalesce(n ast.Vertex) { nn := n.(*ast.ExprBinaryCoalesce) p.printFreeFloating(nn, token.Start) p.Print(nn.Left) p.printFreeFloating(nn, token.Expr) p.write([]byte("??")) p.Print(nn.Right) p.printFreeFloating(nn, token.End) } func (p *Printer) printBinaryConcat(n ast.Vertex) { nn := n.(*ast.ExprBinaryConcat) p.printFreeFloating(nn, token.Start) p.Print(nn.Left) p.printFreeFloating(nn, token.Expr) p.write([]byte(".")) p.Print(nn.Right) p.printFreeFloating(nn, token.End) } func (p *Printer) printBinaryDiv(n ast.Vertex) { nn := n.(*ast.ExprBinaryDiv) p.printFreeFloating(nn, token.Start) p.Print(nn.Left) p.printFreeFloating(nn, token.Expr) p.write([]byte("/")) p.Print(nn.Right) p.printFreeFloating(nn, token.End) } func (p *Printer) printBinaryEqual(n ast.Vertex) { nn := n.(*ast.ExprBinaryEqual) p.printFreeFloating(nn, token.Start) p.Print(nn.Left) p.printFreeFloating(nn, token.Expr) p.write([]byte("==")) p.Print(nn.Right) p.printFreeFloating(nn, token.End) } func (p *Printer) printBinaryGreaterOrEqual(n ast.Vertex) { nn := n.(*ast.ExprBinaryGreaterOrEqual) p.printFreeFloating(nn, token.Start) p.Print(nn.Left) p.printFreeFloating(nn, token.Expr) p.write([]byte(">=")) p.Print(nn.Right) p.printFreeFloating(nn, token.End) } func (p *Printer) printBinaryGreater(n ast.Vertex) { nn := n.(*ast.ExprBinaryGreater) p.printFreeFloating(nn, token.Start) p.Print(nn.Left) p.printFreeFloating(nn, token.Expr) p.write([]byte(">")) p.Print(nn.Right) p.printFreeFloating(nn, token.End) } func (p *Printer) printBinaryIdentical(n ast.Vertex) { nn := n.(*ast.ExprBinaryIdentical) p.printFreeFloating(nn, token.Start) p.Print(nn.Left) p.printFreeFloating(nn, token.Expr) p.write([]byte("===")) p.Print(nn.Right) p.printFreeFloating(nn, token.End) } func (p *Printer) printBinaryLogicalAnd(n ast.Vertex) { nn := n.(*ast.ExprBinaryLogicalAnd) p.printFreeFloating(nn, token.Start) p.Print(nn.Left) p.printFreeFloating(nn, token.Expr) if nn.GetNode().Tokens.IsEmpty() { p.write([]byte(" ")) } p.write([]byte("and")) if nn.Right.GetNode().Tokens.IsEmpty() { p.write([]byte(" ")) } p.Print(nn.Right) p.printFreeFloating(nn, token.End) } func (p *Printer) printBinaryLogicalOr(n ast.Vertex) { nn := n.(*ast.ExprBinaryLogicalOr) p.printFreeFloating(nn, token.Start) p.Print(nn.Left) p.printFreeFloating(nn, token.Expr) if nn.GetNode().Tokens.IsEmpty() { p.write([]byte(" ")) } p.write([]byte("or")) if nn.Right.GetNode().Tokens.IsEmpty() { p.write([]byte(" ")) } p.Print(nn.Right) p.printFreeFloating(nn, token.End) } func (p *Printer) printBinaryLogicalXor(n ast.Vertex) { nn := n.(*ast.ExprBinaryLogicalXor) p.printFreeFloating(nn, token.Start) p.Print(nn.Left) p.printFreeFloating(nn, token.Expr) if nn.GetNode().Tokens.IsEmpty() { p.write([]byte(" ")) } p.write([]byte("xor")) if nn.Right.GetNode().Tokens.IsEmpty() { p.write([]byte(" ")) } p.Print(nn.Right) p.printFreeFloating(nn, token.End) } func (p *Printer) printBinaryMinus(n ast.Vertex) { nn := n.(*ast.ExprBinaryMinus) p.printFreeFloating(nn, token.Start) p.Print(nn.Left) p.printFreeFloating(nn, token.Expr) p.write([]byte("-")) p.Print(nn.Right) p.printFreeFloating(nn, token.End) } func (p *Printer) printBinaryMod(n ast.Vertex) { nn := n.(*ast.ExprBinaryMod) p.printFreeFloating(nn, token.Start) p.Print(nn.Left) p.printFreeFloating(nn, token.Expr) p.write([]byte("%")) p.Print(nn.Right) p.printFreeFloating(nn, token.End) } func (p *Printer) printBinaryMul(n ast.Vertex) { nn := n.(*ast.ExprBinaryMul) p.printFreeFloating(nn, token.Start) p.Print(nn.Left) p.printFreeFloating(nn, token.Expr) p.write([]byte("*")) p.Print(nn.Right) p.printFreeFloating(nn, token.End) } func (p *Printer) printBinaryNotEqual(n ast.Vertex) { nn := n.(*ast.ExprBinaryNotEqual) p.printFreeFloating(nn, token.Start) p.Print(nn.Left) p.printFreeFloating(nn, token.Expr) p.printFreeFloating(nn, token.Equal) if nn.GetNode().Tokens.IsEmpty() { p.write([]byte("!=")) } p.Print(nn.Right) p.printFreeFloating(nn, token.End) } func (p *Printer) printBinaryNotIdentical(n ast.Vertex) { nn := n.(*ast.ExprBinaryNotIdentical) p.printFreeFloating(nn, token.Start) p.Print(nn.Left) p.printFreeFloating(nn, token.Expr) p.write([]byte("!==")) p.Print(nn.Right) p.printFreeFloating(nn, token.End) } func (p *Printer) printBinaryPlus(n ast.Vertex) { nn := n.(*ast.ExprBinaryPlus) p.printFreeFloating(nn, token.Start) p.Print(nn.Left) p.printFreeFloating(nn, token.Expr) p.write([]byte("+")) p.Print(nn.Right) p.printFreeFloating(nn, token.End) } func (p *Printer) printBinaryPow(n ast.Vertex) { nn := n.(*ast.ExprBinaryPow) p.printFreeFloating(nn, token.Start) p.Print(nn.Left) p.printFreeFloating(nn, token.Expr) p.write([]byte("**")) p.Print(nn.Right) p.printFreeFloating(nn, token.End) } func (p *Printer) printBinaryShiftLeft(n ast.Vertex) { nn := n.(*ast.ExprBinaryShiftLeft) p.printFreeFloating(nn, token.Start) p.Print(nn.Left) p.printFreeFloating(nn, token.Expr) p.write([]byte("<<")) p.Print(nn.Right) p.printFreeFloating(nn, token.End) } func (p *Printer) printBinaryShiftRight(n ast.Vertex) { nn := n.(*ast.ExprBinaryShiftRight) p.printFreeFloating(nn, token.Start) p.Print(nn.Left) p.printFreeFloating(nn, token.Expr) p.write([]byte(">>")) p.Print(nn.Right) p.printFreeFloating(nn, token.End) } func (p *Printer) printBinarySmallerOrEqual(n ast.Vertex) { nn := n.(*ast.ExprBinarySmallerOrEqual) p.printFreeFloating(nn, token.Start) p.Print(nn.Left) p.printFreeFloating(nn, token.Expr) p.write([]byte("<=")) p.Print(nn.Right) p.printFreeFloating(nn, token.End) } func (p *Printer) printBinarySmaller(n ast.Vertex) { nn := n.(*ast.ExprBinarySmaller) p.printFreeFloating(nn, token.Start) p.Print(nn.Left) p.printFreeFloating(nn, token.Expr) p.write([]byte("<")) p.Print(nn.Right) p.printFreeFloating(nn, token.End) } func (p *Printer) printBinarySpaceship(n ast.Vertex) { nn := n.(*ast.ExprBinarySpaceship) p.printFreeFloating(nn, token.Start) p.Print(nn.Left) p.printFreeFloating(nn, token.Expr) p.write([]byte("<=>")) p.Print(nn.Right) p.printFreeFloating(nn, token.End) } // cast func (p *Printer) printArray(n ast.Vertex) { nn := n.(*ast.ExprCastArray) p.printFreeFloating(nn, token.Start) p.printFreeFloating(nn, token.Cast) if nn.GetNode().Tokens.IsEmpty() { p.write([]byte("(array)")) } p.Print(nn.Expr) p.printFreeFloating(nn, token.End) } func (p *Printer) printBool(n ast.Vertex) { nn := n.(*ast.ExprCastBool) p.printFreeFloating(nn, token.Start) p.printFreeFloating(nn, token.Cast) if nn.GetNode().Tokens.IsEmpty() { p.write([]byte("(boolean)")) } p.Print(nn.Expr) p.printFreeFloating(nn, token.End) } func (p *Printer) printDouble(n ast.Vertex) { nn := n.(*ast.ExprCastDouble) p.printFreeFloating(nn, token.Start) p.printFreeFloating(nn, token.Cast) if nn.GetNode().Tokens.IsEmpty() { p.write([]byte("(float)")) } p.Print(nn.Expr) p.printFreeFloating(nn, token.End) } func (p *Printer) printInt(n ast.Vertex) { nn := n.(*ast.ExprCastInt) p.printFreeFloating(nn, token.Start) p.printFreeFloating(nn, token.Cast) if nn.GetNode().Tokens.IsEmpty() { p.write([]byte("(integer)")) } p.Print(nn.Expr) p.printFreeFloating(nn, token.End) } func (p *Printer) printObject(n ast.Vertex) { nn := n.(*ast.ExprCastObject) p.printFreeFloating(nn, token.Start) p.printFreeFloating(nn, token.Cast) if nn.GetNode().Tokens.IsEmpty() { p.write([]byte("(object)")) } p.Print(nn.Expr) p.printFreeFloating(nn, token.End) } func (p *Printer) printString(n ast.Vertex) { nn := n.(*ast.ExprCastString) p.printFreeFloating(nn, token.Start) p.printFreeFloating(nn, token.Cast) if nn.GetNode().Tokens.IsEmpty() { p.write([]byte("(string)")) } p.Print(nn.Expr) p.printFreeFloating(nn, token.End) } func (p *Printer) printUnset(n ast.Vertex) { nn := n.(*ast.ExprCastUnset) p.printFreeFloating(nn, token.Start) p.printFreeFloating(nn, token.Cast) if nn.GetNode().Tokens.IsEmpty() { p.write([]byte("(unset)")) } p.Print(nn.Expr) p.printFreeFloating(nn, token.End) } // expr func (p *Printer) printExprArrayDimFetch(n ast.Vertex) { nn := n.(*ast.ExprArrayDimFetch) p.printFreeFloating(nn, token.Start) p.Print(nn.Var) p.printFreeFloating(nn, token.Var) if nn.GetNode().Tokens.IsEmpty() { p.write([]byte("[")) } p.Print(nn.Dim) p.printFreeFloating(nn, token.Expr) if nn.GetNode().Tokens.IsEmpty() { p.write([]byte("]")) } p.printFreeFloating(nn, token.End) } func (p *Printer) printExprArrayDimFetchWithoutLeadingDollar(n ast.Vertex) { nn := n.(*ast.ExprArrayDimFetch) p.printFreeFloating(nn, token.Start) p.printExprVariableWithoutLeadingDollar(nn.Var) p.printFreeFloating(nn, token.Var) if nn.GetNode().Tokens.IsEmpty() { p.write([]byte("[")) } p.Print(nn.Dim) p.printFreeFloating(nn, token.Expr) if nn.GetNode().Tokens.IsEmpty() { p.write([]byte("]")) } p.printFreeFloating(nn, token.End) } func (p *Printer) printExprArrayItem(n ast.Vertex) { nn := n.(*ast.ExprArrayItem) p.printFreeFloating(nn, token.Start) if nn.EllipsisTkn != nil { p.write([]byte("...")) } if nn.Key != nil { p.Print(nn.Key) p.printFreeFloating(nn, token.Expr) p.write([]byte("=>")) } p.Print(nn.Val) p.printFreeFloating(nn, token.End) } func (p *Printer) printExprArray(n ast.Vertex) { nn := n.(*ast.ExprArray) p.printFreeFloating(nn, token.Start) p.write([]byte("array")) p.printFreeFloating(nn, token.Array) p.write([]byte("(")) p.joinPrint(",", nn.Items) p.printFreeFloating(nn, token.ArrayPairList) p.write([]byte(")")) p.printFreeFloating(nn, token.End) } func (p *Printer) printExprArrowFunction(n ast.Vertex) { nn := n.(*ast.ExprArrowFunction) p.printFreeFloating(nn, token.Start) if nn.StaticTkn != nil { p.write([]byte("static")) } p.printFreeFloating(nn, token.Static) if nn.StaticTkn != nil && n.GetNode().Tokens.IsEmpty() { p.write([]byte(" ")) } p.write([]byte("fn")) p.printFreeFloating(nn, token.Function) if nn.AmpersandTkn != nil { p.write([]byte("&")) } p.printFreeFloating(nn, token.Ampersand) p.write([]byte("(")) p.joinPrint(",", nn.Params) p.printFreeFloating(nn, token.ParameterList) p.write([]byte(")")) p.printFreeFloating(nn, token.Params) if nn.ReturnType != nil { p.bufStart = ":" p.Print(nn.ReturnType) } p.printFreeFloating(nn, token.ReturnType) p.write([]byte("=>")) p.Print(nn.Expr) p.printFreeFloating(nn, token.End) } func (p *Printer) printExprBitwiseNot(n ast.Vertex) { nn := n.(*ast.ExprBitwiseNot) p.printFreeFloating(nn, token.Start) p.write([]byte("~")) p.Print(nn.Expr) p.printFreeFloating(nn, token.End) } func (p *Printer) printExprBooleanNot(n ast.Vertex) { nn := n.(*ast.ExprBooleanNot) p.printFreeFloating(nn, token.Start) p.write([]byte("!")) p.Print(nn.Expr) p.printFreeFloating(nn, token.End) } func (p *Printer) printExprClassConstFetch(n ast.Vertex) { nn := n.(*ast.ExprClassConstFetch) p.printFreeFloating(nn, token.Start) p.Print(nn.Class) p.printFreeFloating(nn, token.Name) p.write([]byte("::")) p.Print(nn.ConstantName) p.printFreeFloating(nn, token.End) } func (p *Printer) printExprClone(n ast.Vertex) { nn := n.(*ast.ExprClone) p.printFreeFloating(nn, token.Start) p.write([]byte("clone")) if nn.Expr.GetNode().Tokens.IsEmpty() { p.write([]byte(" ")) } p.Print(nn.Expr) p.printFreeFloating(nn, token.End) } func (p *Printer) printExprClosureUse(n ast.Vertex) { nn := n.(*ast.ExprClosureUse) p.printFreeFloating(nn, token.Start) p.write([]byte("use")) p.printFreeFloating(nn, token.Use) p.write([]byte("(")) p.joinPrint(",", nn.Uses) p.printFreeFloating(nn, token.LexicalVarList) p.write([]byte(")")) p.printFreeFloating(nn, token.End) } func (p *Printer) printExprClosure(n ast.Vertex) { nn := n.(*ast.ExprClosure) p.printFreeFloating(nn, token.Start) if nn.StaticTkn != nil { p.write([]byte("static")) } p.printFreeFloating(nn, token.Static) if nn.StaticTkn != nil && n.GetNode().Tokens.IsEmpty() { p.write([]byte(" ")) } p.write([]byte("function")) p.printFreeFloating(nn, token.Function) if nn.AmpersandTkn != nil { p.write([]byte("&")) } p.printFreeFloating(nn, token.Ampersand) p.write([]byte("(")) p.joinPrint(",", nn.Params) p.printFreeFloating(nn, token.ParameterList) p.write([]byte(")")) p.printFreeFloating(nn, token.Params) if nn.ClosureUse != nil { p.Print(nn.ClosureUse) } p.printFreeFloating(nn, token.LexicalVars) if nn.ReturnType != nil { p.bufStart = ":" p.Print(nn.ReturnType) } p.printFreeFloating(nn, token.ReturnType) p.write([]byte("{")) p.printNodes(nn.Stmts) p.printFreeFloating(nn, token.Stmts) p.write([]byte("}")) p.printFreeFloating(nn, token.End) } func (p *Printer) printExprConstFetch(n ast.Vertex) { nn := n.(*ast.ExprConstFetch) p.printFreeFloating(nn, token.Start) p.Print(nn.Const) p.printFreeFloating(nn, token.End) } func (p *Printer) printExprEmpty(n ast.Vertex) { nn := n.(*ast.ExprEmpty) p.printFreeFloating(nn, token.Start) p.write([]byte("empty")) if _, ok := nn.Expr.(*ast.ParserBrackets); !ok { p.write([]byte("(")) } p.Print(nn.Expr) if _, ok := nn.Expr.(*ast.ParserBrackets); !ok { p.write([]byte(")")) } p.printFreeFloating(nn, token.End) } func (p *Printer) printExprErrorSuppress(n ast.Vertex) { nn := n.(*ast.ExprErrorSuppress) p.printFreeFloating(nn, token.Start) p.write([]byte("@")) p.Print(nn.Expr) p.printFreeFloating(nn, token.End) } func (p *Printer) printExprEval(n ast.Vertex) { nn := n.(*ast.ExprEval) p.printFreeFloating(nn, token.Start) p.write([]byte("eval")) if _, ok := nn.Expr.(*ast.ParserBrackets); !ok { p.write([]byte("(")) } p.Print(nn.Expr) if _, ok := nn.Expr.(*ast.ParserBrackets); !ok { p.write([]byte(")")) } p.printFreeFloating(nn, token.End) } func (p *Printer) printExprExit(n ast.Vertex) { nn := n.(*ast.ExprExit) p.printFreeFloating(nn, token.Start) if nn.DieTkn != nil { p.write(nn.DieTkn.Value) } else { p.write([]byte("exit")) } if nn.Expr != nil && nn.Expr.GetNode().Tokens.IsEmpty() && nn.GetNode().Tokens.IsEmpty() { p.write([]byte(" ")) } p.Print(nn.Expr) p.printFreeFloating(nn, token.Expr) p.printFreeFloating(nn, token.End) } func (p *Printer) printExprFunctionCall(n ast.Vertex) { nn := n.(*ast.ExprFunctionCall) p.printFreeFloating(nn, token.Start) p.Print(nn.Function) p.printToken(nn.OpenParenthesisTkn, "(") p.joinPrint(",", nn.Arguments) p.printToken(nn.CloseParenthesisTkn, ")") p.printFreeFloating(nn, token.End) } func (p *Printer) printExprInclude(n ast.Vertex) { nn := n.(*ast.ExprInclude) p.printFreeFloating(nn, token.Start) p.write([]byte("include")) if nn.Expr.GetNode().Tokens.IsEmpty() { p.write([]byte(" ")) } p.Print(nn.Expr) p.printFreeFloating(nn, token.End) } func (p *Printer) printExprIncludeOnce(n ast.Vertex) { nn := n.(*ast.ExprIncludeOnce) p.printFreeFloating(nn, token.Start) p.write([]byte("include_once")) if nn.Expr.GetNode().Tokens.IsEmpty() { p.write([]byte(" ")) } p.Print(nn.Expr) p.printFreeFloating(nn, token.End) } func (p *Printer) printExprInstanceOf(n ast.Vertex) { nn := n.(*ast.ExprInstanceOf) p.printFreeFloating(nn, token.Start) p.Print(nn.Expr) p.printFreeFloating(nn, token.Expr) if nn.GetNode().Tokens.IsEmpty() { p.write([]byte(" ")) } p.write([]byte("instanceof")) p.bufStart = " " p.Print(nn.Class) p.printFreeFloating(nn, token.End) } func (p *Printer) printExprIsset(n ast.Vertex) { nn := n.(*ast.ExprIsset) p.printFreeFloating(nn, token.Start) p.write([]byte("isset")) p.printFreeFloating(nn, token.Isset) p.write([]byte("(")) p.joinPrint(",", nn.Vars) p.printFreeFloating(nn, token.VarList) p.write([]byte(")")) p.printFreeFloating(nn, token.End) } func (p *Printer) printExprList(n ast.Vertex) { nn := n.(*ast.ExprList) p.printFreeFloating(nn, token.Start) p.write([]byte("list")) p.printFreeFloating(nn, token.List) p.write([]byte("(")) p.joinPrint(",", nn.Items) p.printFreeFloating(nn, token.ArrayPairList) p.write([]byte(")")) p.printFreeFloating(nn, token.End) } func (p *Printer) printExprMethodCall(n ast.Vertex) { nn := n.(*ast.ExprMethodCall) p.printFreeFloating(nn, token.Start) p.Print(nn.Var) p.printFreeFloating(nn, token.Var) p.write([]byte("->")) p.Print(nn.Method) p.printToken(nn.OpenParenthesisTkn, "(") p.joinPrint(",", nn.Arguments) p.printToken(nn.CloseParenthesisTkn, ")") p.printFreeFloating(nn, token.End) } func (p *Printer) printExprNew(n ast.Vertex) { nn := n.(*ast.ExprNew) p.printFreeFloating(nn, token.Start) p.write([]byte("new")) p.bufStart = " " p.Print(nn.Class) if nn.Arguments != nil { p.printToken(nn.OpenParenthesisTkn, "(") p.joinPrint(",", nn.Arguments) p.printToken(nn.CloseParenthesisTkn, ")") } p.printFreeFloating(nn, token.End) } func (p *Printer) printExprPostDec(n ast.Vertex) { nn := n.(*ast.ExprPostDec) p.printFreeFloating(nn, token.Start) p.Print(nn.Var) p.printFreeFloating(nn, token.Var) p.write([]byte("--")) p.printFreeFloating(nn, token.End) } func (p *Printer) printExprPostInc(n ast.Vertex) { nn := n.(*ast.ExprPostInc) p.printFreeFloating(nn, token.Start) p.Print(nn.Var) p.printFreeFloating(nn, token.Var) p.write([]byte("++")) p.printFreeFloating(nn, token.End) } func (p *Printer) printExprPreDec(n ast.Vertex) { nn := n.(*ast.ExprPreDec) p.printFreeFloating(nn, token.Start) p.write([]byte("--")) p.Print(nn.Var) p.printFreeFloating(nn, token.End) } func (p *Printer) printExprPreInc(n ast.Vertex) { nn := n.(*ast.ExprPreInc) p.printFreeFloating(nn, token.Start) p.write([]byte("++")) p.Print(nn.Var) p.printFreeFloating(nn, token.End) } func (p *Printer) printExprPrint(n ast.Vertex) { nn := n.(*ast.ExprPrint) p.printFreeFloating(nn, token.Start) p.write([]byte("print")) if nn.Expr.GetNode().Tokens.IsEmpty() { p.write([]byte(" ")) } p.Print(nn.Expr) p.printFreeFloating(nn, token.End) } func (p *Printer) printExprPropertyFetch(n ast.Vertex) { nn := n.(*ast.ExprPropertyFetch) p.printFreeFloating(nn, token.Start) p.Print(nn.Var) p.printFreeFloating(nn, token.Var) p.write([]byte("->")) p.Print(nn.Property) p.printFreeFloating(nn, token.End) } func (p *Printer) printExprReference(n ast.Vertex) { nn := n.(*ast.ExprReference) p.printFreeFloating(nn, token.Start) p.write([]byte("&")) p.Print(nn.Var) p.printFreeFloating(nn, token.End) } func (p *Printer) printExprRequire(n ast.Vertex) { nn := n.(*ast.ExprRequire) p.printFreeFloating(nn, token.Start) p.write([]byte("require")) if nn.Expr.GetNode().Tokens.IsEmpty() { p.write([]byte(" ")) } p.Print(nn.Expr) p.printFreeFloating(nn, token.End) } func (p *Printer) printExprRequireOnce(n ast.Vertex) { nn := n.(*ast.ExprRequireOnce) p.printFreeFloating(nn, token.Start) p.write([]byte("require_once")) if nn.Expr.GetNode().Tokens.IsEmpty() { p.write([]byte(" ")) } p.Print(nn.Expr) p.printFreeFloating(nn, token.End) } func (p *Printer) printExprShellExec(n ast.Vertex) { nn := n.(*ast.ExprShellExec) p.printFreeFloating(nn, token.Start) p.write([]byte("`")) p.joinPrint("", nn.Parts) p.write([]byte("`")) p.printFreeFloating(nn, token.End) } func (p *Printer) printExprStaticCall(n ast.Vertex) { nn := n.(*ast.ExprStaticCall) p.printFreeFloating(nn, token.Start) p.Print(nn.Class) p.printFreeFloating(nn, token.Name) p.write([]byte("::")) p.Print(nn.Call) p.printToken(nn.OpenParenthesisTkn, "(") p.joinPrint(",", nn.Arguments) p.printToken(nn.CloseParenthesisTkn, ")") p.printFreeFloating(nn, token.End) } func (p *Printer) printExprStaticPropertyFetch(n ast.Vertex) { nn := n.(*ast.ExprStaticPropertyFetch) p.printFreeFloating(nn, token.Start) p.Print(nn.Class) p.printFreeFloating(nn, token.Name) p.write([]byte("::")) p.Print(nn.Property) p.printFreeFloating(nn, token.End) } func (p *Printer) printExprTernary(n ast.Vertex) { nn := n.(*ast.ExprTernary) p.printFreeFloating(nn, token.Start) p.Print(nn.Condition) p.printFreeFloating(nn, token.Cond) p.write([]byte("?")) if nn.IfTrue != nil { p.Print(nn.IfTrue) } p.printFreeFloating(nn, token.True) p.write([]byte(":")) p.Print(nn.IfFalse) p.printFreeFloating(nn, token.End) } func (p *Printer) printExprUnaryMinus(n ast.Vertex) { nn := n.(*ast.ExprUnaryMinus) p.printFreeFloating(nn, token.Start) p.write([]byte("-")) p.Print(nn.Expr) p.printFreeFloating(nn, token.End) } func (p *Printer) printExprUnaryPlus(n ast.Vertex) { nn := n.(*ast.ExprUnaryPlus) p.printFreeFloating(nn, token.Start) p.write([]byte("+")) p.Print(nn.Expr) p.printFreeFloating(nn, token.End) } func (p *Printer) printExprVariable(n ast.Vertex) { nn := n.(*ast.ExprVariable) p.printFreeFloatingOrDefault(nn, token.Start, p.bufStart) p.bufStart = "" if _, ok := nn.VarName.(*ast.Identifier); !ok { p.write([]byte("$")) } p.Print(nn.VarName) p.printFreeFloating(nn, token.End) } func (p *Printer) printExprVariableWithoutLeadingDollar(n ast.Vertex) { nn := n.(*ast.ExprVariable) p.printFreeFloating(nn, token.Start) p.Print(nn.VarName) p.printFreeFloating(nn, token.End) } func (p *Printer) printExprYieldFrom(n ast.Vertex) { nn := n.(*ast.ExprYieldFrom) p.printFreeFloating(nn, token.Start) p.write([]byte("yield from")) if nn.Expr.GetNode().Tokens.IsEmpty() { p.write([]byte(" ")) } p.Print(nn.Expr) p.printFreeFloating(nn, token.End) } func (p *Printer) printExprYield(n ast.Vertex) { nn := n.(*ast.ExprYield) p.printFreeFloating(nn, token.Start) p.write([]byte("yield")) if nn.Key != nil { if nn.Key.GetNode().Tokens.IsEmpty() { p.write([]byte(" ")) } p.Print(nn.Key) p.printFreeFloating(nn, token.Expr) p.write([]byte("=>")) } else { if nn.Value.GetNode().Tokens.IsEmpty() { p.write([]byte(" ")) } } p.Print(nn.Value) p.printFreeFloating(nn, token.End) } // smtm func (p *Printer) printStmtBreak(n *ast.StmtBreak) { p.printToken(n.BreakTkn, "break") if n.Expr != nil { p.bufStart = " " } p.Print(n.Expr) p.printToken(n.SemiColonTkn, ";") } func (p *Printer) printStmtCase(n *ast.StmtCase) { p.printToken(n.CaseTkn, "case") p.bufStart = " " p.Print(n.Cond) p.printToken(n.CaseSeparatorTkn, ":") p.printNodes(n.Stmts) } func (p *Printer) printStmtCatch(n *ast.StmtCatch) { p.printToken(n.CatchTkn, "catch") p.printToken(n.OpenParenthesisTkn, "(") p.printSeparatedList(n.Types, n.SeparatorTkns, "|") p.Print(n.Var) p.printToken(n.CloseParenthesisTkn, ")") p.printToken(n.OpenCurlyBracketTkn, "{") p.printNodes(n.Stmts) p.printToken(n.CloseCurlyBracketTkn, "}") } func (p *Printer) printStmtClassMethod(n ast.Vertex) { nn := n.(*ast.StmtClassMethod) p.printFreeFloating(nn, token.Start) if nn.Modifiers != nil { for k, m := range nn.Modifiers { if k > 0 && m.GetNode().Tokens.IsEmpty() { p.write([]byte(" ")) } p.Print(m) } if nn.GetNode().Tokens.IsEmpty() { p.write([]byte(" ")) } } p.printFreeFloating(nn, token.ModifierList) p.write([]byte("function")) p.printFreeFloating(nn, token.Function) if nn.AmpersandTkn != nil { if nn.GetNode().Tokens.IsEmpty() { p.write([]byte(" ")) } p.write([]byte("&")) p.printFreeFloating(nn, token.Ampersand) } else { if nn.GetNode().Tokens.IsEmpty() { p.write([]byte(" ")) } } p.Print(nn.MethodName) p.printFreeFloating(nn, token.Name) p.write([]byte("(")) p.joinPrint(",", nn.Params) p.printFreeFloating(nn, token.ParameterList) p.write([]byte(")")) p.printFreeFloating(nn, token.Params) if nn.ReturnType != nil { p.bufStart = ":" p.Print(nn.ReturnType) } p.Print(nn.Stmt) p.printFreeFloating(nn, token.End) } func (p *Printer) printStmtClass(n ast.Vertex) { nn := n.(*ast.StmtClass) p.printFreeFloatingOrDefault(nn, token.Start, p.bufStart) p.bufStart = "" if nn.Modifiers != nil { for k, m := range nn.Modifiers { if k > 0 && m.GetNode().Tokens.IsEmpty() { p.write([]byte(" ")) } p.Print(m) } if nn.GetNode().Tokens.IsEmpty() { p.write([]byte(" ")) } } p.printFreeFloating(nn, token.ModifierList) p.write([]byte("class")) if nn.ClassName != nil { p.bufStart = " " p.Print(nn.ClassName) } if nn.Arguments != nil { p.printToken(nn.OpenParenthesisTkn, "(") p.joinPrint(",", nn.Arguments) p.printToken(nn.CloseParenthesisTkn, ")") } if nn.Extends != nil { p.printFreeFloating(nn.Extends, token.Start) if nn.Extends.GetNode().Tokens.IsEmpty() { p.write([]byte(" ")) } p.write([]byte("extends")) p.bufStart = " " p.Print(nn.Extends.(*ast.StmtClassExtends).ClassName) } if nn.Implements != nil { p.printFreeFloating(nn.Implements, token.Start) if nn.Implements.GetNode().Tokens.IsEmpty() { p.write([]byte(" ")) } p.write([]byte("implements")) p.bufStart = " " p.joinPrintRefactored(",", nn.Implements.(*ast.StmtClassImplements).InterfaceNames) } p.printFreeFloating(nn, token.Name) p.write([]byte("{")) p.printNodes(nn.Stmts) p.printFreeFloating(nn, token.Stmts) p.write([]byte("}")) p.printFreeFloating(nn, token.End) } func (p *Printer) printStmtClassConstList(n *ast.StmtClassConstList) { p.joinPrintRefactored(" ", n.Modifiers) p.bufStart = " " p.printToken(n.ConstTkn, "const") p.bufStart = " " p.joinPrintRefactored(",", n.Consts) p.printToken(n.SemiColonTkn, ";") } func (p *Printer) printStmtConstList(n *ast.StmtConstList) { p.printToken(n.ConstTkn, "const") p.bufStart = " " p.printSeparatedList(n.Consts, n.SeparatorTkns, ",") p.printToken(n.SemiColonTkn, ";") } func (p *Printer) printStmtConstant(n *ast.StmtConstant) { p.Print(n.Name) p.printToken(n.EqualTkn, "=") p.Print(n.Expr) p.printToken(n.CommaTkn, "") } func (p *Printer) printStmtContinue(n *ast.StmtContinue) { p.printToken(n.ContinueTkn, "continue") if n.Expr != nil { p.bufStart = " " } p.Print(n.Expr) p.printToken(n.SemiColonTkn, ";") } func (p *Printer) printStmtDeclare(n *ast.StmtDeclare) { if n.Alt { p.printStmtAltDeclare(n) return } p.printToken(n.DeclareTkn, "declare") p.printToken(n.OpenParenthesisTkn, "(") p.printSeparatedList(n.Consts, n.SeparatorTkns, ",") p.printToken(n.CloseParenthesisTkn, ")") p.Print(n.Stmt) } func (p *Printer) printStmtAltDeclare(n *ast.StmtDeclare) { p.printToken(n.DeclareTkn, "declare") p.printToken(n.OpenParenthesisTkn, "(") p.printSeparatedList(n.Consts, n.SeparatorTkns, ",") p.printToken(n.CloseParenthesisTkn, ")") p.printToken(n.ColonTkn, ":") if stmtList, ok := n.Stmt.(*ast.StmtStmtList); ok { p.printNodes(stmtList.Stmts) } else { p.Print(n.Stmt) } p.printToken(n.EndDeclareTkn, "enddeclare") p.printToken(n.SemiColonTkn, ";") } func (p *Printer) printStmtDefault(n *ast.StmtDefault) { p.printToken(n.DefaultTkn, "default") p.printToken(n.CaseSeparatorTkn, ":") p.printNodes(n.Stmts) } func (p *Printer) printStmtDo(n *ast.StmtDo) { p.printToken(n.DoTkn, "do") p.bufStart = " " p.Print(n.Stmt) p.printToken(n.WhileTkn, "while") p.printToken(n.OpenParenthesisTkn, "(") p.Print(n.Cond) p.printToken(n.CloseParenthesisTkn, ")") p.printToken(n.SemiColonTkn, ";") } func (p *Printer) printStmtEcho(n *ast.StmtEcho) { p.printToken(n.EchoTkn, "echo") p.bufStart = " " p.printSeparatedList(n.Exprs, n.SeparatorTkns, ",") p.printToken(n.SemiColonTkn, ";") } func (p *Printer) printStmtElseif(n *ast.StmtElseIf) { if n.Alt { p.printStmtAltElseIf(n) return } p.printToken(n.ElseIfTkn, "elseif") p.printToken(n.OpenParenthesisTkn, "(") p.Print(n.Cond) p.printToken(n.CloseParenthesisTkn, ")") p.Print(n.Stmt) } func (p *Printer) printStmtAltElseIf(n *ast.StmtElseIf) { p.printToken(n.ElseIfTkn, "elseif") p.printToken(n.OpenParenthesisTkn, "(") p.Print(n.Cond) p.printToken(n.CloseParenthesisTkn, ")") p.printToken(n.ColonTkn, ":") if stmtList, ok := n.Stmt.(*ast.StmtStmtList); ok { p.printNodes(stmtList.Stmts) } else { p.Print(n.Stmt) } } func (p *Printer) printStmtElse(n *ast.StmtElse) { if n.Alt { p.printStmtAltElse(n) return } p.printToken(n.ElseTkn, "else") p.bufStart = " " p.Print(n.Stmt) } func (p *Printer) printStmtAltElse(n *ast.StmtElse) { p.printToken(n.ElseTkn, "else") p.printToken(n.ColonTkn, ":") if stmtList, ok := n.Stmt.(*ast.StmtStmtList); ok { p.printNodes(stmtList.Stmts) } else { p.Print(n.Stmt) } } func (p *Printer) printStmtExpression(n ast.Vertex) { nn := n.(*ast.StmtExpression) p.printFreeFloating(nn, token.Start) p.Print(nn.Expr) p.printFreeFloating(nn, token.Expr) p.printFreeFloating(nn, token.SemiColon) if nn.GetNode().Tokens.IsEmpty() { p.write([]byte(";")) } p.printFreeFloating(nn, token.End) } func (p *Printer) printStmtFinally(n *ast.StmtFinally) { p.printToken(n.FinallyTkn, "finally") p.printToken(n.OpenCurlyBracketTkn, "{") p.printNodes(n.Stmts) p.printToken(n.CloseCurlyBracketTkn, "}") } func (p *Printer) printStmtFor(n *ast.StmtFor) { if n.Alt { p.printStmtAltFor(n) return } p.printToken(n.ForTkn, "for") p.printToken(n.OpenParenthesisTkn, "(") p.joinPrint(",", n.Init) p.printToken(n.InitSemiColonTkn, ";") p.joinPrint(",", n.Cond) p.printToken(n.CondSemiColonTkn, ";") p.joinPrint(",", n.Loop) p.printToken(n.CloseParenthesisTkn, ")") p.Print(n.Stmt) } func (p *Printer) printStmtAltFor(n *ast.StmtFor) { p.printToken(n.ForTkn, "for") p.printToken(n.OpenParenthesisTkn, "(") p.joinPrint(",", n.Init) p.printToken(n.InitSemiColonTkn, ";") p.joinPrint(",", n.Cond) p.printToken(n.CondSemiColonTkn, ";") p.joinPrint(",", n.Loop) p.printToken(n.CloseParenthesisTkn, ")") p.printToken(n.ColonTkn, ":") if stmtList, ok := n.Stmt.(*ast.StmtStmtList); ok { p.printNodes(stmtList.Stmts) } else { p.Print(n.Stmt) } p.printToken(n.EndForTkn, "endfor") p.printToken(n.SemiColonTkn, ";") } func (p *Printer) printStmtForeach(n *ast.StmtForeach) { if n.Alt { p.printStmtAltForeach(n) return } p.printToken(n.ForeachTkn, "foreach") p.printToken(n.OpenParenthesisTkn, "(") p.Print(n.Expr) p.bufStart = " " p.printToken(n.AsTkn, "as") p.bufStart = " " if n.Key != nil { p.Print(n.Key) p.printToken(n.DoubleArrowTkn, "=>") } p.Print(n.Var) p.printToken(n.CloseParenthesisTkn, ")") p.Print(n.Stmt) } func (p *Printer) printStmtAltForeach(n *ast.StmtForeach) { p.printToken(n.ForeachTkn, "foreach") p.printToken(n.OpenParenthesisTkn, "(") p.Print(n.Expr) p.bufStart = " " p.printToken(n.AsTkn, "as") p.bufStart = " " if n.Key != nil { p.Print(n.Key) p.printToken(n.DoubleArrowTkn, "=>") } p.Print(n.Var) p.printToken(n.CloseParenthesisTkn, ")") p.printToken(n.ColonTkn, ":") if stmtList, ok := n.Stmt.(*ast.StmtStmtList); ok { p.printNodes(stmtList.Stmts) } else { p.Print(n.Stmt) } p.printToken(n.EndForeachTkn, "endforeach") p.printToken(n.SemiColonTkn, ";") } func (p *Printer) printStmtFunction(n ast.Vertex) { nn := n.(*ast.StmtFunction) p.printFreeFloating(nn, token.Start) p.write([]byte("function")) p.printFreeFloating(nn, token.Function) if nn.AmpersandTkn != nil { if nn.GetNode().Tokens.IsEmpty() { p.write([]byte(" ")) } p.write([]byte("&")) } else { if nn.FunctionName.GetNode().Tokens.IsEmpty() { p.write([]byte(" ")) } } p.Print(nn.FunctionName) p.printFreeFloating(nn, token.Name) p.write([]byte("(")) p.joinPrint(",", nn.Params) p.printFreeFloating(nn, token.ParamList) p.write([]byte(")")) p.printFreeFloating(nn, token.Params) if nn.ReturnType != nil { p.bufStart = ":" p.Print(nn.ReturnType) } p.printFreeFloating(nn, token.ReturnType) p.write([]byte("{")) p.printNodes(nn.Stmts) p.printFreeFloating(nn, token.Stmts) p.write([]byte("}")) p.printFreeFloating(nn, token.End) } func (p *Printer) printStmtGlobal(n *ast.StmtGlobal) { p.printToken(n.GlobalTkn, "global") p.bufStart = " " p.printSeparatedList(n.Vars, n.SeparatorTkns, ",") p.printToken(n.SemiColonTkn, ";") } func (p *Printer) printStmtGoto(n *ast.StmtGoto) { p.printToken(n.GotoTkn, "goto") p.bufStart = " " p.Print(n.Label) p.printToken(n.SemiColonTkn, ";") } func (p *Printer) printStmtHaltCompiler(n *ast.StmtHaltCompiler) { p.printToken(n.HaltCompilerTkn, "__halt_compiler") p.printToken(n.OpenParenthesisTkn, "(") p.printToken(n.CloseParenthesisTkn, ")") p.printToken(n.SemiColonTkn, ";") } func (p *Printer) printStmtIf(n *ast.StmtIf) { if n.Alt { p.printStmtAltIf(n) return } p.printToken(n.IfTkn, "if") p.printToken(n.OpenParenthesisTkn, "(") p.Print(n.Cond) p.printToken(n.CloseParenthesisTkn, ")") p.Print(n.Stmt) p.printNodes(n.ElseIf) p.Print(n.Else) } func (p *Printer) printStmtAltIf(n *ast.StmtIf) { p.printToken(n.IfTkn, "if") p.printToken(n.OpenParenthesisTkn, "(") p.Print(n.Cond) p.printToken(n.CloseParenthesisTkn, ")") p.printToken(n.ColonTkn, ":") if stmtList, ok := n.Stmt.(*ast.StmtStmtList); ok { p.printNodes(stmtList.Stmts) } else { p.Print(n.Stmt) } p.printNodes(n.ElseIf) p.Print(n.Else) p.printToken(n.EndIfTkn, "endif") p.printToken(n.SemiColonTkn, ";") } func (p *Printer) printStmtInlineHTML(n *ast.StmtInlineHtml) { if p.s == PhpState && !bytes.Contains(p.lastWrite, []byte("?>")) { p.write([]byte("?>")) } p.SetState(HtmlState) p.printToken(n.InlineHtmlTkn, string(n.Value)) } func (p *Printer) printStmtInterface(n ast.Vertex) { nn := n.(*ast.StmtInterface) p.printFreeFloating(nn, token.Start) p.write([]byte("interface")) if nn.InterfaceName.GetNode().Tokens.IsEmpty() { p.write([]byte(" ")) } p.Print(nn.InterfaceName) if nn.Extends != nil { p.printFreeFloating(nn.Extends, token.Start) if nn.Extends.GetNode().Tokens.IsEmpty() { p.write([]byte(" ")) } p.write([]byte("extends")) p.bufStart = " " p.joinPrintRefactored(",", nn.Extends.(*ast.StmtInterfaceExtends).InterfaceNames) } p.printFreeFloating(nn, token.Name) p.write([]byte("{")) p.printNodes(nn.Stmts) p.printFreeFloating(nn, token.Stmts) p.write([]byte("}")) p.printFreeFloating(nn, token.End) } func (p *Printer) printStmtLabel(n *ast.StmtLabel) { p.Print(n.LabelName) p.printToken(n.ColonTkn, ":") } func (p *Printer) printStmtNamespace(n *ast.StmtNamespace) { p.printToken(n.NsTkn, "namespace") if n.Name != nil { p.bufStart = " " p.Print(n.Name) } if n.Stmts != nil { p.printToken(n.OpenCurlyBracket, "{") p.printNodes(n.Stmts) p.printToken(n.CloseCurlyBracket, "}") return } if n.OpenCurlyBracket != nil { p.printToken(n.OpenCurlyBracket, "{") p.printToken(n.CloseCurlyBracket, "}") return } p.printToken(n.SemiColonTkn, ";") } func (p *Printer) printStmtNop(n *ast.StmtNop) { p.printToken(n.SemiColonTkn, ";") } func (p *Printer) printStmtPropertyList(n ast.Vertex) { nn := n.(*ast.StmtPropertyList) p.printFreeFloating(nn, token.Start) for k, m := range nn.Modifiers { if k > 0 && m.GetNode().Tokens.IsEmpty() { p.write([]byte(" ")) } p.Print(m) } if nn.Type != nil { p.bufStart = " " p.Print(nn.Type) } if nn.Properties[0].GetNode().Tokens.IsEmpty() { p.write([]byte(" ")) } p.joinPrint(",", nn.Properties) p.printFreeFloating(n, token.PropertyList) p.printFreeFloating(n, token.SemiColon) if n.GetNode().Tokens.IsEmpty() { p.write([]byte(";")) } p.printFreeFloating(nn, token.End) } func (p *Printer) printStmtProperty(n ast.Vertex) { nn := n.(*ast.StmtProperty) p.printFreeFloating(nn, token.Start) p.Print(nn.Var) if nn.Expr != nil { p.printFreeFloating(nn, token.Var) p.write([]byte("=")) p.Print(nn.Expr) } p.printFreeFloating(nn, token.End) } func (p *Printer) printStmtReturn(n *ast.StmtReturn) { p.printToken(n.ReturnTkn, "return") if n.Expr != nil { p.bufStart = " " } p.Print(n.Expr) p.printToken(n.SemiColonTkn, ";") } func (p *Printer) printStmtStaticVar(n *ast.StmtStaticVar) { p.Print(n.Var) if n.Expr != nil { p.printToken(n.EqualTkn, "=") p.Print(n.Expr) } } func (p *Printer) printStmtStatic(n *ast.StmtStatic) { p.printToken(n.StaticTkn, "static") p.bufStart = " " p.printSeparatedList(n.Vars, n.SeparatorTkns, ",") p.printToken(n.SemiColonTkn, ";") } func (p *Printer) printStmtStmtList(n *ast.StmtStmtList) { p.printToken(n.OpenCurlyBracket, "{") p.printNodes(n.Stmts) p.printToken(n.CloseCurlyBracket, "}") } func (p *Printer) printStmtSwitch(n *ast.StmtSwitch) { if n.Alt { p.printStmtAltSwitch(n) return } p.printToken(n.SwitchTkn, "switch") p.printToken(n.OpenParenthesisTkn, "(") p.Print(n.Cond) p.printToken(n.CloseParenthesisTkn, ")") p.printToken(n.OpenCurlyBracketTkn, "{") p.printToken(n.CaseSeparatorTkn, "") p.printNodes(n.CaseList) p.printToken(n.CloseCurlyBracketTkn, "}") } func (p *Printer) printStmtAltSwitch(n *ast.StmtSwitch) { p.printToken(n.SwitchTkn, "switch") p.printToken(n.OpenParenthesisTkn, "(") p.Print(n.Cond) p.printToken(n.CloseParenthesisTkn, ")") p.printToken(n.ColonTkn, ":") p.printToken(n.CaseSeparatorTkn, "") p.printNodes(n.CaseList) p.printToken(n.EndSwitchTkn, "endswitch") p.printToken(n.SemiColonTkn, ";") } func (p *Printer) printStmtThrow(n *ast.StmtThrow) { p.printToken(n.ThrowTkn, "throw") p.bufStart = " " p.Print(n.Expr) p.printToken(n.SemiColonTkn, ";") } func (p *Printer) printStmtTraitAdaptationList(n ast.Vertex) { nn := n.(*ast.StmtTraitAdaptationList) p.printFreeFloating(nn, token.Start) p.write([]byte("{")) p.printNodes(nn.Adaptations) p.printFreeFloating(nn, token.AdaptationList) p.write([]byte("}")) p.printFreeFloating(nn, token.End) } func (p *Printer) printStmtTraitMethodRef(n ast.Vertex) { nn := n.(*ast.StmtTraitMethodRef) p.printFreeFloating(nn, token.Start) if nn.Trait != nil { p.Print(nn.Trait) p.printFreeFloating(nn, token.Name) p.write([]byte("::")) } p.Print(nn.Method) p.printFreeFloating(nn, token.End) } func (p *Printer) printStmtTraitUseAlias(n ast.Vertex) { nn := n.(*ast.StmtTraitUseAlias) p.printFreeFloating(nn, token.Start) p.Print(nn.Ref) p.printFreeFloating(nn, token.Ref) if nn.GetNode().Tokens.IsEmpty() { p.write([]byte(" ")) } p.write([]byte("as")) if nn.Modifier != nil { if nn.Modifier.GetNode().Tokens.IsEmpty() { p.write([]byte(" ")) } p.Print(nn.Modifier) } if nn.Alias != nil { if nn.Alias.GetNode().Tokens.IsEmpty() { p.write([]byte(" ")) } p.Print(nn.Alias) } p.printFreeFloating(nn, token.Alias) p.printFreeFloating(nn, token.SemiColon) if n.GetNode().Tokens.IsEmpty() { p.write([]byte(";")) } p.printFreeFloating(nn, token.End) } func (p *Printer) printStmtTraitUsePrecedence(n ast.Vertex) { nn := n.(*ast.StmtTraitUsePrecedence) p.printFreeFloating(nn, token.Start) p.Print(nn.Ref) p.printFreeFloating(nn, token.Ref) if nn.GetNode().Tokens.IsEmpty() { p.write([]byte(" ")) } p.write([]byte("insteadof")) p.bufStart = " " p.joinPrint(",", nn.Insteadof) p.printFreeFloating(nn, token.NameList) p.printFreeFloating(nn, token.SemiColon) if n.GetNode().Tokens.IsEmpty() { p.write([]byte(";")) } p.printFreeFloating(nn, token.End) } func (p *Printer) printStmtTraitUse(n ast.Vertex) { nn := n.(*ast.StmtTraitUse) p.printFreeFloating(nn, token.Start) p.write([]byte("use")) p.bufStart = " " p.joinPrintRefactored(",", nn.Traits) p.Print(nn.Adaptations) p.printFreeFloating(nn, token.End) } func (p *Printer) printStmtTrait(n ast.Vertex) { nn := n.(*ast.StmtTrait) p.printFreeFloating(nn, token.Start) p.write([]byte("trait")) if nn.TraitName.GetNode().Tokens.IsEmpty() { p.write([]byte(" ")) } p.Print(nn.TraitName) p.printFreeFloating(nn, token.Name) p.write([]byte("{")) p.printNodes(nn.Stmts) p.printFreeFloating(nn, token.Stmts) p.write([]byte("}")) p.printFreeFloating(nn, token.End) } func (p *Printer) printStmtTry(n *ast.StmtTry) { p.printToken(n.TryTkn, "try") p.printToken(n.OpenCurlyBracket, "{") p.printNodes(n.Stmts) p.printToken(n.CloseCurlyBracket, "}") if n.Catches != nil { p.printNodes(n.Catches) } if n.Finally != nil { p.Print(n.Finally) } } func (p *Printer) printStmtUnset(n *ast.StmtUnset) { p.printToken(n.UnsetTkn, "unset") p.printToken(n.OpenParenthesisTkn, "(") p.printSeparatedList(n.Vars, n.SeparatorTkns, ",") p.printToken(n.CloseParenthesisTkn, ")") p.printToken(n.SemiColonTkn, ";") } func (p *Printer) printStmtUse(n *ast.StmtUse) { p.printToken(n.UseTkn, "use") if n.Type != nil { p.bufStart = " " p.Print(n.Type) } p.bufStart = " " p.joinPrintRefactored(",", n.UseDeclarations) p.printToken(n.SemiColonTkn, ";") } func (p *Printer) printStmtGroupUse(n *ast.StmtGroupUse) { p.printToken(n.UseTkn, "use") p.bufStart = " " p.Print(n.Type) p.bufStart = " " p.printToken(n.LeadingNsSeparatorTkn, "") p.Print(n.Prefix) p.printToken(n.NsSeparatorTkn, "\\") p.printToken(n.OpenCurlyBracketTkn, "{") p.joinPrintRefactored(",", n.UseDeclarations) p.printToken(n.CloseCurlyBracketTkn, "}") p.printToken(n.SemiColonTkn, ";") } func (p *Printer) printStmtUseDeclaration(n *ast.StmtUseDeclaration) { p.Print(n.Type) if n.Type != nil { p.bufStart = " " } p.printToken(n.NsSeparatorTkn, "") p.Print(n.Use) if n.Alias == nil { p.printToken(n.CommaTkn, "") return } p.bufStart = " " p.printToken(n.AsTkn, "as") p.bufStart = " " p.Print(n.Alias) p.printToken(n.CommaTkn, "") } func (p *Printer) printStmtWhile(n *ast.StmtWhile) { if n.Alt { p.printStmtAltWhile(n) return } p.printToken(n.WhileTkn, "while") p.printToken(n.OpenParenthesisTkn, "(") p.Print(n.Cond) p.printToken(n.CloseParenthesisTkn, ")") p.Print(n.Stmt) } func (p *Printer) printStmtAltWhile(n *ast.StmtWhile) { p.printToken(n.WhileTkn, "while") p.printToken(n.OpenParenthesisTkn, "(") p.Print(n.Cond) p.printToken(n.CloseParenthesisTkn, ")") p.printToken(n.ColonTkn, ":") if stmtList, ok := n.Stmt.(*ast.StmtStmtList); ok { p.printNodes(stmtList.Stmts) } else { p.Print(n.Stmt) } p.printToken(n.EndWhileTkn, "endwhile") p.printToken(n.SemiColonTkn, ";") } func (p *Printer) printParserBrackets(n ast.Vertex) { nn := n.(*ast.ParserBrackets) p.printFreeFloating(nn, token.Start) p.Print(nn.Child) p.printFreeFloating(nn, token.End) }