package printer import ( "io" "strings" "github.com/z7zmey/php-parser/meta" "github.com/z7zmey/php-parser/node/stmt" "github.com/z7zmey/php-parser/node" "github.com/z7zmey/php-parser/node/expr" "github.com/z7zmey/php-parser/node/expr/assign" "github.com/z7zmey/php-parser/node/expr/binary" "github.com/z7zmey/php-parser/node/expr/cast" "github.com/z7zmey/php-parser/node/name" "github.com/z7zmey/php-parser/node/scalar" ) type Printer struct { w io.Writer } // NewPrinter - Constructor for Printer func NewPrinter(w io.Writer) *Printer { return &Printer{ w: w, } } func (p *Printer) Print(n node.Node) { p.printNode(n) } func (p *Printer) joinPrint(glue string, nn []node.Node) { for k, n := range nn { if k > 0 { io.WriteString(p.w, glue) } p.Print(n) } } func (p *Printer) printNodes(nn []node.Node) { for _, n := range nn { p.Print(n) } } func (p *Printer) printMeta(n node.Node, tn meta.TokenName) bool { if n == nil { return false } r := false for _, m := range *n.GetMeta() { if m.TokenName == tn { io.WriteString(p.w, m.String()) r = true } } return r } func (p *Printer) printNode(n node.Node) { switch n.(type) { // node case *node.Root: p.printNodeRoot(n) case *node.Identifier: p.printNodeIdentifier(n) case *node.Parameter: p.printNodeParameter(n) case *node.Nullable: p.printNodeNullable(n) case *node.Argument: p.printNodeArgument(n) // name case *name.NamePart: p.printNameNamePart(n) case *name.Name: p.printNameName(n) case *name.FullyQualified: p.printNameFullyQualified(n) case *name.Relative: p.printNameRelative(n) // scalar case *scalar.Lnumber: p.printScalarLNumber(n) case *scalar.Dnumber: p.printScalarDNumber(n) case *scalar.String: p.printScalarString(n) case *scalar.EncapsedStringPart: p.printScalarEncapsedStringPart(n) case *scalar.Encapsed: p.printScalarEncapsed(n) case *scalar.Heredoc: p.printScalarHeredoc(n) case *scalar.MagicConstant: p.printScalarMagicConstant(n) // assign case *assign.Assign: p.printAssign(n) case *assign.Reference: p.printReference(n) case *assign.BitwiseAnd: p.printAssignBitwiseAnd(n) case *assign.BitwiseOr: p.printAssignBitwiseOr(n) case *assign.BitwiseXor: p.printAssignBitwiseXor(n) case *assign.Concat: p.printAssignConcat(n) case *assign.Div: p.printAssignDiv(n) case *assign.Minus: p.printAssignMinus(n) case *assign.Mod: p.printAssignMod(n) case *assign.Mul: p.printAssignMul(n) case *assign.Plus: p.printAssignPlus(n) case *assign.Pow: p.printAssignPow(n) case *assign.ShiftLeft: p.printAssignShiftLeft(n) case *assign.ShiftRight: p.printAssignShiftRight(n) // binary case *binary.BitwiseAnd: p.printBinaryBitwiseAnd(n) case *binary.BitwiseOr: p.printBinaryBitwiseOr(n) case *binary.BitwiseXor: p.printBinaryBitwiseXor(n) case *binary.BooleanAnd: p.printBinaryBooleanAnd(n) case *binary.BooleanOr: p.printBinaryBooleanOr(n) case *binary.Coalesce: p.printBinaryCoalesce(n) case *binary.Concat: p.printBinaryConcat(n) case *binary.Div: p.printBinaryDiv(n) case *binary.Equal: p.printBinaryEqual(n) case *binary.GreaterOrEqual: p.printBinaryGreaterOrEqual(n) case *binary.Greater: p.printBinaryGreater(n) case *binary.Identical: p.printBinaryIdentical(n) case *binary.LogicalAnd: p.printBinaryLogicalAnd(n) case *binary.LogicalOr: p.printBinaryLogicalOr(n) case *binary.LogicalXor: p.printBinaryLogicalXor(n) case *binary.Minus: p.printBinaryMinus(n) case *binary.Mod: p.printBinaryMod(n) case *binary.Mul: p.printBinaryMul(n) case *binary.NotEqual: p.printBinaryNotEqual(n) case *binary.NotIdentical: p.printBinaryNotIdentical(n) case *binary.Plus: p.printBinaryPlus(n) case *binary.Pow: p.printBinaryPow(n) case *binary.ShiftLeft: p.printBinaryShiftLeft(n) case *binary.ShiftRight: p.printBinaryShiftRight(n) case *binary.SmallerOrEqual: p.printBinarySmallerOrEqual(n) case *binary.Smaller: p.printBinarySmaller(n) case *binary.Spaceship: p.printBinarySpaceship(n) // cast case *cast.Array: p.printArray(n) case *cast.Bool: p.printBool(n) case *cast.Double: p.printDouble(n) case *cast.Int: p.printInt(n) case *cast.Object: p.printObject(n) case *cast.String: p.printString(n) case *cast.Unset: p.printUnset(n) // expr case *expr.ArrayDimFetch: p.printExprArrayDimFetch(n) case *expr.ArrayItem: p.printExprArrayItem(n) case *expr.Array: p.printExprArray(n) case *expr.BitwiseNot: p.printExprBitwiseNot(n) case *expr.BooleanNot: p.printExprBooleanNot(n) case *expr.ClassConstFetch: p.printExprClassConstFetch(n) case *expr.Clone: p.printExprClone(n) case *expr.ClosureUse: p.printExprClosureUse(n) case *expr.Closure: p.printExprClosure(n) case *expr.ConstFetch: p.printExprConstFetch(n) case *expr.Empty: p.printExprEmpty(n) case *expr.ErrorSuppress: p.printExprErrorSuppress(n) case *expr.Eval: p.printExprEval(n) case *expr.Exit: p.printExprExit(n) case *expr.FunctionCall: p.printExprFunctionCall(n) case *expr.Include: p.printExprInclude(n) case *expr.IncludeOnce: p.printExprIncludeOnce(n) case *expr.InstanceOf: p.printExprInstanceOf(n) case *expr.Isset: p.printExprIsset(n) case *expr.List: p.printExprList(n) case *expr.MethodCall: p.printExprMethodCall(n) case *expr.New: p.printExprNew(n) case *expr.PostDec: p.printExprPostDec(n) case *expr.PostInc: p.printExprPostInc(n) case *expr.PreDec: p.printExprPreDec(n) case *expr.PreInc: p.printExprPreInc(n) case *expr.Print: p.printExprPrint(n) case *expr.PropertyFetch: p.printExprPropertyFetch(n) case *expr.Reference: p.printExprReference(n) case *expr.Require: p.printExprRequire(n) case *expr.RequireOnce: p.printExprRequireOnce(n) case *expr.ShellExec: p.printExprShellExec(n) case *expr.ShortArray: p.printExprShortArray(n) case *expr.ShortList: p.printExprShortList(n) case *expr.StaticCall: p.printExprStaticCall(n) case *expr.StaticPropertyFetch: p.printExprStaticPropertyFetch(n) case *expr.Ternary: p.printExprTernary(n) case *expr.UnaryMinus: p.printExprUnaryMinus(n) case *expr.UnaryPlus: p.printExprUnaryPlus(n) case *expr.Variable: p.printExprVariable(n) case *expr.YieldFrom: p.printExprYieldFrom(n) case *expr.Yield: p.printExprYield(n) // stmt case *stmt.AltElseIf: p.printStmtAltElseIf(n) case *stmt.AltElse: p.printStmtAltElse(n) case *stmt.AltFor: p.printStmtAltFor(n) case *stmt.AltForeach: p.printStmtAltForeach(n) case *stmt.AltIf: p.printStmtAltIf(n) case *stmt.AltSwitch: p.printStmtAltSwitch(n) case *stmt.AltWhile: p.printStmtAltWhile(n) case *stmt.Break: p.printStmtBreak(n) case *stmt.Case: p.printStmtCase(n) case *stmt.Catch: p.printStmtCatch(n) case *stmt.ClassMethod: p.printStmtClassMethod(n) case *stmt.Class: p.printStmtClass(n) case *stmt.ClassConstList: p.printStmtClassConstList(n) case *stmt.ConstList: p.printStmtConstList(n) case *stmt.Constant: p.printStmtConstant(n) case *stmt.Continue: p.printStmtContinue(n) case *stmt.Declare: p.printStmtDeclare(n) case *stmt.Default: p.printStmtDefault(n) case *stmt.Do: p.printStmtDo(n) case *stmt.Echo: p.printStmtEcho(n) case *stmt.ElseIf: p.printStmtElseif(n) case *stmt.Else: p.printStmtElse(n) case *stmt.Expression: p.printStmtExpression(n) case *stmt.Finally: p.printStmtFinally(n) case *stmt.For: p.printStmtFor(n) case *stmt.Foreach: p.printStmtForeach(n) case *stmt.Function: p.printStmtFunction(n) case *stmt.Global: p.printStmtGlobal(n) case *stmt.Goto: p.printStmtGoto(n) case *stmt.GroupUse: p.printStmtGroupUse(n) case *stmt.HaltCompiler: p.printStmtHaltCompiler(n) case *stmt.If: p.printStmtIf(n) case *stmt.InlineHtml: p.printStmtInlineHTML(n) case *stmt.Interface: p.printStmtInterface(n) case *stmt.Label: p.printStmtLabel(n) case *stmt.Namespace: p.printStmtNamespace(n) case *stmt.Nop: p.printStmtNop(n) case *stmt.PropertyList: p.printStmtPropertyList(n) case *stmt.Property: p.printStmtProperty(n) case *stmt.Return: p.printStmtReturn(n) case *stmt.StaticVar: p.printStmtStaticVar(n) case *stmt.Static: p.printStmtStatic(n) case *stmt.StmtList: p.printStmtStmtList(n) case *stmt.Switch: p.printStmtSwitch(n) case *stmt.Throw: p.printStmtThrow(n) case *stmt.TraitMethodRef: p.printStmtTraitMethodRef(n) case *stmt.TraitUseAlias: p.printStmtTraitUseAlias(n) case *stmt.TraitUsePrecedence: p.printStmtTraitUsePrecedence(n) case *stmt.TraitUse: p.printStmtTraitUse(n) case *stmt.Trait: p.printStmtTrait(n) case *stmt.Try: p.printStmtTry(n) case *stmt.Unset: p.printStmtUnset(n) case *stmt.UseList: p.printStmtUseList(n) case *stmt.Use: p.printStmtUse(n) case *stmt.While: p.printStmtWhile(n) } } // node func (p *Printer) printNodeRoot(n node.Node) { nn := n.(*node.Root) p.printMeta(nn, meta.NodeStart) p.printNodes(nn.Stmts) p.printMeta(nn, meta.NodeEnd) } func (p *Printer) printNodeIdentifier(n node.Node) { nn := n.(*node.Identifier) p.printMeta(nn, meta.NodeStart) io.WriteString(p.w, nn.Value) p.printMeta(nn, meta.NodeEnd) } func (p *Printer) printNodeParameter(n node.Node) { nn := n.(*node.Parameter) p.printMeta(nn, meta.NodeStart) if nn.VariableType != nil { p.Print(nn.VariableType) } if nn.ByRef { p.printMeta(nn, meta.AmpersandToken) io.WriteString(p.w, "&") } if nn.Variadic { p.printMeta(nn, meta.EllipsisToken) io.WriteString(p.w, "...") } p.Print(nn.Variable) if nn.DefaultValue != nil { p.printMeta(nn, meta.EqualToken) io.WriteString(p.w, "=") p.Print(nn.DefaultValue) } p.printMeta(nn, meta.NodeEnd) } func (p *Printer) printNodeNullable(n node.Node) { nn := n.(*node.Nullable) p.printMeta(nn, meta.NodeStart) io.WriteString(p.w, "?") p.Print(nn.Expr) p.printMeta(nn, meta.NodeEnd) } func (p *Printer) printNodeArgument(n node.Node) { nn := n.(*node.Argument) p.printMeta(nn, meta.NodeStart) if nn.IsReference { p.printMeta(nn, meta.AmpersandToken) io.WriteString(p.w, "&") } if nn.Variadic { p.printMeta(nn, meta.EllipsisToken) io.WriteString(p.w, "...") } p.Print(nn.Expr) p.printMeta(nn, meta.NodeEnd) } // name func (p *Printer) printNameNamePart(n node.Node) { nn := n.(*name.NamePart) p.printMeta(nn, meta.NodeStart) io.WriteString(p.w, nn.Value) p.printMeta(nn, meta.NsSeparatorToken) p.printMeta(nn, meta.NodeEnd) } func (p *Printer) printNameName(n node.Node) { nn := n.(*name.Name) p.printMeta(nn, meta.NodeStart) for k, part := range nn.Parts { if k > 0 { io.WriteString(p.w, "\\") } p.Print(part) } p.printMeta(nn, meta.NodeEnd) } func (p *Printer) printNameFullyQualified(n node.Node) { nn := n.(*name.FullyQualified) p.printMeta(nn, meta.NodeStart) for _, part := range nn.Parts { io.WriteString(p.w, "\\") p.Print(part) } p.printMeta(nn, meta.NodeEnd) } func (p *Printer) printNameRelative(n node.Node) { nn := n.(*name.Relative) p.printMeta(nn, meta.NodeStart) io.WriteString(p.w, "namespace") p.printMeta(nn, meta.NsSeparatorToken) for _, part := range nn.Parts { io.WriteString(p.w, "\\") p.Print(part) } p.printMeta(nn, meta.NodeEnd) } // scalar func (p *Printer) printScalarLNumber(n node.Node) { nn := n.(*scalar.Lnumber) p.printMeta(nn, meta.NodeStart) io.WriteString(p.w, nn.Value) p.printMeta(nn, meta.NodeEnd) } func (p *Printer) printScalarDNumber(n node.Node) { nn := n.(*scalar.Dnumber) p.printMeta(nn, meta.NodeStart) io.WriteString(p.w, nn.Value) p.printMeta(nn, meta.NodeEnd) } func (p *Printer) printScalarString(n node.Node) { nn := n.(*scalar.String) p.printMeta(nn, meta.NodeStart) io.WriteString(p.w, nn.Value) p.printMeta(nn, meta.NodeEnd) } func (p *Printer) printScalarEncapsedStringPart(n node.Node) { nn := n.(*scalar.EncapsedStringPart) p.printMeta(nn, meta.NodeStart) io.WriteString(p.w, nn.Value) p.printMeta(nn, meta.NodeEnd) } func (p *Printer) printScalarEncapsed(n node.Node) { nn := n.(*scalar.Encapsed) p.printMeta(nn, meta.NodeStart) io.WriteString(p.w, "\"") for _, part := range nn.Parts { p.Print(part) } io.WriteString(p.w, "\"") p.printMeta(nn, meta.NodeEnd) } func (p *Printer) printScalarHeredoc(n node.Node) { nn := n.(*scalar.Heredoc) p.printMeta(nn, meta.NodeStart) io.WriteString(p.w, "<<<") io.WriteString(p.w, nn.Label) io.WriteString(p.w, "\n") for _, part := range nn.Parts { p.Print(part) } io.WriteString(p.w, "\n") io.WriteString(p.w, strings.Trim(nn.Label, "\"'")) p.printMeta(nn, meta.NodeEnd) } func (p *Printer) printScalarMagicConstant(n node.Node) { nn := n.(*scalar.MagicConstant) p.printMeta(nn, meta.NodeStart) p.printMeta(nn, meta.MagicConstantToken) io.WriteString(p.w, nn.Value) p.printMeta(nn, meta.NodeEnd) } // Assign func (p *Printer) printAssign(n node.Node) { nn := n.(*assign.Assign) p.printMeta(nn, meta.NodeStart) p.Print(nn.Variable) p.printMeta(nn, meta.EqualToken) io.WriteString(p.w, "=") p.Print(nn.Expression) p.printMeta(nn, meta.NodeEnd) } func (p *Printer) printReference(n node.Node) { nn := n.(*assign.Reference) p.printMeta(nn, meta.NodeStart) p.Print(nn.Variable) p.printMeta(nn, meta.EqualToken) io.WriteString(p.w, "=") p.printMeta(nn, meta.AmpersandToken) io.WriteString(p.w, "&") p.Print(nn.Expression) p.printMeta(nn, meta.NodeEnd) } func (p *Printer) printAssignBitwiseAnd(n node.Node) { nn := n.(*assign.BitwiseAnd) p.printMeta(nn, meta.NodeStart) p.Print(nn.Variable) p.printMeta(nn, meta.AndEqualToken) io.WriteString(p.w, "&") io.WriteString(p.w, "=") p.Print(nn.Expression) p.printMeta(nn, meta.NodeEnd) } func (p *Printer) printAssignBitwiseOr(n node.Node) { nn := n.(*assign.BitwiseOr) p.printMeta(nn, meta.NodeStart) p.Print(nn.Variable) p.printMeta(nn, meta.OrEqualToken) io.WriteString(p.w, "|=") p.Print(nn.Expression) p.printMeta(nn, meta.NodeEnd) } func (p *Printer) printAssignBitwiseXor(n node.Node) { nn := n.(*assign.BitwiseXor) p.printMeta(nn, meta.NodeStart) p.Print(nn.Variable) p.printMeta(nn, meta.XorEqualToken) io.WriteString(p.w, "^=") p.Print(nn.Expression) p.printMeta(nn, meta.NodeEnd) } func (p *Printer) printAssignConcat(n node.Node) { nn := n.(*assign.Concat) p.printMeta(nn, meta.NodeStart) p.Print(nn.Variable) p.printMeta(nn, meta.ConcatEqualToken) io.WriteString(p.w, ".=") p.Print(nn.Expression) p.printMeta(nn, meta.NodeEnd) } func (p *Printer) printAssignDiv(n node.Node) { nn := n.(*assign.Div) p.printMeta(nn, meta.NodeStart) p.Print(nn.Variable) p.printMeta(nn, meta.DivEqualToken) io.WriteString(p.w, "/=") p.Print(nn.Expression) p.printMeta(nn, meta.NodeEnd) } func (p *Printer) printAssignMinus(n node.Node) { nn := n.(*assign.Minus) p.printMeta(nn, meta.NodeStart) p.Print(nn.Variable) p.printMeta(nn, meta.MinusEqualToken) io.WriteString(p.w, "-=") p.Print(nn.Expression) p.printMeta(nn, meta.NodeEnd) } func (p *Printer) printAssignMod(n node.Node) { nn := n.(*assign.Mod) p.printMeta(nn, meta.NodeStart) p.Print(nn.Variable) p.printMeta(nn, meta.ModEqualToken) io.WriteString(p.w, "%=") p.Print(nn.Expression) p.printMeta(nn, meta.NodeEnd) } func (p *Printer) printAssignMul(n node.Node) { nn := n.(*assign.Mul) p.printMeta(nn, meta.NodeStart) p.Print(nn.Variable) p.printMeta(nn, meta.MulEqualToken) io.WriteString(p.w, "*=") p.Print(nn.Expression) p.printMeta(nn, meta.NodeEnd) } func (p *Printer) printAssignPlus(n node.Node) { nn := n.(*assign.Plus) p.printMeta(nn, meta.NodeStart) p.Print(nn.Variable) p.printMeta(nn, meta.PlusEqualToken) io.WriteString(p.w, "+=") p.Print(nn.Expression) p.printMeta(nn, meta.NodeEnd) } func (p *Printer) printAssignPow(n node.Node) { nn := n.(*assign.Pow) p.printMeta(nn, meta.NodeStart) p.Print(nn.Variable) p.printMeta(nn, meta.PowEqualToken) io.WriteString(p.w, "**=") p.Print(nn.Expression) p.printMeta(nn, meta.NodeEnd) } func (p *Printer) printAssignShiftLeft(n node.Node) { nn := n.(*assign.ShiftLeft) p.printMeta(nn, meta.NodeStart) p.Print(nn.Variable) p.printMeta(nn, meta.SlEqualToken) io.WriteString(p.w, "<<=") p.Print(nn.Expression) p.printMeta(nn, meta.NodeEnd) } func (p *Printer) printAssignShiftRight(n node.Node) { nn := n.(*assign.ShiftRight) p.printMeta(nn, meta.NodeStart) p.Print(nn.Variable) p.printMeta(nn, meta.SrEqualToken) io.WriteString(p.w, ">>=") p.Print(nn.Expression) p.printMeta(nn, meta.NodeEnd) } // binary func (p *Printer) printBinaryBitwiseAnd(n node.Node) { nn := n.(*binary.BitwiseAnd) p.printMeta(nn, meta.NodeStart) p.Print(nn.Left) p.printMeta(nn, meta.AmpersandToken) io.WriteString(p.w, "&") p.Print(nn.Right) p.printMeta(nn, meta.NodeEnd) } func (p *Printer) printBinaryBitwiseOr(n node.Node) { nn := n.(*binary.BitwiseOr) p.printMeta(nn, meta.NodeStart) p.Print(nn.Left) p.printMeta(nn, meta.VerticalBarToken) io.WriteString(p.w, "|") p.Print(nn.Right) p.printMeta(nn, meta.NodeEnd) } func (p *Printer) printBinaryBitwiseXor(n node.Node) { nn := n.(*binary.BitwiseXor) p.printMeta(nn, meta.NodeStart) p.Print(nn.Left) p.printMeta(nn, meta.CaretToken) io.WriteString(p.w, "^") p.Print(nn.Right) p.printMeta(nn, meta.NodeEnd) } func (p *Printer) printBinaryBooleanAnd(n node.Node) { nn := n.(*binary.BooleanAnd) p.printMeta(nn, meta.NodeStart) p.Print(nn.Left) p.printMeta(nn, meta.BooleanAndToken) io.WriteString(p.w, "&&") p.Print(nn.Right) p.printMeta(nn, meta.NodeEnd) } func (p *Printer) printBinaryBooleanOr(n node.Node) { nn := n.(*binary.BooleanOr) p.printMeta(nn, meta.NodeStart) p.Print(nn.Left) p.printMeta(nn, meta.BooleanOrToken) io.WriteString(p.w, "||") p.Print(nn.Right) p.printMeta(nn, meta.NodeEnd) } func (p *Printer) printBinaryCoalesce(n node.Node) { nn := n.(*binary.Coalesce) p.printMeta(nn, meta.NodeStart) p.Print(nn.Left) p.printMeta(nn, meta.CoalesceToken) io.WriteString(p.w, "??") p.Print(nn.Right) p.printMeta(nn, meta.NodeEnd) } func (p *Printer) printBinaryConcat(n node.Node) { nn := n.(*binary.Concat) p.printMeta(nn, meta.NodeStart) p.Print(nn.Left) p.printMeta(nn, meta.DotToken) io.WriteString(p.w, ".") p.Print(nn.Right) p.printMeta(nn, meta.NodeEnd) } func (p *Printer) printBinaryDiv(n node.Node) { nn := n.(*binary.Div) p.printMeta(nn, meta.NodeStart) p.Print(nn.Left) p.printMeta(nn, meta.SlashToken) io.WriteString(p.w, "/") p.Print(nn.Right) p.printMeta(nn, meta.NodeEnd) } func (p *Printer) printBinaryEqual(n node.Node) { nn := n.(*binary.Equal) p.printMeta(nn, meta.NodeStart) p.Print(nn.Left) p.printMeta(nn, meta.IsEqualToken) io.WriteString(p.w, "==") p.Print(nn.Right) p.printMeta(nn, meta.NodeEnd) } func (p *Printer) printBinaryGreaterOrEqual(n node.Node) { nn := n.(*binary.GreaterOrEqual) p.printMeta(nn, meta.NodeStart) p.Print(nn.Left) p.printMeta(nn, meta.IsGreaterOrEqualToken) io.WriteString(p.w, ">=") p.Print(nn.Right) p.printMeta(nn, meta.NodeEnd) } func (p *Printer) printBinaryGreater(n node.Node) { nn := n.(*binary.Greater) p.printMeta(nn, meta.NodeStart) p.Print(nn.Left) p.printMeta(nn, meta.GreaterToken) io.WriteString(p.w, ">") p.Print(nn.Right) p.printMeta(nn, meta.NodeEnd) } func (p *Printer) printBinaryIdentical(n node.Node) { nn := n.(*binary.Identical) p.printMeta(nn, meta.NodeStart) p.Print(nn.Left) p.printMeta(nn, meta.IsIdenticalToken) io.WriteString(p.w, "===") p.Print(nn.Right) p.printMeta(nn, meta.NodeEnd) } func (p *Printer) printBinaryLogicalAnd(n node.Node) { nn := n.(*binary.LogicalAnd) p.printMeta(nn, meta.NodeStart) p.Print(nn.Left) p.printMeta(nn, meta.LogicalAndToken) io.WriteString(p.w, "and") p.Print(nn.Right) p.printMeta(nn, meta.NodeEnd) } func (p *Printer) printBinaryLogicalOr(n node.Node) { nn := n.(*binary.LogicalOr) p.printMeta(nn, meta.NodeStart) p.Print(nn.Left) p.printMeta(nn, meta.LogicalOrToken) io.WriteString(p.w, "or") p.Print(nn.Right) p.printMeta(nn, meta.NodeEnd) } func (p *Printer) printBinaryLogicalXor(n node.Node) { nn := n.(*binary.LogicalXor) p.printMeta(nn, meta.NodeStart) p.Print(nn.Left) p.printMeta(nn, meta.LogicalXorToken) io.WriteString(p.w, "xor") p.Print(nn.Right) p.printMeta(nn, meta.NodeEnd) } func (p *Printer) printBinaryMinus(n node.Node) { nn := n.(*binary.Minus) p.printMeta(nn, meta.NodeStart) p.Print(nn.Left) p.printMeta(nn, meta.MinusToken) io.WriteString(p.w, "-") p.Print(nn.Right) p.printMeta(nn, meta.NodeEnd) } func (p *Printer) printBinaryMod(n node.Node) { nn := n.(*binary.Mod) p.printMeta(nn, meta.NodeStart) p.Print(nn.Left) p.printMeta(nn, meta.PercentToken) io.WriteString(p.w, "%") p.Print(nn.Right) p.printMeta(nn, meta.NodeEnd) } func (p *Printer) printBinaryMul(n node.Node) { nn := n.(*binary.Mul) p.printMeta(nn, meta.NodeStart) p.Print(nn.Left) p.printMeta(nn, meta.AsteriskToken) io.WriteString(p.w, "*") p.Print(nn.Right) p.printMeta(nn, meta.NodeEnd) } func (p *Printer) printBinaryNotEqual(n node.Node) { nn := n.(*binary.NotEqual) p.printMeta(nn, meta.NodeStart) p.Print(nn.Left) p.printMeta(nn, meta.IsNotEqualToken) p.Print(nn.Right) p.printMeta(nn, meta.NodeEnd) } func (p *Printer) printBinaryNotIdentical(n node.Node) { nn := n.(*binary.NotIdentical) p.printMeta(nn, meta.NodeStart) p.Print(nn.Left) p.printMeta(nn, meta.IsNotIdenticalToken) io.WriteString(p.w, "!==") p.Print(nn.Right) p.printMeta(nn, meta.NodeEnd) } func (p *Printer) printBinaryPlus(n node.Node) { nn := n.(*binary.Plus) p.printMeta(nn, meta.NodeStart) p.Print(nn.Left) p.printMeta(nn, meta.PlusToken) io.WriteString(p.w, "+") p.Print(nn.Right) p.printMeta(nn, meta.NodeEnd) } func (p *Printer) printBinaryPow(n node.Node) { nn := n.(*binary.Pow) p.printMeta(nn, meta.NodeStart) p.Print(nn.Left) p.printMeta(nn, meta.PowToken) io.WriteString(p.w, "**") p.Print(nn.Right) p.printMeta(nn, meta.NodeEnd) } func (p *Printer) printBinaryShiftLeft(n node.Node) { nn := n.(*binary.ShiftLeft) p.printMeta(nn, meta.NodeStart) p.Print(nn.Left) p.printMeta(nn, meta.SlToken) io.WriteString(p.w, "<<") p.Print(nn.Right) p.printMeta(nn, meta.NodeEnd) } func (p *Printer) printBinaryShiftRight(n node.Node) { nn := n.(*binary.ShiftRight) p.printMeta(nn, meta.NodeStart) p.Print(nn.Left) p.printMeta(nn, meta.SrToken) io.WriteString(p.w, ">>") p.Print(nn.Right) p.printMeta(nn, meta.NodeEnd) } func (p *Printer) printBinarySmallerOrEqual(n node.Node) { nn := n.(*binary.SmallerOrEqual) p.printMeta(nn, meta.NodeStart) p.Print(nn.Left) p.printMeta(nn, meta.IsSmallerOrEqualToken) io.WriteString(p.w, "<=") p.Print(nn.Right) p.printMeta(nn, meta.NodeEnd) } func (p *Printer) printBinarySmaller(n node.Node) { nn := n.(*binary.Smaller) p.printMeta(nn, meta.NodeStart) p.Print(nn.Left) p.printMeta(nn, meta.LessToken) io.WriteString(p.w, "<") p.Print(nn.Right) p.printMeta(nn, meta.NodeEnd) } func (p *Printer) printBinarySpaceship(n node.Node) { nn := n.(*binary.Spaceship) p.printMeta(nn, meta.NodeStart) p.Print(nn.Left) p.printMeta(nn, meta.SpaceshipToken) io.WriteString(p.w, "<=>") p.Print(nn.Right) p.printMeta(nn, meta.NodeEnd) } // cast func (p *Printer) printArray(n node.Node) { nn := n.(*cast.Array) p.printMeta(nn, meta.NodeStart) p.printMeta(nn, meta.ArrayCastToken) p.Print(nn.Expr) p.printMeta(nn, meta.NodeEnd) } func (p *Printer) printBool(n node.Node) { nn := n.(*cast.Bool) p.printMeta(nn, meta.NodeStart) p.printMeta(nn, meta.BoolCastToken) p.Print(nn.Expr) p.printMeta(nn, meta.NodeEnd) } func (p *Printer) printDouble(n node.Node) { nn := n.(*cast.Double) p.printMeta(nn, meta.NodeStart) p.printMeta(nn, meta.DoubleCastToken) p.Print(nn.Expr) p.printMeta(nn, meta.NodeEnd) } func (p *Printer) printInt(n node.Node) { nn := n.(*cast.Int) p.printMeta(nn, meta.NodeStart) p.printMeta(nn, meta.IntCastToken) p.Print(nn.Expr) p.printMeta(nn, meta.NodeEnd) } func (p *Printer) printObject(n node.Node) { nn := n.(*cast.Object) p.printMeta(nn, meta.NodeStart) p.printMeta(nn, meta.ObjectCastToken) p.Print(nn.Expr) p.printMeta(nn, meta.NodeEnd) } func (p *Printer) printString(n node.Node) { nn := n.(*cast.String) p.printMeta(nn, meta.NodeStart) p.printMeta(nn, meta.StringCastToken) p.Print(nn.Expr) p.printMeta(nn, meta.NodeEnd) } func (p *Printer) printUnset(n node.Node) { nn := n.(*cast.Unset) p.printMeta(nn, meta.NodeStart) p.printMeta(nn, meta.UnsetCastToken) p.Print(nn.Expr) p.printMeta(nn, meta.NodeEnd) } // expr func (p *Printer) printExprArrayDimFetch(n node.Node) { nn := n.(*expr.ArrayDimFetch) p.printMeta(nn, meta.NodeStart) p.Print(nn.Variable) p.printMeta(nn, meta.OpenSquareBracket) p.printMeta(nn, meta.OpenCurlyBracesToken) p.Print(nn.Dim) p.printMeta(nn, meta.CloseSquareBracket) p.printMeta(nn, meta.CloseCurlyBracesToken) p.printMeta(nn, meta.NodeEnd) } func (p *Printer) printExprArrayItem(n node.Node) { nn := n.(*expr.ArrayItem) p.printMeta(nn, meta.NodeStart) if nn.Key != nil { p.Print(nn.Key) p.printMeta(nn, meta.DoubleArrowToken) io.WriteString(p.w, "=>") } p.Print(nn.Val) p.printMeta(nn, meta.NodeEnd) } func (p *Printer) printExprArray(n node.Node) { nn := n.(*expr.Array) p.printMeta(nn, meta.NodeStart) p.printMeta(nn, meta.ArrayToken) io.WriteString(p.w, "array") p.printMeta(nn, meta.OpenParenthesisToken) io.WriteString(p.w, "(") p.joinPrint(",", nn.Items) p.printMeta(nn, meta.CloseParenthesisToken) io.WriteString(p.w, ")") p.printMeta(nn, meta.NodeEnd) } func (p *Printer) printExprBitwiseNot(n node.Node) { nn := n.(*expr.BitwiseNot) p.printMeta(nn, meta.NodeStart) p.printMeta(nn, meta.TildeToken) io.WriteString(p.w, "~") p.Print(nn.Expr) p.printMeta(nn, meta.NodeEnd) } func (p *Printer) printExprBooleanNot(n node.Node) { nn := n.(*expr.BooleanNot) p.printMeta(nn, meta.NodeStart) p.printMeta(nn, meta.ExclamationMarkToken) io.WriteString(p.w, "!") p.Print(nn.Expr) p.printMeta(nn, meta.NodeEnd) } func (p *Printer) printExprClassConstFetch(n node.Node) { nn := n.(*expr.ClassConstFetch) p.printMeta(nn, meta.NodeStart) p.Print(nn.Class) p.printMeta(nn, meta.PaamayimNekudotayimToken) io.WriteString(p.w, "::") p.Print(nn.ConstantName) p.printMeta(nn, meta.NodeEnd) } func (p *Printer) printExprClone(n node.Node) { nn := n.(*expr.Clone) p.printMeta(nn, meta.NodeStart) p.printMeta(nn, meta.CloneToken) io.WriteString(p.w, "clone") p.Print(nn.Expr) p.printMeta(nn, meta.NodeEnd) } func (p *Printer) printExprClosureUse(n node.Node) { nn := n.(*expr.ClosureUse) p.printMeta(nn, meta.NodeStart) p.printMeta(nn, meta.UseToken) io.WriteString(p.w, "use") p.printMeta(nn, meta.OpenParenthesisToken) io.WriteString(p.w, "(") p.joinPrint(",", nn.Uses) p.printMeta(nn, meta.CloseParenthesisToken) io.WriteString(p.w, ")") p.printMeta(nn, meta.NodeEnd) } func (p *Printer) printExprClosure(n node.Node) { nn := n.(*expr.Closure) p.printMeta(nn, meta.NodeStart) if nn.Static { p.printMeta(nn, meta.StaticToken) io.WriteString(p.w, "static") } p.printMeta(nn, meta.FunctionToken) io.WriteString(p.w, "function") if nn.ReturnsRef { p.printMeta(nn, meta.AmpersandToken) io.WriteString(p.w, "&") } p.printMeta(nn, meta.OpenParenthesisToken) io.WriteString(p.w, "(") p.joinPrint(",", nn.Params) p.printMeta(nn, meta.CloseParenthesisToken) io.WriteString(p.w, ")") if nn.ClosureUse != nil { p.Print(nn.ClosureUse) } if nn.ReturnType != nil { p.printMeta(nn.ReturnType, meta.ColonToken) io.WriteString(p.w, ":") p.Print(nn.ReturnType) } p.printMeta(nn, meta.OpenCurlyBracesToken) io.WriteString(p.w, "{") p.printNodes(nn.Stmts) p.printMeta(nn, meta.CloseCurlyBracesToken) io.WriteString(p.w, "}") p.printMeta(nn, meta.NodeEnd) } func (p *Printer) printExprConstFetch(n node.Node) { nn := n.(*expr.ConstFetch) p.printMeta(nn, meta.NodeStart) p.Print(nn.Constant) p.printMeta(nn, meta.NodeEnd) } func (p *Printer) printExprEmpty(n node.Node) { nn := n.(*expr.Empty) p.printMeta(nn, meta.NodeStart) p.printMeta(nn, meta.EmptyToken) io.WriteString(p.w, "empty") p.printMeta(nn, meta.OpenParenthesisToken) io.WriteString(p.w, "(") p.Print(nn.Expr) p.printMeta(nn, meta.CloseParenthesisToken) io.WriteString(p.w, ")") p.printMeta(nn, meta.NodeEnd) } func (p *Printer) printExprErrorSuppress(n node.Node) { nn := n.(*expr.ErrorSuppress) p.printMeta(nn, meta.NodeStart) p.printMeta(nn, meta.AtToken) io.WriteString(p.w, "@") p.Print(nn.Expr) p.printMeta(nn, meta.NodeEnd) } func (p *Printer) printExprEval(n node.Node) { nn := n.(*expr.Eval) p.printMeta(nn, meta.NodeStart) p.printMeta(nn, meta.EvalToken) io.WriteString(p.w, "eval") p.printMeta(nn, meta.OpenParenthesisToken) io.WriteString(p.w, "(") p.Print(nn.Expr) p.printMeta(nn, meta.CloseParenthesisToken) io.WriteString(p.w, ")") p.printMeta(nn, meta.NodeEnd) } func (p *Printer) printExprExit(n node.Node) { nn := n.(*expr.Exit) p.printMeta(nn, meta.NodeStart) p.printMeta(nn, meta.ExitToken) if nn.Die { io.WriteString(p.w, "die") } else { io.WriteString(p.w, "exit") } p.printMeta(nn, meta.OpenParenthesisToken) p.Print(nn.Expr) p.printMeta(nn, meta.CloseParenthesisToken) p.printMeta(nn, meta.NodeEnd) } func (p *Printer) printExprFunctionCall(n node.Node) { nn := n.(*expr.FunctionCall) p.printMeta(nn, meta.NodeStart) p.Print(nn.Function) p.printMeta(nn.ArgumentList, meta.OpenParenthesisToken) io.WriteString(p.w, "(") p.joinPrint(",", nn.ArgumentList.Arguments) p.printMeta(nn.ArgumentList, meta.CommaToken) p.printMeta(nn.ArgumentList, meta.CloseParenthesisToken) io.WriteString(p.w, ")") p.printMeta(nn, meta.NodeEnd) } func (p *Printer) printExprInclude(n node.Node) { nn := n.(*expr.Include) p.printMeta(nn, meta.NodeStart) p.printMeta(nn, meta.IncludeToken) io.WriteString(p.w, "include") p.Print(nn.Expr) p.printMeta(nn, meta.NodeEnd) } func (p *Printer) printExprIncludeOnce(n node.Node) { nn := n.(*expr.IncludeOnce) p.printMeta(nn, meta.NodeStart) p.printMeta(nn, meta.IncludeOnceToken) io.WriteString(p.w, "include_once") p.Print(nn.Expr) p.printMeta(nn, meta.NodeEnd) } func (p *Printer) printExprInstanceOf(n node.Node) { nn := n.(*expr.InstanceOf) p.printMeta(nn, meta.NodeStart) p.Print(nn.Expr) p.printMeta(nn, meta.InstanceofToken) io.WriteString(p.w, "instanceof") p.Print(nn.Class) p.printMeta(nn, meta.NodeEnd) } func (p *Printer) printExprIsset(n node.Node) { nn := n.(*expr.Isset) p.printMeta(nn, meta.NodeStart) p.printMeta(nn, meta.IssetToken) io.WriteString(p.w, "isset") p.printMeta(nn, meta.OpenParenthesisToken) io.WriteString(p.w, "(") p.joinPrint(",", nn.Variables) p.printMeta(nn, meta.CommaToken) p.printMeta(nn, meta.CloseParenthesisToken) io.WriteString(p.w, ")") p.printMeta(nn, meta.NodeEnd) } func (p *Printer) printExprList(n node.Node) { nn := n.(*expr.List) p.printMeta(nn, meta.NodeStart) p.printMeta(nn, meta.ListToken) io.WriteString(p.w, "list") p.printMeta(nn, meta.OpenParenthesisToken) io.WriteString(p.w, "(") p.joinPrint(",", nn.Items) p.printMeta(nn, meta.CloseParenthesisToken) io.WriteString(p.w, ")") p.printMeta(nn, meta.NodeEnd) } func (p *Printer) printExprMethodCall(n node.Node) { nn := n.(*expr.MethodCall) p.printMeta(nn, meta.NodeStart) p.Print(nn.Variable) p.printMeta(nn, meta.ObjectOperatorToken) io.WriteString(p.w, "->") p.Print(nn.Method) p.printMeta(nn.ArgumentList, meta.OpenParenthesisToken) io.WriteString(p.w, "(") p.joinPrint(",", nn.ArgumentList.Arguments) p.printMeta(nn.ArgumentList, meta.CommaToken) p.printMeta(nn.ArgumentList, meta.CloseParenthesisToken) io.WriteString(p.w, ")") p.printMeta(nn, meta.NodeEnd) } func (p *Printer) printExprNew(n node.Node) { nn := n.(*expr.New) p.printMeta(nn, meta.NodeStart) p.printMeta(nn, meta.NewAnchor) io.WriteString(p.w, "new") p.Print(nn.Class) if nn.ArgumentList != nil { p.printMeta(nn.ArgumentList, meta.OpenParenthesisToken) io.WriteString(p.w, "(") p.joinPrint(",", nn.ArgumentList.Arguments) p.printMeta(nn.ArgumentList, meta.CommaToken) p.printMeta(nn.ArgumentList, meta.CloseParenthesisToken) io.WriteString(p.w, ")") } p.printMeta(nn, meta.NodeEnd) } func (p *Printer) printExprPostDec(n node.Node) { nn := n.(*expr.PostDec) p.printMeta(nn, meta.NodeStart) p.Print(nn.Variable) p.printMeta(nn, meta.DecToken) io.WriteString(p.w, "--") p.printMeta(nn, meta.NodeEnd) } func (p *Printer) printExprPostInc(n node.Node) { nn := n.(*expr.PostInc) p.printMeta(nn, meta.NodeStart) p.Print(nn.Variable) p.printMeta(nn, meta.IncToken) io.WriteString(p.w, "++") p.printMeta(nn, meta.NodeEnd) } func (p *Printer) printExprPreDec(n node.Node) { nn := n.(*expr.PreDec) p.printMeta(nn, meta.NodeStart) p.printMeta(nn, meta.DecToken) io.WriteString(p.w, "--") p.Print(nn.Variable) p.printMeta(nn, meta.NodeEnd) } func (p *Printer) printExprPreInc(n node.Node) { nn := n.(*expr.PreInc) p.printMeta(nn, meta.NodeStart) p.printMeta(nn, meta.IncToken) io.WriteString(p.w, "++") p.Print(nn.Variable) p.printMeta(nn, meta.NodeEnd) } func (p *Printer) printExprPrint(n node.Node) { nn := n.(*expr.Print) p.printMeta(nn, meta.NodeStart) p.printMeta(nn, meta.PrintToken) io.WriteString(p.w, "print") p.Print(nn.Expr) p.printMeta(nn, meta.NodeEnd) } func (p *Printer) printExprPropertyFetch(n node.Node) { nn := n.(*expr.PropertyFetch) p.printMeta(nn, meta.NodeStart) p.Print(nn.Variable) p.printMeta(nn, meta.ObjectOperatorToken) io.WriteString(p.w, "->") p.Print(nn.Property) p.printMeta(nn, meta.NodeEnd) } func (p *Printer) printExprReference(n node.Node) { nn := n.(*expr.Reference) p.printMeta(nn, meta.NodeStart) p.printMeta(nn, meta.AmpersandToken) io.WriteString(p.w, "&") p.Print(nn.Variable) p.printMeta(nn, meta.NodeEnd) } func (p *Printer) printExprRequire(n node.Node) { nn := n.(*expr.Require) p.printMeta(nn, meta.NodeStart) p.printMeta(nn, meta.RequireToken) io.WriteString(p.w, "require") p.Print(nn.Expr) p.printMeta(nn, meta.NodeEnd) } func (p *Printer) printExprRequireOnce(n node.Node) { nn := n.(*expr.RequireOnce) p.printMeta(nn, meta.NodeStart) p.printMeta(nn, meta.RequireOnceToken) io.WriteString(p.w, "require_once") p.Print(nn.Expr) p.printMeta(nn, meta.NodeEnd) } func (p *Printer) printExprShellExec(n node.Node) { nn := n.(*expr.ShellExec) p.printMeta(nn, meta.NodeStart) p.printMeta(nn, meta.BackquoteToken) io.WriteString(p.w, "`") for _, part := range nn.Parts { p.Print(part) } io.WriteString(p.w, "`") p.printMeta(nn, meta.NodeEnd) } func (p *Printer) printExprShortArray(n node.Node) { nn := n.(*expr.ShortArray) p.printMeta(nn, meta.NodeStart) p.printMeta(nn, meta.OpenSquareBracket) io.WriteString(p.w, "[") p.joinPrint(",", nn.Items) p.printMeta(nn, meta.CloseSquareBracket) io.WriteString(p.w, "]") p.printMeta(nn, meta.NodeEnd) } func (p *Printer) printExprShortList(n node.Node) { nn := n.(*expr.ShortList) p.printMeta(nn, meta.NodeStart) p.printMeta(nn, meta.OpenSquareBracket) io.WriteString(p.w, "[") p.joinPrint(",", nn.Items) p.printMeta(nn, meta.CloseSquareBracket) io.WriteString(p.w, "]") p.printMeta(nn, meta.NodeEnd) } func (p *Printer) printExprStaticCall(n node.Node) { nn := n.(*expr.StaticCall) p.printMeta(nn, meta.NodeStart) p.Print(nn.Class) p.printMeta(nn, meta.PaamayimNekudotayimToken) io.WriteString(p.w, "::") p.Print(nn.Call) p.printMeta(nn.ArgumentList, meta.OpenParenthesisToken) io.WriteString(p.w, "(") p.joinPrint(",", nn.ArgumentList.Arguments) p.printMeta(nn.ArgumentList, meta.CommaToken) p.printMeta(nn.ArgumentList, meta.CloseParenthesisToken) io.WriteString(p.w, ")") p.printMeta(nn, meta.NodeEnd) } func (p *Printer) printExprStaticPropertyFetch(n node.Node) { nn := n.(*expr.StaticPropertyFetch) p.printMeta(nn, meta.NodeStart) p.Print(nn.Class) p.printMeta(nn, meta.PaamayimNekudotayimToken) io.WriteString(p.w, "::") p.Print(nn.Property) p.printMeta(nn, meta.NodeEnd) } func (p *Printer) printExprTernary(n node.Node) { nn := n.(*expr.Ternary) p.printMeta(nn, meta.NodeStart) p.Print(nn.Condition) p.printMeta(nn, meta.QuestionMarkToken) io.WriteString(p.w, "?") if nn.IfTrue != nil { p.Print(nn.IfTrue) } p.printMeta(nn, meta.ColonToken) io.WriteString(p.w, ":") p.Print(nn.IfFalse) p.printMeta(nn, meta.NodeEnd) } func (p *Printer) printExprUnaryMinus(n node.Node) { nn := n.(*expr.UnaryMinus) p.printMeta(nn, meta.NodeStart) p.printMeta(nn, meta.MinusToken) io.WriteString(p.w, "-") p.Print(nn.Expr) p.printMeta(nn, meta.NodeEnd) } func (p *Printer) printExprUnaryPlus(n node.Node) { nn := n.(*expr.UnaryPlus) p.printMeta(nn, meta.NodeStart) p.printMeta(nn, meta.PlusToken) io.WriteString(p.w, "+") p.Print(nn.Expr) p.printMeta(nn, meta.NodeEnd) } func (p *Printer) printExprVariable(n node.Node) { nn := n.(*expr.Variable) p.printMeta(nn, meta.NodeStart) p.Print(nn.VarName) p.printMeta(nn, meta.NodeEnd) } func (p *Printer) printExprYieldFrom(n node.Node) { nn := n.(*expr.YieldFrom) p.printMeta(nn, meta.NodeStart) p.printMeta(nn, meta.YieldFromToken) io.WriteString(p.w, "yield from") p.Print(nn.Expr) p.printMeta(nn, meta.NodeEnd) } func (p *Printer) printExprYield(n node.Node) { nn := n.(*expr.Yield) p.printMeta(nn, meta.NodeStart) p.printMeta(nn, meta.YieldToken) io.WriteString(p.w, "yield") if nn.Key != nil { p.Print(nn.Key) p.printMeta(nn, meta.DoubleArrowToken) io.WriteString(p.w, "=>") } p.Print(nn.Value) p.printMeta(nn, meta.NodeEnd) } // smtm func (p *Printer) printStmtAltElseIf(n node.Node) { nn := n.(*stmt.AltElseIf) p.printMeta(nn, meta.NodeStart) p.printMeta(nn, meta.ElseifToken) io.WriteString(p.w, "elseif") p.printMeta(nn, meta.OpenParenthesisToken) io.WriteString(p.w, "(") p.Print(nn.Cond) p.printMeta(nn, meta.CloseParenthesisToken) io.WriteString(p.w, ")") p.printMeta(nn, meta.ColonToken) io.WriteString(p.w, ":") if s := nn.Stmt.(*stmt.StmtList).Stmts; len(s) > 0 { p.printNodes(s) } p.printMeta(nn, meta.NodeEnd) } func (p *Printer) printStmtAltElse(n node.Node) { nn := n.(*stmt.AltElse) p.printMeta(nn, meta.NodeStart) p.printMeta(nn, meta.ElseToken) io.WriteString(p.w, "else") p.printMeta(nn, meta.ColonToken) io.WriteString(p.w, ":") if s := nn.Stmt.(*stmt.StmtList).Stmts; len(s) > 0 { p.printNodes(s) } p.printMeta(nn, meta.NodeEnd) } func (p *Printer) printStmtAltFor(n node.Node) { nn := n.(*stmt.AltFor) p.printMeta(nn, meta.NodeStart) p.printMeta(nn, meta.ForToken) io.WriteString(p.w, "for") p.printMeta(nn, meta.OpenParenthesisToken) io.WriteString(p.w, "(") p.joinPrint(",", nn.Init) p.printMeta(nn, meta.ForInitSemicolonToken) io.WriteString(p.w, ";") p.joinPrint(",", nn.Cond) p.printMeta(nn, meta.ForCondSemicolonToken) io.WriteString(p.w, ";") p.joinPrint(",", nn.Loop) p.printMeta(nn, meta.CloseParenthesisToken) io.WriteString(p.w, ")") p.printMeta(nn, meta.ColonToken) io.WriteString(p.w, ":") s := nn.Stmt.(*stmt.StmtList) p.printNodes(s.Stmts) p.printMeta(nn, meta.EndforToken) io.WriteString(p.w, "endfor") p.printMeta(nn, meta.SemiColonToken) p.printMeta(nn, meta.NodeEnd) } func (p *Printer) printStmtAltForeach(n node.Node) { nn := n.(*stmt.AltForeach) p.printMeta(nn, meta.NodeStart) p.printMeta(nn, meta.ForeachToken) io.WriteString(p.w, "foreach") p.printMeta(nn, meta.OpenParenthesisToken) io.WriteString(p.w, "(") p.Print(nn.Expr) p.printMeta(nn, meta.AsToken) io.WriteString(p.w, "as") if nn.Key != nil { p.Print(nn.Key) p.printMeta(nn, meta.DoubleArrowToken) io.WriteString(p.w, "=>") } p.Print(nn.Variable) p.printMeta(nn, meta.CloseParenthesisToken) io.WriteString(p.w, ")") p.printMeta(nn, meta.ColonToken) io.WriteString(p.w, ":") s := nn.Stmt.(*stmt.StmtList) p.printNodes(s.Stmts) p.printMeta(nn, meta.EndforeachToken) io.WriteString(p.w, "endforeach") p.printMeta(nn, meta.SemiColonToken) p.printMeta(nn, meta.NodeEnd) } func (p *Printer) printStmtAltIf(n node.Node) { nn := n.(*stmt.AltIf) p.printMeta(nn, meta.NodeStart) p.printMeta(nn, meta.IfToken) io.WriteString(p.w, "if") p.printMeta(nn, meta.OpenParenthesisToken) io.WriteString(p.w, "(") p.Print(nn.Cond) p.printMeta(nn, meta.CloseParenthesisToken) io.WriteString(p.w, ")") p.printMeta(nn, meta.ColonToken) io.WriteString(p.w, ":") s := nn.Stmt.(*stmt.StmtList) p.printNodes(s.Stmts) for _, elseif := range nn.ElseIf { p.Print(elseif) } if nn.Else != nil { p.Print(nn.Else) } p.printMeta(nn, meta.EndifToken) io.WriteString(p.w, "endif") p.printMeta(nn, meta.SemiColonToken) p.printMeta(nn, meta.NodeEnd) } func (p *Printer) printStmtAltSwitch(n node.Node) { nn := n.(*stmt.AltSwitch) p.printMeta(nn, meta.NodeStart) p.printMeta(nn, meta.SwitchToken) io.WriteString(p.w, "switch") p.printMeta(nn, meta.OpenParenthesisToken) io.WriteString(p.w, "(") p.Print(nn.Cond) p.printMeta(nn, meta.CloseParenthesisToken) io.WriteString(p.w, ")") p.printMeta(nn, meta.ColonToken) io.WriteString(p.w, ":") p.printMeta(nn.CaseList, meta.CaseSeparatorToken) s := nn.CaseList.Cases p.printNodes(s) p.printMeta(nn, meta.EndswitchToken) io.WriteString(p.w, "endswitch") p.printMeta(nn, meta.SemiColonToken) p.printMeta(nn, meta.NodeEnd) } func (p *Printer) printStmtAltWhile(n node.Node) { nn := n.(*stmt.AltWhile) p.printMeta(nn, meta.NodeStart) p.printMeta(nn, meta.WhileToken) io.WriteString(p.w, "while") p.printMeta(nn, meta.OpenParenthesisToken) io.WriteString(p.w, "(") p.Print(nn.Cond) p.printMeta(nn, meta.CloseParenthesisToken) io.WriteString(p.w, ")") p.printMeta(nn, meta.ColonToken) io.WriteString(p.w, ":") s := nn.Stmt.(*stmt.StmtList) p.printNodes(s.Stmts) p.printMeta(nn, meta.EndwhileToken) io.WriteString(p.w, "endwhile") p.printMeta(nn, meta.SemiColonToken) p.printMeta(nn, meta.NodeEnd) } func (p *Printer) printStmtBreak(n node.Node) { nn := n.(*stmt.Break) p.printMeta(nn, meta.NodeStart) p.printMeta(nn, meta.BreakToken) io.WriteString(p.w, "break") if nn.Expr != nil { p.Print(nn.Expr) } p.printMeta(nn, meta.SemiColonToken) p.printMeta(nn, meta.NodeEnd) } func (p *Printer) printStmtCase(n node.Node) { nn := n.(*stmt.Case) p.printMeta(nn, meta.NodeStart) p.printMeta(nn, meta.CaseToken) io.WriteString(p.w, "case") p.Print(nn.Cond) r := p.printMeta(nn, meta.CaseSeparatorToken) if !r { io.WriteString(p.w, ":") } if len(nn.Stmts) > 0 { p.printNodes(nn.Stmts) } p.printMeta(nn, meta.NodeEnd) } func (p *Printer) printStmtCatch(n node.Node) { nn := n.(*stmt.Catch) p.printMeta(nn, meta.NodeStart) p.printMeta(nn, meta.CatchToken) io.WriteString(p.w, "catch") p.printMeta(nn, meta.OpenParenthesisToken) io.WriteString(p.w, "(") p.joinPrint("|", nn.Types) p.Print(nn.Variable) p.printMeta(nn, meta.CloseParenthesisToken) io.WriteString(p.w, ")") p.printMeta(nn, meta.OpenCurlyBracesToken) io.WriteString(p.w, "{") p.printNodes(nn.Stmts) p.printMeta(nn, meta.CloseCurlyBracesToken) io.WriteString(p.w, "}") p.printMeta(nn, meta.NodeEnd) } func (p *Printer) printStmtClassMethod(n node.Node) { nn := n.(*stmt.ClassMethod) p.printMeta(nn, meta.NodeStart) if nn.Modifiers != nil { p.joinPrint("", nn.Modifiers) } p.printMeta(nn, meta.FunctionToken) io.WriteString(p.w, "function") if nn.ReturnsRef { p.printMeta(nn, meta.AmpersandToken) io.WriteString(p.w, "&") } p.Print(nn.MethodName) p.printMeta(nn, meta.OpenParenthesisToken) io.WriteString(p.w, "(") p.joinPrint(",", nn.Params) p.printMeta(nn, meta.CloseParenthesisToken) io.WriteString(p.w, ")") if nn.ReturnType != nil { p.printMeta(nn.ReturnType, meta.ColonToken) io.WriteString(p.w, ":") p.Print(nn.ReturnType) } p.Print(nn.Stmt) p.printMeta(nn, meta.NodeEnd) } func (p *Printer) printStmtClass(n node.Node) { nn := n.(*stmt.Class) p.printMeta(nn, meta.NodeStart) if nn.Modifiers != nil { p.joinPrint("", nn.Modifiers) } p.printMeta(nn, meta.ClassToken) io.WriteString(p.w, "class") if nn.ClassName != nil { p.Print(nn.ClassName) } if nn.ArgumentList != nil { p.printMeta(nn.ArgumentList, meta.OpenParenthesisToken) io.WriteString(p.w, "(") p.joinPrint(",", nn.ArgumentList.Arguments) p.printMeta(nn.ArgumentList, meta.CommaToken) p.printMeta(nn.ArgumentList, meta.CloseParenthesisToken) io.WriteString(p.w, ")") } if nn.Extends != nil { p.printMeta(nn.Extends, meta.NodeStart) p.printMeta(nn.Extends, meta.ExtendsToken) io.WriteString(p.w, "extends") p.Print(nn.Extends.ClassName) } if nn.Implements != nil { p.printMeta(nn.Implements, meta.NodeStart) p.printMeta(nn.Implements, meta.ImplementsToken) io.WriteString(p.w, "implements") p.joinPrint(",", nn.Implements.InterfaceNames) } p.printMeta(nn, meta.OpenCurlyBracesToken) io.WriteString(p.w, "{") p.printNodes(nn.Stmts) p.printMeta(nn, meta.CloseCurlyBracesToken) io.WriteString(p.w, "}") p.printMeta(nn, meta.NodeEnd) } func (p *Printer) printStmtClassConstList(n node.Node) { nn := n.(*stmt.ClassConstList) p.printMeta(nn, meta.NodeStart) if nn.Modifiers != nil { p.joinPrint("", nn.Modifiers) } p.printMeta(nn, meta.ConstToken) io.WriteString(p.w, "const") p.joinPrint(",", nn.Consts) p.printMeta(nn, meta.SemiColonToken) p.printMeta(nn, meta.NodeEnd) } func (p *Printer) printStmtConstList(n node.Node) { nn := n.(*stmt.ConstList) p.printMeta(nn, meta.NodeStart) p.printMeta(nn, meta.ConstToken) io.WriteString(p.w, "const") p.joinPrint(",", nn.Consts) p.printMeta(nn, meta.SemiColonToken) p.printMeta(nn, meta.NodeEnd) } func (p *Printer) printStmtConstant(n node.Node) { nn := n.(*stmt.Constant) p.printMeta(nn, meta.NodeStart) p.Print(nn.ConstantName) p.printMeta(nn, meta.EqualToken) io.WriteString(p.w, "=") p.Print(nn.Expr) p.printMeta(nn, meta.NodeEnd) } func (p *Printer) printStmtContinue(n node.Node) { nn := n.(*stmt.Continue) p.printMeta(nn, meta.NodeStart) p.printMeta(nn, meta.ContinueToken) io.WriteString(p.w, "continue") if nn.Expr != nil { p.Print(nn.Expr) } p.printMeta(nn, meta.SemiColonToken) p.printMeta(nn, meta.NodeEnd) } func (p *Printer) printStmtDeclare(n node.Node) { nn := n.(*stmt.Declare) p.printMeta(nn, meta.NodeStart) p.printMeta(nn, meta.DeclareToken) io.WriteString(p.w, "declare") p.printMeta(nn, meta.OpenParenthesisToken) io.WriteString(p.w, "(") p.joinPrint(",", nn.Consts) p.printMeta(nn, meta.CloseParenthesisToken) io.WriteString(p.w, ")") if nn.Alt { p.printMeta(nn, meta.ColonToken) io.WriteString(p.w, ":") s := nn.Stmt.(*stmt.StmtList) p.printNodes(s.Stmts) p.printMeta(nn, meta.EnddeclareToken) io.WriteString(p.w, "enddeclare") p.printMeta(nn, meta.SemiColonToken) } else { p.Print(nn.Stmt) } p.printMeta(nn, meta.NodeEnd) } func (p *Printer) printStmtDefault(n node.Node) { nn := n.(*stmt.Default) p.printMeta(nn, meta.NodeStart) p.printMeta(nn, meta.DefaultToken) io.WriteString(p.w, "default") r := p.printMeta(nn, meta.CaseSeparatorToken) if !r { io.WriteString(p.w, ":") } if len(nn.Stmts) > 0 { p.printNodes(nn.Stmts) } p.printMeta(nn, meta.NodeEnd) } func (p *Printer) printStmtDo(n node.Node) { nn := n.(*stmt.Do) p.printMeta(nn, meta.NodeStart) p.printMeta(nn, meta.DoToken) io.WriteString(p.w, "do") p.Print(nn.Stmt) p.printMeta(nn, meta.WhileToken) io.WriteString(p.w, "while") p.printMeta(nn, meta.OpenParenthesisToken) io.WriteString(p.w, "(") p.Print(nn.Cond) p.printMeta(nn, meta.CloseParenthesisToken) io.WriteString(p.w, ")") p.printMeta(nn, meta.SemiColonToken) p.printMeta(nn, meta.NodeEnd) } func (p *Printer) printStmtEcho(n node.Node) { nn := n.(*stmt.Echo) p.printMeta(nn, meta.NodeStart) p.printMeta(nn, meta.EchoToken) p.joinPrint(",", nn.Exprs) p.printMeta(nn, meta.SemiColonToken) p.printMeta(nn, meta.NodeEnd) } func (p *Printer) printStmtElseif(n node.Node) { nn := n.(*stmt.ElseIf) p.printMeta(nn, meta.NodeStart) p.printMeta(nn, meta.ElseifToken) io.WriteString(p.w, "elseif") p.printMeta(nn, meta.OpenParenthesisToken) io.WriteString(p.w, "(") p.Print(nn.Cond) p.printMeta(nn, meta.CloseParenthesisToken) io.WriteString(p.w, ")") p.Print(nn.Stmt) p.printMeta(nn, meta.NodeEnd) } func (p *Printer) printStmtElse(n node.Node) { nn := n.(*stmt.Else) p.printMeta(nn, meta.NodeStart) p.printMeta(nn, meta.ElseToken) io.WriteString(p.w, "else") p.Print(nn.Stmt) p.printMeta(nn, meta.NodeEnd) } func (p *Printer) printStmtExpression(n node.Node) { nn := n.(*stmt.Expression) p.printMeta(nn, meta.NodeStart) p.Print(nn.Expr) p.printMeta(nn, meta.SemiColonToken) p.printMeta(nn, meta.NodeEnd) } func (p *Printer) printStmtFinally(n node.Node) { nn := n.(*stmt.Finally) p.printMeta(nn, meta.NodeStart) p.printMeta(nn, meta.FinallyToken) io.WriteString(p.w, "finally") p.printMeta(nn, meta.OpenCurlyBracesToken) io.WriteString(p.w, "{") p.printNodes(nn.Stmts) p.printMeta(nn, meta.CloseCurlyBracesToken) io.WriteString(p.w, "}") p.printMeta(nn, meta.NodeEnd) } func (p *Printer) printStmtFor(n node.Node) { nn := n.(*stmt.For) p.printMeta(nn, meta.NodeStart) p.printMeta(nn, meta.ForToken) io.WriteString(p.w, "for") p.printMeta(nn, meta.OpenParenthesisToken) io.WriteString(p.w, "(") p.joinPrint(",", nn.Init) p.printMeta(nn, meta.ForInitSemicolonToken) io.WriteString(p.w, ";") p.joinPrint(",", nn.Cond) p.printMeta(nn, meta.ForCondSemicolonToken) io.WriteString(p.w, ";") p.joinPrint(",", nn.Loop) p.printMeta(nn, meta.CloseParenthesisToken) io.WriteString(p.w, ")") p.Print(nn.Stmt) p.printMeta(nn, meta.NodeEnd) } func (p *Printer) printStmtForeach(n node.Node) { nn := n.(*stmt.Foreach) p.printMeta(nn, meta.NodeStart) p.printMeta(nn, meta.ForeachToken) io.WriteString(p.w, "foreach") p.printMeta(nn, meta.OpenParenthesisToken) io.WriteString(p.w, "(") p.Print(nn.Expr) p.printMeta(nn, meta.AsToken) io.WriteString(p.w, "as") if nn.Key != nil { p.Print(nn.Key) p.printMeta(nn, meta.DoubleArrowToken) io.WriteString(p.w, "=>") } p.Print(nn.Variable) p.printMeta(nn, meta.CloseParenthesisToken) io.WriteString(p.w, ")") p.Print(nn.Stmt) p.printMeta(nn, meta.NodeEnd) } func (p *Printer) printStmtFunction(n node.Node) { nn := n.(*stmt.Function) p.printMeta(nn, meta.NodeStart) p.printMeta(nn, meta.FunctionToken) io.WriteString(p.w, "function") if nn.ReturnsRef { p.printMeta(nn, meta.AmpersandToken) io.WriteString(p.w, "&") } p.Print(nn.FunctionName) p.printMeta(nn, meta.OpenParenthesisToken) io.WriteString(p.w, "(") p.joinPrint(",", nn.Params) p.printMeta(nn, meta.CloseParenthesisToken) io.WriteString(p.w, ")") if nn.ReturnType != nil { p.printMeta(nn.ReturnType, meta.ColonToken) io.WriteString(p.w, ":") p.Print(nn.ReturnType) } p.printMeta(nn, meta.OpenCurlyBracesToken) io.WriteString(p.w, "{") p.printNodes(nn.Stmts) p.printMeta(nn, meta.CloseCurlyBracesToken) io.WriteString(p.w, "}") p.printMeta(nn, meta.NodeEnd) } func (p *Printer) printStmtGlobal(n node.Node) { nn := n.(*stmt.Global) p.printMeta(nn, meta.NodeStart) p.printMeta(nn, meta.GlobalToken) io.WriteString(p.w, "global") p.joinPrint(",", nn.Vars) p.printMeta(nn, meta.SemiColonToken) p.printMeta(nn, meta.NodeEnd) } func (p *Printer) printStmtGoto(n node.Node) { nn := n.(*stmt.Goto) p.printMeta(nn, meta.NodeStart) p.printMeta(nn, meta.GotoToken) io.WriteString(p.w, "goto") p.Print(nn.Label) p.printMeta(nn, meta.SemiColonToken) p.printMeta(nn, meta.NodeEnd) } func (p *Printer) printStmtGroupUse(n node.Node) { nn := n.(*stmt.GroupUse) p.printMeta(nn, meta.NodeStart) p.printMeta(nn, meta.UseToken) io.WriteString(p.w, "use") if nn.UseType != nil { p.Print(nn.UseType) } p.printMeta(nn, meta.UseLeadingNsSeparatorToken) p.Print(nn.Prefix) p.printMeta(nn, meta.NsSeparatorToken) io.WriteString(p.w, "\\") p.printMeta(nn, meta.OpenCurlyBracesToken) io.WriteString(p.w, "{") p.joinPrint(",", nn.UseList) p.printMeta(nn, meta.CommaToken) p.printMeta(nn, meta.CloseCurlyBracesToken) io.WriteString(p.w, "}") p.printMeta(nn, meta.SemiColonToken) p.printMeta(nn, meta.NodeEnd) } func (p *Printer) printStmtHaltCompiler(n node.Node) { nn := n.(*stmt.HaltCompiler) p.printMeta(nn, meta.NodeStart) p.printMeta(n, meta.HaltCompilerToken) io.WriteString(p.w, "__halt_compiler") p.printMeta(n, meta.OpenParenthesisToken) io.WriteString(p.w, "(") p.printMeta(n, meta.CloseParenthesisToken) io.WriteString(p.w, ")") p.printMeta(n, meta.SemiColonToken) p.printMeta(nn, meta.NodeEnd) } func (p *Printer) printStmtIf(n node.Node) { nn := n.(*stmt.If) p.printMeta(nn, meta.NodeStart) p.printMeta(n, meta.IfToken) io.WriteString(p.w, "if") p.printMeta(n, meta.OpenParenthesisToken) io.WriteString(p.w, "(") p.Print(nn.Cond) p.printMeta(n, meta.CloseParenthesisToken) io.WriteString(p.w, ")") p.Print(nn.Stmt) if nn.ElseIf != nil { p.printNodes(nn.ElseIf) } if nn.Else != nil { p.Print(nn.Else) } p.printMeta(nn, meta.NodeEnd) } func (p *Printer) printStmtInlineHTML(n node.Node) { nn := n.(*stmt.InlineHtml) p.printMeta(nn, meta.NodeStart) p.printMeta(n, meta.InlineHTMLToken) // io.WriteString(p.w, "?>") io.WriteString(p.w, nn.Value) // io.WriteString(p.w, "