php-parser/pkg/visitor/formatter/formatter.go

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package formatter
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import (
"bytes"
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"git.maride.cc/maride/php-parser/pkg/ast"
"git.maride.cc/maride/php-parser/pkg/token"
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)
type formatterState int
const (
FormatterStateHTML formatterState = iota
FormatterStatePHP
)
type formatter struct {
state formatterState
indent int
freeFloating []*token.Token
lastSemiColon *token.Token
}
// NewFormatter returns a new formatter. This formatter is not great, it can not be customized,
// but most importantly, loses a lot of doc comments and regular comments, so don't use on code
// that wants to keep all comments in tact.
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func NewFormatter() *formatter {
return &formatter{}
}
func (f *formatter) WithState(state formatterState) *formatter {
f.state = state
return f
}
func (f *formatter) WithIndent(indent int) *formatter {
f.indent = indent
return f
}
func (f *formatter) addFreeFloating(id token.ID, val []byte) {
f.freeFloating = append(f.freeFloating, &token.Token{
ID: id,
Value: val,
})
}
func (f *formatter) addIndent() {
if f.indent < 1 {
return
}
f.freeFloating = append(f.freeFloating, &token.Token{
ID: token.T_WHITESPACE,
Value: bytes.Repeat([]byte(" "), f.indent),
})
}
func (f *formatter) resetFreeFloating() {
f.freeFloating = nil
}
func (f *formatter) getFreeFloating() []*token.Token {
defer f.resetFreeFloating()
if f.state == FormatterStateHTML {
t := &token.Token{
ID: token.T_OPEN_TAG,
Value: []byte("<?php "),
}
f.freeFloating = append([]*token.Token{t}, f.freeFloating...)
f.state = FormatterStatePHP
}
return f.freeFloating
}
func (f *formatter) newToken(id token.ID, val []byte) *token.Token {
return &token.Token{
ID: id,
Value: val,
FreeFloating: f.getFreeFloating(),
}
}
func (f *formatter) formatList(nodes []ast.Vertex, separator byte) []*token.Token {
if len(nodes) == 0 {
return nil
}
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separatorTkns := make([]*token.Token, len(nodes)-1)
for i, v := range nodes {
v.Accept(f)
if i != len(nodes)-1 {
separatorTkns[i] = f.newToken(token.ID(separator), []byte{separator})
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
}
}
return separatorTkns
}
func (f *formatter) formatStmts(list *[]ast.Vertex) {
var insertCounter int
for i, stmt := range *list {
f.lastSemiColon = nil
if _, ok := stmt.(*ast.StmtInlineHtml); ok {
if f.lastSemiColon != nil {
f.lastSemiColon.Value = append(f.lastSemiColon.Value, '?', '>')
} else {
*list = insert(*list, i+insertCounter, &ast.StmtNop{
SemiColonTkn: &token.Token{
Value: []byte("?>"),
},
})
insertCounter++
}
} else {
f.addFreeFloating(token.T_WHITESPACE, []byte("\n"))
f.addIndent()
}
stmt.Accept(f)
}
}
func (f *formatter) newSemicolonTkn() *token.Token {
f.lastSemiColon = f.newToken(';', []byte(";"))
return f.lastSemiColon
}
func insert(s []ast.Vertex, k int, vs ...ast.Vertex) []ast.Vertex {
if n := len(s) + len(vs); n <= cap(s) {
s2 := s[:n]
copy(s2[k+len(vs):], s[k:])
copy(s2[k:], vs)
return s2
}
s2 := make([]ast.Vertex, len(s)+len(vs))
copy(s2, s[:k])
copy(s2[k:], vs)
copy(s2[k+len(vs):], s[k:])
return s2
}
func (f *formatter) Root(n *ast.Root) {
f.addFreeFloating(token.T_WHITESPACE, []byte("\n"))
f.addIndent()
f.formatStmts(&n.Stmts)
}
func (f *formatter) Nullable(n *ast.Nullable) {
n.QuestionTkn = f.newToken('?', []byte("?"))
n.Expr.Accept(f)
}
func (f *formatter) Parameter(n *ast.Parameter) {
if n.AttrGroups != nil {
for _, group := range n.AttrGroups {
group.Accept(f)
}
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
}
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for _, modifier := range n.Modifiers {
modifier.Accept(f)
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
}
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if n.Type != nil {
n.Type.Accept(f)
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
}
if n.AmpersandTkn != nil {
n.AmpersandTkn = f.newToken('&', []byte("&"))
}
if n.VariadicTkn != nil {
n.VariadicTkn = f.newToken(token.T_ELLIPSIS, []byte("..."))
}
n.Var.Accept(f)
if n.DefaultValue != nil {
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
n.EqualTkn = f.newToken('=', []byte("="))
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
n.DefaultValue.Accept(f)
}
}
func (f *formatter) Identifier(n *ast.Identifier) {
if n.IdentifierTkn == nil {
n.IdentifierTkn = f.newToken(token.T_STRING, n.Value)
} else {
n.IdentifierTkn.FreeFloating = f.getFreeFloating()
}
}
func (f *formatter) Argument(n *ast.Argument) {
if n.Name != nil {
n.Name.Accept(f)
}
if n.ColonTkn != nil {
n.ColonTkn = f.newToken(':', []byte(":"))
}
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if n.VariadicTkn != nil {
n.VariadicTkn = f.newToken(token.T_ELLIPSIS, []byte("..."))
}
if n.AmpersandTkn != nil {
n.AmpersandTkn = f.newToken('&', []byte("&"))
}
n.Expr.Accept(f)
}
func (f *formatter) MatchArm(n *ast.MatchArm) {
if n.DefaultTkn != nil {
n.DefaultTkn = f.newToken(token.T_DEFAULT, []byte("default"))
}
if n.DefaultCommaTkn != nil {
n.DefaultCommaTkn = f.newToken(',', []byte(","))
}
n.SeparatorTkns = nil
if len(n.Exprs) > 0 {
n.SeparatorTkns = f.formatList(n.Exprs, ',')
}
n.DoubleArrowTkn = f.newToken(token.T_DOUBLE_ARROW, []byte("=>"))
}
func (f *formatter) Union(n *ast.Union) {
if len(n.Types) > 0 {
n.SeparatorTkns = f.formatList(n.Types, '|')
}
}
func (f *formatter) Intersection(n *ast.Intersection) {
if len(n.Types) > 0 {
n.SeparatorTkns = f.formatList(n.Types, '&')
}
}
func (f *formatter) Attribute(n *ast.Attribute) {
n.Name.Accept(f)
n.OpenParenthesisTkn = f.newToken('(', []byte("("))
n.SeparatorTkns = nil
if len(n.Args) > 0 {
n.SeparatorTkns = f.formatList(n.Args, ',')
}
n.CloseParenthesisTkn = f.newToken(')', []byte(")"))
}
func (f *formatter) AttributeGroup(n *ast.AttributeGroup) {
n.OpenAttributeTkn = f.newToken(token.T_ATTRIBUTE, []byte("#["))
n.SeparatorTkns = nil
if len(n.Attrs) > 0 {
n.SeparatorTkns = f.formatList(n.Attrs, ',')
}
n.CloseAttributeTkn = f.newToken(']', []byte("]"))
}
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func (f *formatter) StmtBreak(n *ast.StmtBreak) {
n.BreakTkn = f.newToken(token.T_BREAK, []byte("break"))
if n.Expr != nil {
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
n.Expr.Accept(f)
}
n.SemiColonTkn = f.newSemicolonTkn()
}
func (f *formatter) StmtCase(n *ast.StmtCase) {
n.CaseTkn = f.newToken(token.T_CASE, []byte("case"))
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
n.Cond.Accept(f)
n.CaseSeparatorTkn = f.newToken(':', []byte(":"))
f.indent++
f.formatStmts(&n.Stmts)
f.indent--
}
func (f *formatter) StmtCatch(n *ast.StmtCatch) {
n.CatchTkn = f.newToken(token.T_CATCH, []byte("catch"))
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
n.OpenParenthesisTkn = f.newToken('(', []byte("("))
n.SeparatorTkns = make([]*token.Token, len(n.Types)-1)
for i, t := range n.Types {
t.Accept(f)
if i != len(n.Types)-1 {
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
n.SeparatorTkns[i] = f.newToken('|', []byte("|"))
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
}
}
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
n.Var.Accept(f)
n.CloseParenthesisTkn = f.newToken(')', []byte(")"))
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
n.OpenCurlyBracketTkn = f.newToken('{', []byte("{"))
if len(n.Stmts) > 0 {
f.indent++
f.formatStmts(&n.Stmts)
f.indent--
f.addFreeFloating(token.T_WHITESPACE, []byte("\n"))
f.addIndent()
}
n.CloseCurlyBracketTkn = f.newToken('}', []byte("}"))
}
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func (f *formatter) StmtEnum(n *ast.StmtEnum) {
for _, m := range n.AttrGroups {
m.Accept(f)
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
}
n.EnumTkn = f.newToken(token.T_CLASS, []byte("enum"))
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
n.Name.Accept(f)
n.ColonTkn = f.newToken(':', []byte(":"))
n.Type.Accept(f)
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
if n.Implements != nil {
n.ImplementsTkn = f.newToken(token.T_IMPLEMENTS, []byte("implements"))
n.ImplementsSeparatorTkns = f.formatList(n.Implements, ',')
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
}
n.OpenCurlyBracketTkn = f.newToken('{', []byte("{"))
if len(n.Stmts) > 0 {
f.indent++
f.formatStmts(&n.Stmts)
f.indent--
f.addFreeFloating(token.T_WHITESPACE, []byte("\n"))
f.addIndent()
}
n.CloseCurlyBracketTkn = f.newToken('}', []byte("}"))
}
func (f *formatter) EnumCase(n *ast.EnumCase) {
for _, m := range n.AttrGroups {
m.Accept(f)
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
}
n.CaseTkn = f.newToken(token.T_CASE, []byte("case"))
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
n.Name.Accept(f)
n.EqualTkn = f.newToken('=', []byte("="))
n.Expr.Accept(f)
n.SemiColonTkn = f.newToken(';', []byte(";"))
}
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func (f *formatter) StmtClass(n *ast.StmtClass) {
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for _, m := range n.AttrGroups {
m.Accept(f)
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
}
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for _, m := range n.Modifiers {
m.Accept(f)
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
}
n.ClassTkn = f.newToken(token.T_CLASS, []byte("class"))
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
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n.Name.Accept(f)
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n.OpenParenthesisTkn = nil
n.CloseParenthesisTkn = nil
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if len(n.Args) > 0 {
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n.OpenParenthesisTkn = f.newToken('(', []byte("("))
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n.SeparatorTkns = f.formatList(n.Args, ',')
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n.CloseParenthesisTkn = f.newToken(')', []byte(")"))
}
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
if n.Extends != nil {
n.ExtendsTkn = f.newToken(token.T_EXTENDS, []byte("extends"))
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n.Extends.Accept(f)
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
}
if n.Implements != nil {
n.ImplementsTkn = f.newToken(token.T_IMPLEMENTS, []byte("implements"))
n.ImplementsSeparatorTkns = f.formatList(n.Implements, ',')
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f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
}
n.OpenCurlyBracketTkn = f.newToken('{', []byte("{"))
if len(n.Stmts) > 0 {
f.indent++
f.formatStmts(&n.Stmts)
f.indent--
f.addFreeFloating(token.T_WHITESPACE, []byte("\n"))
f.addIndent()
}
n.CloseCurlyBracketTkn = f.newToken('}', []byte("}"))
}
func (f *formatter) StmtClassConstList(n *ast.StmtClassConstList) {
for _, m := range n.AttrGroups {
m.Accept(f)
f.addFreeFloating(token.T_WHITESPACE, []byte("\n"))
}
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for _, m := range n.Modifiers {
m.Accept(f)
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
}
n.ConstTkn = f.newToken(token.T_CONST, []byte("const"))
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
n.SeparatorTkns = f.formatList(n.Consts, ',')
n.SemiColonTkn = f.newSemicolonTkn()
}
func (f *formatter) StmtClassMethod(n *ast.StmtClassMethod) {
for _, m := range n.Modifiers {
m.Accept(f)
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
}
n.FunctionTkn = f.newToken(token.T_FUNCTION, []byte("function"))
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
if n.AmpersandTkn != nil {
n.AmpersandTkn = f.newToken('&', []byte("&"))
}
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n.Name.Accept(f)
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n.OpenParenthesisTkn = f.newToken('(', []byte("("))
n.SeparatorTkns = nil
if len(n.Params) > 0 {
n.SeparatorTkns = f.formatList(n.Params, ',')
}
n.CloseParenthesisTkn = f.newToken(')', []byte(")"))
if n.ReturnType != nil {
n.ColonTkn = f.newToken(':', []byte(":"))
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
n.ReturnType.Accept(f)
}
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
n.Stmt.Accept(f)
}
func (f *formatter) StmtConstList(n *ast.StmtConstList) {
n.ConstTkn = f.newToken(token.T_CONST, []byte("const"))
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
n.SeparatorTkns = f.formatList(n.Consts, ',')
n.SemiColonTkn = f.newSemicolonTkn()
}
func (f *formatter) StmtConstant(n *ast.StmtConstant) {
n.Name.Accept(f)
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
n.EqualTkn = f.newToken('=', []byte("="))
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
n.Expr.Accept(f)
}
func (f *formatter) StmtContinue(n *ast.StmtContinue) {
n.ContinueTkn = f.newToken(token.T_CONTINUE, []byte("continue"))
if n.Expr != nil {
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
n.Expr.Accept(f)
}
n.SemiColonTkn = f.newSemicolonTkn()
}
func (f *formatter) StmtDeclare(n *ast.StmtDeclare) {
n.ColonTkn = nil
n.EndDeclareTkn = nil
n.SemiColonTkn = nil
n.DeclareTkn = f.newToken(token.T_DECLARE, []byte("declare"))
n.OpenParenthesisTkn = f.newToken('(', []byte("("))
n.SeparatorTkns = nil
if len(n.Consts) > 0 {
n.SeparatorTkns = f.formatList(n.Consts, ',')
}
n.CloseParenthesisTkn = f.newToken(')', []byte(")"))
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
n.Stmt.Accept(f)
}
func (f *formatter) StmtDefault(n *ast.StmtDefault) {
n.DefaultTkn = f.newToken(token.T_DEFAULT, []byte("default"))
n.CaseSeparatorTkn = f.newToken(':', []byte(":"))
f.indent++
f.formatStmts(&n.Stmts)
f.indent--
}
func (f *formatter) StmtDo(n *ast.StmtDo) {
n.DoTkn = f.newToken(token.T_DO, []byte("do"))
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
n.Stmt.Accept(f)
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
n.WhileTkn = f.newToken(token.T_WHILE, []byte("while"))
n.OpenParenthesisTkn = f.newToken('(', []byte("("))
n.Cond.Accept(f)
n.CloseParenthesisTkn = f.newToken(')', []byte(")"))
n.SemiColonTkn = f.newSemicolonTkn()
}
func (f *formatter) StmtEcho(n *ast.StmtEcho) {
n.EchoTkn = f.newToken(token.T_ECHO, []byte("echo"))
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
n.SeparatorTkns = nil
if len(n.Exprs) > 0 {
n.SeparatorTkns = f.formatList(n.Exprs, ',')
}
n.SemiColonTkn = f.newSemicolonTkn()
}
func (f *formatter) StmtElse(n *ast.StmtElse) {
n.ColonTkn = nil
n.ElseTkn = f.newToken(token.T_ELSE, []byte("else"))
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
n.Stmt.Accept(f)
}
func (f *formatter) StmtElseIf(n *ast.StmtElseIf) {
n.ColonTkn = nil
n.ElseIfTkn = f.newToken(token.T_ELSEIF, []byte("elseif"))
n.OpenParenthesisTkn = f.newToken('(', []byte("("))
n.Cond.Accept(f)
n.CloseParenthesisTkn = f.newToken(')', []byte(")"))
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
n.Stmt.Accept(f)
}
func (f *formatter) StmtExpression(n *ast.StmtExpression) {
n.Expr.Accept(f)
n.SemiColonTkn = f.newSemicolonTkn()
}
func (f *formatter) StmtFinally(n *ast.StmtFinally) {
n.FinallyTkn = f.newToken(token.T_FINALLY, []byte("finally"))
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
n.OpenCurlyBracketTkn = f.newToken('{', []byte("{"))
if len(n.Stmts) > 0 {
f.indent++
f.formatStmts(&n.Stmts)
f.indent--
f.addFreeFloating(token.T_WHITESPACE, []byte("\n"))
f.addIndent()
}
n.CloseCurlyBracketTkn = f.newToken('}', []byte("}"))
}
func (f *formatter) StmtFor(n *ast.StmtFor) {
n.ColonTkn = nil
n.EndForTkn = nil
n.SemiColonTkn = nil
n.ForTkn = f.newToken(token.T_FOR, []byte("for"))
n.OpenParenthesisTkn = f.newToken('(', []byte("("))
n.InitSeparatorTkns = nil
if len(n.Init) > 0 {
n.InitSeparatorTkns = f.formatList(n.Init, ',')
}
n.InitSemiColonTkn = f.newSemicolonTkn()
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
n.CondSeparatorTkns = nil
if len(n.Cond) > 0 {
n.CondSeparatorTkns = f.formatList(n.Cond, ',')
}
n.CondSemiColonTkn = f.newSemicolonTkn()
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
n.LoopSeparatorTkns = nil
if len(n.Loop) > 0 {
n.LoopSeparatorTkns = f.formatList(n.Loop, ',')
}
n.CloseParenthesisTkn = f.newToken(')', []byte(")"))
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
n.Stmt.Accept(f)
}
func (f *formatter) StmtForeach(n *ast.StmtForeach) {
n.ColonTkn = nil
n.EndForeachTkn = nil
n.SemiColonTkn = nil
n.ForeachTkn = f.newToken(token.T_FOREACH, []byte("foreach"))
n.OpenParenthesisTkn = f.newToken('(', []byte("("))
n.Expr.Accept(f)
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
n.AsTkn = f.newToken(token.T_AS, []byte("as"))
if n.Key != nil {
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
n.Key.Accept(f)
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
n.DoubleArrowTkn = f.newToken(token.T_DOUBLE_ARROW, []byte("=>"))
}
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
if n.AmpersandTkn != nil {
n.AmpersandTkn = f.newToken('&', []byte("&"))
}
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n.Var.Accept(f)
n.CloseParenthesisTkn = f.newToken(')', []byte(")"))
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
n.Stmt.Accept(f)
}
func (f *formatter) StmtFunction(n *ast.StmtFunction) {
n.FunctionTkn = f.newToken(token.T_FUNCTION, []byte("function"))
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
if n.AmpersandTkn != nil {
n.AmpersandTkn = f.newToken('&', []byte("&"))
}
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n.Name.Accept(f)
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n.OpenParenthesisTkn = f.newToken('(', []byte("("))
n.SeparatorTkns = nil
if len(n.Params) > 0 {
n.SeparatorTkns = f.formatList(n.Params, ',')
}
n.CloseParenthesisTkn = f.newToken(')', []byte(")"))
if n.ReturnType != nil {
n.ColonTkn = f.newToken(':', []byte(":"))
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
n.ReturnType.Accept(f)
}
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
n.OpenCurlyBracketTkn = f.newToken('{', []byte("{"))
if len(n.Stmts) > 0 {
f.indent++
f.formatStmts(&n.Stmts)
f.indent--
f.addFreeFloating(token.T_WHITESPACE, []byte("\n"))
f.addIndent()
}
n.CloseCurlyBracketTkn = f.newToken('}', []byte("}"))
}
func (f *formatter) StmtGlobal(n *ast.StmtGlobal) {
n.GlobalTkn = f.newToken(token.T_GLOBAL, []byte("global"))
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
n.SeparatorTkns = nil
if len(n.Vars) > 0 {
n.SeparatorTkns = f.formatList(n.Vars, ',')
}
n.SemiColonTkn = f.newSemicolonTkn()
}
func (f *formatter) StmtGoto(n *ast.StmtGoto) {
n.GotoTkn = f.newToken(token.T_GOTO, []byte("goto"))
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
n.Label.Accept(f)
n.SemiColonTkn = f.newSemicolonTkn()
}
func (f *formatter) StmtHaltCompiler(n *ast.StmtHaltCompiler) {
n.HaltCompilerTkn = f.newToken(token.T_HALT_COMPILER, []byte("__halt_compiler"))
n.OpenParenthesisTkn = f.newToken('(', []byte("("))
n.CloseParenthesisTkn = f.newToken(')', []byte(")"))
n.SemiColonTkn = f.newSemicolonTkn()
}
func (f *formatter) StmtIf(n *ast.StmtIf) {
n.ColonTkn = nil
n.EndIfTkn = nil
n.SemiColonTkn = nil
n.IfTkn = f.newToken(token.T_IF, []byte("if"))
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
n.OpenParenthesisTkn = f.newToken('(', []byte("("))
n.Cond.Accept(f)
n.CloseParenthesisTkn = f.newToken(')', []byte(")"))
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
n.Stmt.Accept(f)
if len(n.ElseIf) > 0 {
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
f.formatList(n.ElseIf, ' ')
}
if n.Else != nil {
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
n.Else.Accept(f)
}
}
func (f *formatter) StmtInlineHtml(n *ast.StmtInlineHtml) {
n.InlineHtmlTkn = f.newToken(token.T_STRING, n.Value)
f.state = FormatterStateHTML
}
func (f *formatter) StmtInterface(n *ast.StmtInterface) {
n.InterfaceTkn = f.newToken(token.T_INTERFACE, []byte("interface"))
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
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n.Name.Accept(f)
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f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
if n.Extends != nil {
n.ExtendsTkn = f.newToken(token.T_EXTENDS, []byte("extends"))
n.ExtendsSeparatorTkns = f.formatList(n.Extends, ',')
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f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
}
n.OpenCurlyBracketTkn = f.newToken('{', []byte("{"))
if len(n.Stmts) > 0 {
f.indent++
f.formatStmts(&n.Stmts)
f.indent--
f.addFreeFloating(token.T_WHITESPACE, []byte("\n"))
f.addIndent()
}
n.CloseCurlyBracketTkn = f.newToken('}', []byte("}"))
}
func (f *formatter) StmtLabel(n *ast.StmtLabel) {
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n.Name.Accept(f)
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n.ColonTkn = f.newToken(':', []byte(":"))
}
func (f *formatter) StmtNamespace(n *ast.StmtNamespace) {
n.OpenCurlyBracketTkn = nil
n.CloseCurlyBracketTkn = nil
n.SemiColonTkn = nil
n.NsTkn = f.newToken(token.T_NAMESPACE, []byte("namespace"))
if n.Name != nil {
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
n.Name.Accept(f)
}
if len(n.Stmts) > 0 {
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
n.OpenCurlyBracketTkn = f.newToken('{', []byte("{"))
if len(n.Stmts) > 0 {
f.indent++
f.formatStmts(&n.Stmts)
f.indent--
f.addFreeFloating(token.T_WHITESPACE, []byte("\n"))
f.addIndent()
}
n.CloseCurlyBracketTkn = f.newToken('}', []byte("}"))
} else {
n.SemiColonTkn = f.newSemicolonTkn()
}
}
func (f *formatter) StmtNop(n *ast.StmtNop) {
n.SemiColonTkn = f.newSemicolonTkn()
}
func (f *formatter) StmtProperty(n *ast.StmtProperty) {
n.Var.Accept(f)
if n.Expr != nil {
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
n.EqualTkn = f.newToken('=', []byte("="))
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
n.Expr.Accept(f)
}
}
func (f *formatter) StmtPropertyList(n *ast.StmtPropertyList) {
for _, m := range n.AttrGroups {
m.Accept(f)
f.addFreeFloating(token.T_WHITESPACE, []byte("\n"))
}
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for _, m := range n.Modifiers {
m.Accept(f)
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
}
if n.Type != nil {
n.Type.Accept(f)
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
}
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n.SeparatorTkns = f.formatList(n.Props, ',')
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n.SemiColonTkn = f.newSemicolonTkn()
}
func (f *formatter) StmtReturn(n *ast.StmtReturn) {
n.ReturnTkn = f.newToken(token.T_RETURN, []byte("return"))
if n.Expr != nil {
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
n.Expr.Accept(f)
}
n.SemiColonTkn = f.newSemicolonTkn()
}
func (f *formatter) StmtStatic(n *ast.StmtStatic) {
n.StaticTkn = f.newToken(token.T_STATIC, []byte("static"))
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
n.SeparatorTkns = nil
if len(n.Vars) > 0 {
n.SeparatorTkns = f.formatList(n.Vars, ',')
}
n.SemiColonTkn = f.newSemicolonTkn()
}
func (f *formatter) StmtStaticVar(n *ast.StmtStaticVar) {
n.Var.Accept(f)
if n.Expr != nil {
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
n.EqualTkn = f.newToken('=', []byte("="))
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
n.Expr.Accept(f)
}
}
func (f *formatter) StmtStmtList(n *ast.StmtStmtList) {
n.OpenCurlyBracketTkn = f.newToken('{', []byte("{"))
if len(n.Stmts) > 0 {
f.indent++
f.formatStmts(&n.Stmts)
f.indent--
f.addFreeFloating(token.T_WHITESPACE, []byte("\n"))
f.addIndent()
}
n.CloseCurlyBracketTkn = f.newToken('}', []byte("}"))
}
func (f *formatter) StmtSwitch(n *ast.StmtSwitch) {
n.CaseSeparatorTkn = nil
n.ColonTkn = nil
n.EndSwitchTkn = nil
n.SemiColonTkn = nil
n.SwitchTkn = f.newToken(token.T_SWITCH, []byte("switch"))
n.OpenParenthesisTkn = f.newToken('(', []byte("("))
n.Cond.Accept(f)
n.CloseParenthesisTkn = f.newToken(')', []byte(")"))
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
n.OpenCurlyBracketTkn = f.newToken('{', []byte("{"))
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if len(n.Cases) > 0 {
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f.indent++
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f.formatStmts(&n.Cases)
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f.indent--
f.addFreeFloating(token.T_WHITESPACE, []byte("\n"))
f.addIndent()
}
n.CloseCurlyBracketTkn = f.newToken('}', []byte("}"))
}
func (f *formatter) StmtThrow(n *ast.StmtThrow) {
n.ThrowTkn = f.newToken(token.T_THROW, []byte("throw"))
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
n.Expr.Accept(f)
n.SemiColonTkn = f.newSemicolonTkn()
}
func (f *formatter) StmtTrait(n *ast.StmtTrait) {
n.TraitTkn = f.newToken(token.T_TRAIT, []byte("trait"))
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
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n.Name.Accept(f)
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f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
n.OpenCurlyBracketTkn = f.newToken('{', []byte("{"))
if len(n.Stmts) > 0 {
f.indent++
f.formatStmts(&n.Stmts)
f.indent--
f.addFreeFloating(token.T_WHITESPACE, []byte("\n"))
f.addIndent()
}
n.CloseCurlyBracketTkn = f.newToken('}', []byte("}"))
}
func (f *formatter) StmtTraitUse(n *ast.StmtTraitUse) {
n.UseTkn = f.newToken(token.T_USE, []byte("use"))
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
n.SeparatorTkns = f.formatList(n.Traits, ',')
n.OpenCurlyBracketTkn = nil
n.CloseCurlyBracketTkn = nil
n.SemiColonTkn = nil
if len(n.Adaptations) > 0 {
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f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
n.OpenCurlyBracketTkn = f.newToken('{', []byte("{"))
if len(n.Adaptations) > 0 {
f.indent++
f.formatStmts(&n.Adaptations)
f.indent--
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f.addFreeFloating(token.T_WHITESPACE, []byte("\n"))
f.addIndent()
}
n.CloseCurlyBracketTkn = f.newToken('}', []byte("}"))
} else {
n.SemiColonTkn = f.newToken(';', []byte(";"))
}
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}
func (f *formatter) StmtTraitUseAlias(n *ast.StmtTraitUseAlias) {
if n.Trait != nil {
n.Trait.Accept(f)
n.DoubleColonTkn = f.newToken(token.T_PAAMAYIM_NEKUDOTAYIM, []byte("::"))
}
n.Method.Accept(f)
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f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
n.AsTkn = f.newToken(token.T_AS, []byte("as"))
if n.Modifier != nil {
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
n.Modifier.Accept(f)
}
if n.Alias != nil {
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
n.Alias.Accept(f)
}
n.SemiColonTkn = f.newSemicolonTkn()
}
func (f *formatter) StmtTraitUsePrecedence(n *ast.StmtTraitUsePrecedence) {
if n.Trait != nil {
n.Trait.Accept(f)
n.DoubleColonTkn = f.newToken(token.T_PAAMAYIM_NEKUDOTAYIM, []byte("::"))
}
n.Method.Accept(f)
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f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
n.InsteadofTkn = f.newToken(token.T_INSTEADOF, []byte("insteadof"))
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
n.SeparatorTkns = f.formatList(n.Insteadof, ',')
n.SemiColonTkn = f.newSemicolonTkn()
}
func (f *formatter) StmtTry(n *ast.StmtTry) {
n.TryTkn = f.newToken(token.T_TRY, []byte("try"))
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
n.OpenCurlyBracketTkn = f.newToken('{', []byte("{"))
if len(n.Stmts) > 0 {
f.indent++
f.formatStmts(&n.Stmts)
f.indent--
f.addFreeFloating(token.T_WHITESPACE, []byte("\n"))
f.addIndent()
}
n.CloseCurlyBracketTkn = f.newToken('}', []byte("}"))
for _, catch := range n.Catches {
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
catch.Accept(f)
}
if n.Finally != nil {
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
n.Finally.Accept(f)
}
}
func (f *formatter) StmtUnset(n *ast.StmtUnset) {
n.UnsetTkn = f.newToken(token.T_UNSET, []byte("unset"))
n.OpenParenthesisTkn = f.newToken('(', []byte("("))
n.SeparatorTkns = f.formatList(n.Vars, ',')
n.CloseParenthesisTkn = f.newToken(')', []byte(")"))
n.SemiColonTkn = f.newSemicolonTkn()
}
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func (f *formatter) StmtUse(n *ast.StmtUseList) {
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n.UseTkn = f.newToken(token.T_USE, []byte("use"))
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
if n.Type != nil {
n.Type.Accept(f)
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
}
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n.SeparatorTkns = f.formatList(n.Uses, ',')
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n.SemiColonTkn = f.newSemicolonTkn()
}
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func (f *formatter) StmtGroupUse(n *ast.StmtGroupUseList) {
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n.UseTkn = f.newToken(token.T_USE, []byte("use"))
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
if n.Type != nil {
n.Type.Accept(f)
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
}
n.LeadingNsSeparatorTkn = nil
n.Prefix.Accept(f)
n.NsSeparatorTkn = f.newToken(token.T_NS_SEPARATOR, []byte("\\"))
n.OpenCurlyBracketTkn = f.newToken('{', []byte("{"))
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n.SeparatorTkns = f.formatList(n.Uses, ',')
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n.CloseCurlyBracketTkn = f.newToken('}', []byte("}"))
n.SemiColonTkn = f.newSemicolonTkn()
}
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func (f *formatter) StmtUseDeclaration(n *ast.StmtUse) {
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if n.Type != nil {
n.Type.Accept(f)
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
}
n.NsSeparatorTkn = nil
n.Use.Accept(f)
if n.Alias != nil {
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
n.AsTkn = f.newToken(token.T_AS, []byte("as"))
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
n.Alias.Accept(f)
}
}
func (f *formatter) StmtWhile(n *ast.StmtWhile) {
n.ColonTkn = nil
n.EndWhileTkn = nil
n.SemiColonTkn = nil
n.WhileTkn = f.newToken(token.T_WHILE, []byte("while"))
n.OpenParenthesisTkn = f.newToken('(', []byte("("))
n.Cond.Accept(f)
n.CloseParenthesisTkn = f.newToken(')', []byte(")"))
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
n.Stmt.Accept(f)
}
func (f *formatter) ExprArray(n *ast.ExprArray) {
n.ArrayTkn = f.newToken(token.T_ARRAY, []byte("array"))
n.OpenBracketTkn = f.newToken('(', []byte("("))
n.SeparatorTkns = f.formatList(n.Items, ',')
n.CloseBracketTkn = f.newToken(')', []byte(")"))
}
func (f *formatter) ExprArrayDimFetch(n *ast.ExprArrayDimFetch) {
n.Var.Accept(f)
n.OpenBracketTkn = f.newToken('[', []byte("["))
n.Dim.Accept(f)
n.CloseBracketTkn = f.newToken(']', []byte("]"))
}
func (f *formatter) ExprArrayItem(n *ast.ExprArrayItem) {
if n.EllipsisTkn != nil {
n.EllipsisTkn = f.newToken(token.T_ELLIPSIS, []byte("..."))
}
if n.Key != nil {
n.Key.Accept(f)
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
n.DoubleArrowTkn = f.newToken(token.T_DOUBLE_ARROW, []byte("=>"))
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
}
if n.Val != nil {
n.Val.Accept(f)
}
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}
func (f *formatter) ExprArrowFunction(n *ast.ExprArrowFunction) {
if n.AttrGroups != nil {
for _, group := range n.AttrGroups {
group.Accept(f)
}
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
}
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if n.StaticTkn != nil {
n.StaticTkn = f.newToken(token.T_STATIC, []byte("static"))
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
}
n.FnTkn = f.newToken(token.T_FN, []byte("fn"))
if n.AmpersandTkn != nil {
n.AmpersandTkn = f.newToken('&', []byte("&"))
}
n.OpenParenthesisTkn = f.newToken('(', []byte("("))
n.SeparatorTkns = nil
if len(n.Params) > 0 {
n.SeparatorTkns = f.formatList(n.Params, ',')
}
n.CloseParenthesisTkn = f.newToken(')', []byte(")"))
n.ColonTkn = nil
if n.ReturnType != nil {
n.ColonTkn = f.newToken(':', []byte(":"))
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
n.ReturnType.Accept(f)
}
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
n.DoubleArrowTkn = f.newToken(token.T_DOUBLE_ARROW, []byte("=>"))
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
n.Expr.Accept(f)
}
func (f *formatter) ExprBitwiseNot(n *ast.ExprBitwiseNot) {
n.TildaTkn = f.newToken('~', []byte("~"))
n.Expr.Accept(f)
}
func (f *formatter) ExprBooleanNot(n *ast.ExprBooleanNot) {
n.ExclamationTkn = f.newToken('!', []byte("!"))
n.Expr.Accept(f)
}
func (f *formatter) ExprBrackets(n *ast.ExprBrackets) {
n.OpenParenthesisTkn = f.newToken('(', []byte("("))
n.Expr.Accept(f)
n.CloseParenthesisTkn = f.newToken(')', []byte(")"))
}
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func (f *formatter) ExprClassConstFetch(n *ast.ExprClassConstFetch) {
n.Class.Accept(f)
n.DoubleColonTkn = f.newToken(token.T_PAAMAYIM_NEKUDOTAYIM, []byte("::"))
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n.Const.Accept(f)
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}
func (f *formatter) ExprClone(n *ast.ExprClone) {
n.CloneTkn = f.newToken(token.T_CLONE, []byte("clone"))
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
n.Expr.Accept(f)
}
func (f *formatter) ExprClosure(n *ast.ExprClosure) {
if n.AttrGroups != nil {
for _, group := range n.AttrGroups {
group.Accept(f)
}
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
}
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if n.StaticTkn != nil {
n.StaticTkn = f.newToken(token.T_STATIC, []byte("static"))
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
}
n.FunctionTkn = f.newToken(token.T_FN, []byte("function"))
if n.AmpersandTkn != nil {
n.AmpersandTkn = f.newToken('&', []byte("&"))
}
n.OpenParenthesisTkn = f.newToken('(', []byte("("))
n.SeparatorTkns = nil
if len(n.Params) > 0 {
n.SeparatorTkns = f.formatList(n.Params, ',')
}
n.CloseParenthesisTkn = f.newToken(')', []byte(")"))
n.UseTkn = nil
n.UseOpenParenthesisTkn = nil
n.UseCloseParenthesisTkn = nil
n.UseSeparatorTkns = nil
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if len(n.Uses) > 0 {
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f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
n.UseTkn = f.newToken(token.T_USE, []byte("use"))
n.OpenParenthesisTkn = f.newToken('(', []byte("("))
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n.SeparatorTkns = f.formatList(n.Uses, ',')
n.CloseParenthesisTkn = f.newToken(')', []byte(")"))
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}
n.ColonTkn = nil
if n.ReturnType != nil {
n.ColonTkn = f.newToken(':', []byte(":"))
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
n.ReturnType.Accept(f)
}
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
n.OpenCurlyBracketTkn = f.newToken('{', []byte("{"))
if len(n.Stmts) > 0 {
f.indent++
f.formatStmts(&n.Stmts)
f.indent--
f.addFreeFloating(token.T_WHITESPACE, []byte("\n"))
f.addIndent()
}
n.CloseCurlyBracketTkn = f.newToken('}', []byte("}"))
}
func (f *formatter) ExprClosureUse(n *ast.ExprClosureUse) {
if n.AmpersandTkn != nil {
n.AmpersandTkn = f.newToken('&', []byte("&"))
}
n.Var.Accept(f)
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}
func (f *formatter) ExprConstFetch(n *ast.ExprConstFetch) {
n.Const.Accept(f)
}
func (f *formatter) ExprEmpty(n *ast.ExprEmpty) {
n.EmptyTkn = f.newToken(token.T_EMPTY, []byte("empty"))
n.OpenParenthesisTkn = f.newToken('(', []byte("("))
n.Expr.Accept(f)
n.CloseParenthesisTkn = f.newToken(')', []byte(")"))
}
func (f *formatter) ExprErrorSuppress(n *ast.ExprErrorSuppress) {
n.AtTkn = f.newToken('@', []byte("@"))
n.Expr.Accept(f)
}
func (f *formatter) ExprEval(n *ast.ExprEval) {
n.EvalTkn = f.newToken(token.T_EVAL, []byte("eval"))
n.OpenParenthesisTkn = f.newToken('(', []byte("("))
n.Expr.Accept(f)
n.CloseParenthesisTkn = f.newToken(')', []byte(")"))
}
func (f *formatter) ExprExit(n *ast.ExprExit) {
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n.ExitTkn = f.newToken(token.T_EVAL, []byte("exit"))
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n.OpenParenthesisTkn = nil
n.CloseParenthesisTkn = nil
if n.Expr != nil {
n.OpenParenthesisTkn = f.newToken('(', []byte("("))
n.Expr.Accept(f)
n.CloseParenthesisTkn = f.newToken(')', []byte(")"))
}
}
func (f *formatter) ExprFunctionCall(n *ast.ExprFunctionCall) {
n.Function.Accept(f)
n.OpenParenthesisTkn = f.newToken('(', []byte("("))
n.SeparatorTkns = nil
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if len(n.Args) > 0 {
n.SeparatorTkns = f.formatList(n.Args, ',')
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}
if n.EllipsisTkn != nil {
n.EllipsisTkn = f.newToken(token.T_ELLIPSIS, []byte("..."))
}
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n.CloseParenthesisTkn = f.newToken(')', []byte(")"))
}
func (f *formatter) ExprInclude(n *ast.ExprInclude) {
n.IncludeTkn = f.newToken(token.T_INCLUDE, []byte("include"))
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
n.Expr.Accept(f)
}
func (f *formatter) ExprIncludeOnce(n *ast.ExprIncludeOnce) {
n.IncludeOnceTkn = f.newToken(token.T_INCLUDE_ONCE, []byte("include_once"))
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f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
n.Expr.Accept(f)
}
func (f *formatter) ExprInstanceOf(n *ast.ExprInstanceOf) {
n.Expr.Accept(f)
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
n.InstanceOfTkn = f.newToken(token.T_INSTANCEOF, []byte("instanceof"))
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
n.Class.Accept(f)
}
func (f *formatter) ExprIsset(n *ast.ExprIsset) {
n.IssetTkn = f.newToken(token.T_ISSET, []byte("isset"))
n.OpenParenthesisTkn = f.newToken('(', []byte("("))
n.SeparatorTkns = f.formatList(n.Vars, ',')
n.CloseParenthesisTkn = f.newToken(')', []byte(")"))
}
func (f *formatter) ExprList(n *ast.ExprList) {
n.ListTkn = f.newToken(token.T_LIST, []byte("list"))
n.OpenBracketTkn = f.newToken('(', []byte("("))
n.SeparatorTkns = f.formatList(n.Items, ',')
n.CloseBracketTkn = f.newToken(')', []byte(")"))
}
func (f *formatter) ExprMethodCall(n *ast.ExprMethodCall) {
n.Var.Accept(f)
n.ObjectOperatorTkn = f.newToken(token.T_OBJECT_OPERATOR, []byte("->"))
n.OpenCurlyBracketTkn = nil
n.CloseCurlyBracketTkn = nil
switch n.Method.(type) {
case *ast.Identifier:
case *ast.ExprVariable:
default:
n.OpenCurlyBracketTkn = f.newToken('{', []byte("{"))
n.CloseCurlyBracketTkn = f.newToken('}', []byte("}"))
}
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n.Method.Accept(f)
n.OpenParenthesisTkn = f.newToken('(', []byte("("))
n.SeparatorTkns = nil
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if len(n.Args) > 0 {
n.SeparatorTkns = f.formatList(n.Args, ',')
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}
if n.EllipsisTkn != nil {
n.EllipsisTkn = f.newToken(token.T_ELLIPSIS, []byte("..."))
}
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n.CloseParenthesisTkn = f.newToken(')', []byte(")"))
}
func (f *formatter) ExprNullsafeMethodCall(n *ast.ExprNullsafeMethodCall) {
n.Var.Accept(f)
n.ObjectOperatorTkn = f.newToken(token.T_NULLSAFE_OBJECT_OPERATOR, []byte("?->"))
n.OpenCurlyBracketTkn = nil
n.CloseCurlyBracketTkn = nil
switch n.Method.(type) {
case *ast.Identifier:
case *ast.ExprVariable:
default:
n.OpenCurlyBracketTkn = f.newToken('{', []byte("{"))
n.CloseCurlyBracketTkn = f.newToken('}', []byte("}"))
}
n.Method.Accept(f)
n.OpenParenthesisTkn = f.newToken('(', []byte("("))
n.SeparatorTkns = nil
if len(n.Args) > 0 {
n.SeparatorTkns = f.formatList(n.Args, ',')
}
if n.EllipsisTkn != nil {
n.EllipsisTkn = f.newToken(token.T_ELLIPSIS, []byte("..."))
}
n.CloseParenthesisTkn = f.newToken(')', []byte(")"))
}
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func (f *formatter) ExprNew(n *ast.ExprNew) {
n.NewTkn = f.newToken(token.T_NEW, []byte("new"))
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
n.Class.Accept(f)
n.SeparatorTkns = nil
n.OpenParenthesisTkn = nil
n.CloseParenthesisTkn = nil
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if len(n.Args) > 0 {
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n.OpenParenthesisTkn = f.newToken('(', []byte("("))
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n.SeparatorTkns = f.formatList(n.Args, ',')
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n.CloseParenthesisTkn = f.newToken(')', []byte(")"))
}
}
func (f *formatter) ExprPostDec(n *ast.ExprPostDec) {
n.Var.Accept(f)
n.DecTkn = f.newToken(token.T_DEC, []byte("--"))
}
func (f *formatter) ExprPostInc(n *ast.ExprPostInc) {
n.Var.Accept(f)
n.IncTkn = f.newToken(token.T_INC, []byte("++"))
}
func (f *formatter) ExprPreDec(n *ast.ExprPreDec) {
n.DecTkn = f.newToken(token.T_DEC, []byte("--"))
n.Var.Accept(f)
}
func (f *formatter) ExprPreInc(n *ast.ExprPreInc) {
n.IncTkn = f.newToken(token.T_INC, []byte("++"))
n.Var.Accept(f)
}
func (f *formatter) ExprPrint(n *ast.ExprPrint) {
n.PrintTkn = f.newToken(token.T_PRINT, []byte("print"))
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
n.Expr.Accept(f)
}
func (f *formatter) ExprPropertyFetch(n *ast.ExprPropertyFetch) {
n.Var.Accept(f)
n.ObjectOperatorTkn = f.newToken(token.T_OBJECT_OPERATOR, []byte("->"))
n.OpenCurlyBracketTkn = nil
n.CloseCurlyBracketTkn = nil
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switch n.Prop.(type) {
case *ast.Identifier:
case *ast.ExprVariable:
default:
n.OpenCurlyBracketTkn = f.newToken('{', []byte("{"))
n.CloseCurlyBracketTkn = f.newToken('}', []byte("}"))
}
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n.Prop.Accept(f)
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}
func (f *formatter) ExprNullsafePropertyFetch(n *ast.ExprNullsafePropertyFetch) {
n.Var.Accept(f)
n.ObjectOperatorTkn = f.newToken(token.T_NULLSAFE_OBJECT_OPERATOR, []byte("?->"))
n.OpenCurlyBracketTkn = nil
n.CloseCurlyBracketTkn = nil
switch n.Prop.(type) {
case *ast.Identifier:
case *ast.ExprVariable:
default:
n.OpenCurlyBracketTkn = f.newToken('{', []byte("{"))
n.CloseCurlyBracketTkn = f.newToken('}', []byte("}"))
}
n.Prop.Accept(f)
}
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func (f *formatter) ExprRequire(n *ast.ExprRequire) {
n.RequireTkn = f.newToken(token.T_REQUIRE, []byte("require"))
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
n.Expr.Accept(f)
}
func (f *formatter) ExprRequireOnce(n *ast.ExprRequireOnce) {
n.RequireOnceTkn = f.newToken(token.T_REQUIRE_ONCE, []byte("require_once"))
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
n.Expr.Accept(f)
}
func (f *formatter) ExprShellExec(n *ast.ExprShellExec) {
n.OpenBacktickTkn = f.newToken('`', []byte("`"))
for _, p := range n.Parts {
p.Accept(f)
}
n.CloseBacktickTkn = f.newToken('`', []byte("`"))
}
func (f *formatter) ExprStaticCall(n *ast.ExprStaticCall) {
n.Class.Accept(f)
n.DoubleColonTkn = f.newToken(token.T_PAAMAYIM_NEKUDOTAYIM, []byte("::"))
n.OpenCurlyBracketTkn = nil
n.CloseCurlyBracketTkn = nil
switch n.Call.(type) {
case *ast.Identifier:
case *ast.ExprVariable:
default:
n.OpenCurlyBracketTkn = f.newToken('{', []byte("{"))
n.CloseCurlyBracketTkn = f.newToken('}', []byte("}"))
}
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n.Call.Accept(f)
n.OpenParenthesisTkn = f.newToken('(', []byte("("))
n.SeparatorTkns = nil
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if len(n.Args) > 0 {
n.SeparatorTkns = f.formatList(n.Args, ',')
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}
if n.EllipsisTkn != nil {
n.EllipsisTkn = f.newToken(token.T_ELLIPSIS, []byte("..."))
}
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n.CloseParenthesisTkn = f.newToken(')', []byte(")"))
}
func (f *formatter) ExprStaticPropertyFetch(n *ast.ExprStaticPropertyFetch) {
n.Class.Accept(f)
n.DoubleColonTkn = f.newToken(token.T_PAAMAYIM_NEKUDOTAYIM, []byte("::"))
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n.Prop.Accept(f)
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}
func (f *formatter) ExprTernary(n *ast.ExprTernary) {
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n.Cond.Accept(f)
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f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
n.QuestionTkn = f.newToken('?', []byte("?"))
if n.IfTrue != nil {
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
n.IfTrue.Accept(f)
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
}
n.ColonTkn = f.newToken(':', []byte(":"))
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
n.IfFalse.Accept(f)
}
func (f *formatter) ExprUnaryMinus(n *ast.ExprUnaryMinus) {
n.MinusTkn = f.newToken('-', []byte("-"))
n.Expr.Accept(f)
}
func (f *formatter) ExprUnaryPlus(n *ast.ExprUnaryPlus) {
n.PlusTkn = f.newToken('+', []byte("+"))
n.Expr.Accept(f)
}
func (f *formatter) ExprVariable(n *ast.ExprVariable) {
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if _, ok := n.Name.(*ast.Identifier); !ok {
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n.DollarTkn = f.newToken('$', []byte("$"))
}
n.OpenCurlyBracketTkn = nil
n.CloseCurlyBracketTkn = nil
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switch n.Name.(type) {
case *ast.Identifier:
case *ast.ExprVariable:
default:
n.OpenCurlyBracketTkn = f.newToken('{', []byte("{"))
n.CloseCurlyBracketTkn = f.newToken('}', []byte("}"))
}
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n.Name.Accept(f)
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}
func (f *formatter) ExprYield(n *ast.ExprYield) {
n.YieldTkn = f.newToken(token.T_YIELD, []byte("yield"))
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
if n.Key != nil {
n.Key.Accept(f)
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
n.DoubleArrowTkn = f.newToken(token.T_DOUBLE_ARROW, []byte("=>"))
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
}
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n.Val.Accept(f)
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}
func (f *formatter) ExprYieldFrom(n *ast.ExprYieldFrom) {
n.YieldFromTkn = f.newToken(token.T_YIELD_FROM, []byte("yield from"))
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
n.Expr.Accept(f)
}
func (f *formatter) ExprAssign(n *ast.ExprAssign) {
n.Var.Accept(f)
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
n.EqualTkn = f.newToken('=', []byte("="))
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
n.Expr.Accept(f)
}
func (f *formatter) ExprAssignReference(n *ast.ExprAssignReference) {
n.Var.Accept(f)
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
n.EqualTkn = f.newToken('=', []byte("="))
n.AmpersandTkn = f.newToken('&', []byte("&"))
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
n.Expr.Accept(f)
}
func (f *formatter) ExprAssignBitwiseAnd(n *ast.ExprAssignBitwiseAnd) {
n.Var.Accept(f)
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
n.EqualTkn = f.newToken(token.T_AND_EQUAL, []byte("&="))
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
n.Expr.Accept(f)
}
func (f *formatter) ExprAssignBitwiseOr(n *ast.ExprAssignBitwiseOr) {
n.Var.Accept(f)
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
n.EqualTkn = f.newToken(token.T_OR_EQUAL, []byte("|="))
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
n.Expr.Accept(f)
}
func (f *formatter) ExprAssignBitwiseXor(n *ast.ExprAssignBitwiseXor) {
n.Var.Accept(f)
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
n.EqualTkn = f.newToken(token.T_XOR_EQUAL, []byte("^="))
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
n.Expr.Accept(f)
}
func (f *formatter) ExprAssignCoalesce(n *ast.ExprAssignCoalesce) {
n.Var.Accept(f)
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
n.EqualTkn = f.newToken(token.T_COALESCE_EQUAL, []byte("??="))
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
n.Expr.Accept(f)
}
func (f *formatter) ExprAssignConcat(n *ast.ExprAssignConcat) {
n.Var.Accept(f)
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
n.EqualTkn = f.newToken(token.T_CONCAT_EQUAL, []byte(".="))
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
n.Expr.Accept(f)
}
func (f *formatter) ExprAssignDiv(n *ast.ExprAssignDiv) {
n.Var.Accept(f)
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
n.EqualTkn = f.newToken(token.T_DIV_EQUAL, []byte("/="))
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
n.Expr.Accept(f)
}
func (f *formatter) ExprAssignMinus(n *ast.ExprAssignMinus) {
n.Var.Accept(f)
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
n.EqualTkn = f.newToken(token.T_MINUS_EQUAL, []byte("-="))
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
n.Expr.Accept(f)
}
func (f *formatter) ExprAssignMod(n *ast.ExprAssignMod) {
n.Var.Accept(f)
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
n.EqualTkn = f.newToken(token.T_MOD_EQUAL, []byte("%="))
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
n.Expr.Accept(f)
}
func (f *formatter) ExprAssignMul(n *ast.ExprAssignMul) {
n.Var.Accept(f)
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
n.EqualTkn = f.newToken(token.T_MUL_EQUAL, []byte("*="))
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
n.Expr.Accept(f)
}
func (f *formatter) ExprAssignPlus(n *ast.ExprAssignPlus) {
n.Var.Accept(f)
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
n.EqualTkn = f.newToken(token.T_PLUS_EQUAL, []byte("+="))
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
n.Expr.Accept(f)
}
func (f *formatter) ExprAssignPow(n *ast.ExprAssignPow) {
n.Var.Accept(f)
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
n.EqualTkn = f.newToken(token.T_POW_EQUAL, []byte("**="))
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
n.Expr.Accept(f)
}
func (f *formatter) ExprAssignShiftLeft(n *ast.ExprAssignShiftLeft) {
n.Var.Accept(f)
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
n.EqualTkn = f.newToken(token.T_SL_EQUAL, []byte("<<="))
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
n.Expr.Accept(f)
}
func (f *formatter) ExprAssignShiftRight(n *ast.ExprAssignShiftRight) {
n.Var.Accept(f)
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
n.EqualTkn = f.newToken(token.T_SR_EQUAL, []byte(">>="))
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
n.Expr.Accept(f)
}
func (f *formatter) ExprBinaryBitwiseAnd(n *ast.ExprBinaryBitwiseAnd) {
n.Left.Accept(f)
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
n.OpTkn = f.newToken('&', []byte("&"))
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
n.Right.Accept(f)
}
func (f *formatter) ExprBinaryBitwiseOr(n *ast.ExprBinaryBitwiseOr) {
n.Left.Accept(f)
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
n.OpTkn = f.newToken('|', []byte("|"))
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
n.Right.Accept(f)
}
func (f *formatter) ExprBinaryBitwiseXor(n *ast.ExprBinaryBitwiseXor) {
n.Left.Accept(f)
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
n.OpTkn = f.newToken('^', []byte("^"))
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
n.Right.Accept(f)
}
func (f *formatter) ExprBinaryBooleanAnd(n *ast.ExprBinaryBooleanAnd) {
n.Left.Accept(f)
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
n.OpTkn = f.newToken(token.T_BOOLEAN_AND, []byte("&&"))
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
n.Right.Accept(f)
}
func (f *formatter) ExprBinaryBooleanOr(n *ast.ExprBinaryBooleanOr) {
n.Left.Accept(f)
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
n.OpTkn = f.newToken(token.T_BOOLEAN_OR, []byte("||"))
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
n.Right.Accept(f)
}
func (f *formatter) ExprBinaryCoalesce(n *ast.ExprBinaryCoalesce) {
n.Left.Accept(f)
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
n.OpTkn = f.newToken(token.T_COALESCE, []byte("??"))
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
n.Right.Accept(f)
}
func (f *formatter) ExprBinaryConcat(n *ast.ExprBinaryConcat) {
n.Left.Accept(f)
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
n.OpTkn = f.newToken('.', []byte("."))
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
n.Right.Accept(f)
}
func (f *formatter) ExprBinaryDiv(n *ast.ExprBinaryDiv) {
n.Left.Accept(f)
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
n.OpTkn = f.newToken('/', []byte("/"))
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
n.Right.Accept(f)
}
func (f *formatter) ExprBinaryEqual(n *ast.ExprBinaryEqual) {
n.Left.Accept(f)
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
n.OpTkn = f.newToken(token.T_IS_EQUAL, []byte("=="))
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
n.Right.Accept(f)
}
func (f *formatter) ExprBinaryGreater(n *ast.ExprBinaryGreater) {
n.Left.Accept(f)
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
n.OpTkn = f.newToken('>', []byte(">"))
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
n.Right.Accept(f)
}
func (f *formatter) ExprBinaryGreaterOrEqual(n *ast.ExprBinaryGreaterOrEqual) {
n.Left.Accept(f)
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
n.OpTkn = f.newToken(token.T_IS_GREATER_OR_EQUAL, []byte(">="))
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
n.Right.Accept(f)
}
func (f *formatter) ExprBinaryIdentical(n *ast.ExprBinaryIdentical) {
n.Left.Accept(f)
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
n.OpTkn = f.newToken(token.T_IS_IDENTICAL, []byte("==="))
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
n.Right.Accept(f)
}
func (f *formatter) ExprBinaryLogicalAnd(n *ast.ExprBinaryLogicalAnd) {
n.Left.Accept(f)
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
n.OpTkn = f.newToken(token.T_LOGICAL_AND, []byte("and"))
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
n.Right.Accept(f)
}
func (f *formatter) ExprBinaryLogicalOr(n *ast.ExprBinaryLogicalOr) {
n.Left.Accept(f)
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
n.OpTkn = f.newToken(token.T_LOGICAL_OR, []byte("or"))
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
n.Right.Accept(f)
}
func (f *formatter) ExprBinaryLogicalXor(n *ast.ExprBinaryLogicalXor) {
n.Left.Accept(f)
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
n.OpTkn = f.newToken(token.T_LOGICAL_XOR, []byte("xor"))
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
n.Right.Accept(f)
}
func (f *formatter) ExprBinaryMinus(n *ast.ExprBinaryMinus) {
n.Left.Accept(f)
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
n.OpTkn = f.newToken('-', []byte("-"))
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
n.Right.Accept(f)
}
func (f *formatter) ExprBinaryMod(n *ast.ExprBinaryMod) {
n.Left.Accept(f)
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
n.OpTkn = f.newToken('%', []byte("%"))
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
n.Right.Accept(f)
}
func (f *formatter) ExprBinaryMul(n *ast.ExprBinaryMul) {
n.Left.Accept(f)
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
n.OpTkn = f.newToken('*', []byte("*"))
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
n.Right.Accept(f)
}
func (f *formatter) ExprBinaryNotEqual(n *ast.ExprBinaryNotEqual) {
n.Left.Accept(f)
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
n.OpTkn = f.newToken(token.T_IS_NOT_EQUAL, []byte("!="))
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
n.Right.Accept(f)
}
func (f *formatter) ExprBinaryNotIdentical(n *ast.ExprBinaryNotIdentical) {
n.Left.Accept(f)
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
n.OpTkn = f.newToken(token.T_IS_NOT_IDENTICAL, []byte("!=="))
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
n.Right.Accept(f)
}
func (f *formatter) ExprBinaryPlus(n *ast.ExprBinaryPlus) {
n.Left.Accept(f)
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
n.OpTkn = f.newToken('+', []byte("+"))
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
n.Right.Accept(f)
}
func (f *formatter) ExprBinaryPow(n *ast.ExprBinaryPow) {
n.Left.Accept(f)
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
n.OpTkn = f.newToken(token.T_POW, []byte("**"))
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
n.Right.Accept(f)
}
func (f *formatter) ExprBinaryShiftLeft(n *ast.ExprBinaryShiftLeft) {
n.Left.Accept(f)
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
n.OpTkn = f.newToken(token.T_SL, []byte("<<"))
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
n.Right.Accept(f)
}
func (f *formatter) ExprBinaryShiftRight(n *ast.ExprBinaryShiftRight) {
n.Left.Accept(f)
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
n.OpTkn = f.newToken(token.T_SR, []byte(">>"))
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
n.Right.Accept(f)
}
func (f *formatter) ExprBinarySmaller(n *ast.ExprBinarySmaller) {
n.Left.Accept(f)
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
n.OpTkn = f.newToken('<', []byte("<"))
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
n.Right.Accept(f)
}
func (f *formatter) ExprBinarySmallerOrEqual(n *ast.ExprBinarySmallerOrEqual) {
n.Left.Accept(f)
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
n.OpTkn = f.newToken(token.T_IS_SMALLER_OR_EQUAL, []byte("<="))
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
n.Right.Accept(f)
}
func (f *formatter) ExprBinarySpaceship(n *ast.ExprBinarySpaceship) {
n.Left.Accept(f)
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
n.OpTkn = f.newToken(token.T_SPACESHIP, []byte("<=>"))
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
n.Right.Accept(f)
}
func (f *formatter) ExprCastArray(n *ast.ExprCastArray) {
n.CastTkn = f.newToken(token.T_ARRAY_CAST, []byte("(array)"))
n.Expr.Accept(f)
}
func (f *formatter) ExprCastBool(n *ast.ExprCastBool) {
n.CastTkn = f.newToken(token.T_BOOL_CAST, []byte("(bool)"))
n.Expr.Accept(f)
}
func (f *formatter) ExprCastDouble(n *ast.ExprCastDouble) {
n.CastTkn = f.newToken(token.T_DOUBLE_CAST, []byte("(float)"))
n.Expr.Accept(f)
}
func (f *formatter) ExprCastInt(n *ast.ExprCastInt) {
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n.CastTkn = f.newToken(token.T_INT_CAST, []byte("(int)"))
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n.Expr.Accept(f)
}
func (f *formatter) ExprCastObject(n *ast.ExprCastObject) {
n.CastTkn = f.newToken(token.T_OBJECT_CAST, []byte("(object)"))
n.Expr.Accept(f)
}
func (f *formatter) ExprCastString(n *ast.ExprCastString) {
n.CastTkn = f.newToken(token.T_STRING_CAST, []byte("(string)"))
n.Expr.Accept(f)
}
func (f *formatter) ExprCastUnset(n *ast.ExprCastUnset) {
n.CastTkn = f.newToken(token.T_UNSET_CAST, []byte("(unset)"))
n.Expr.Accept(f)
}
func (f *formatter) ExprMatch(n *ast.ExprMatch) {
n.MatchTkn = f.newToken(token.T_MATCH, []byte("match"))
n.OpenParenthesisTkn = f.newToken('(', []byte("("))
n.CloseParenthesisTkn = f.newToken(')', []byte(")"))
n.OpenCurlyBracketTkn = f.newToken('}', []byte("}"))
n.SeparatorTkns = nil
if len(n.Arms) > 0 {
n.SeparatorTkns = f.formatList(n.Arms, ',')
}
n.CloseCurlyBracketTkn = f.newToken('{', []byte("{"))
}
func (f *formatter) ExprThrow(n *ast.ExprThrow) {
n.ThrowTkn = f.newToken(token.T_THROW, []byte("throw"))
f.addFreeFloating(token.T_WHITESPACE, []byte(" "))
n.Expr.Accept(f)
n.SemiColonTkn = f.newSemicolonTkn()
}
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func (f *formatter) ScalarDnumber(n *ast.ScalarDnumber) {
if n.NumberTkn == nil {
n.NumberTkn = f.newToken(token.T_STRING, n.Value)
} else {
n.NumberTkn.FreeFloating = f.getFreeFloating()
}
}
func (f *formatter) ScalarEncapsed(n *ast.ScalarEncapsed) {
n.OpenQuoteTkn = f.newToken('"', []byte("\""))
for _, p := range n.Parts {
p.Accept(f)
}
n.CloseQuoteTkn = f.newToken('"', []byte("\""))
}
func (f *formatter) ScalarEncapsedStringPart(n *ast.ScalarEncapsedStringPart) {
if n.EncapsedStrTkn == nil {
n.EncapsedStrTkn = f.newToken(token.T_STRING, n.Value)
} else {
n.EncapsedStrTkn.FreeFloating = f.getFreeFloating()
}
}
func (f *formatter) ScalarEncapsedStringVar(n *ast.ScalarEncapsedStringVar) {
n.DollarOpenCurlyBracketTkn = f.newToken(token.T_DOLLAR_OPEN_CURLY_BRACES, []byte("${"))
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n.Name.Accept(f)
n.OpenSquareBracketTkn = nil
n.CloseSquareBracketTkn = nil
if n.Dim != nil {
n.OpenSquareBracketTkn = f.newToken('[', []byte("["))
n.Dim.Accept(f)
n.CloseSquareBracketTkn = f.newToken(']', []byte("]"))
}
n.CloseCurlyBracketTkn = f.newToken('}', []byte("}"))
}
func (f *formatter) ScalarEncapsedStringBrackets(n *ast.ScalarEncapsedStringBrackets) {
n.OpenCurlyBracketTkn = f.newToken('{', []byte("{"))
n.Var.Accept(f)
n.CloseCurlyBracketTkn = f.newToken('}', []byte("}"))
}
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func (f *formatter) ScalarHeredoc(n *ast.ScalarHeredoc) {
n.OpenHeredocTkn = f.newToken(token.T_START_HEREDOC, []byte("<<<EOT\n"))
for _, p := range n.Parts {
p.Accept(f)
}
n.CloseHeredocTkn = f.newToken(token.T_START_HEREDOC, []byte("EOT"))
}
func (f *formatter) ScalarLnumber(n *ast.ScalarLnumber) {
if n.NumberTkn == nil {
n.NumberTkn = f.newToken(token.T_STRING, n.Value)
} else {
n.NumberTkn.FreeFloating = f.getFreeFloating()
}
}
func (f *formatter) ScalarMagicConstant(n *ast.ScalarMagicConstant) {
if n.MagicConstTkn == nil {
n.MagicConstTkn = f.newToken(token.T_STRING, n.Value)
} else {
n.MagicConstTkn.FreeFloating = f.getFreeFloating()
}
}
func (f *formatter) ScalarString(n *ast.ScalarString) {
if n.StringTkn == nil {
n.StringTkn = f.newToken(token.T_STRING, n.Value)
} else {
n.StringTkn.FreeFloating = f.getFreeFloating()
}
}
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func (f *formatter) NameName(n *ast.Name) {
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separatorTkns := make([]*token.Token, len(n.Parts)-1)
for i, v := range n.Parts {
v.Accept(f)
if i != len(n.Parts)-1 {
separatorTkns[i] = f.newToken(token.T_NS_SEPARATOR, []byte("\\"))
}
}
}
func (f *formatter) NameFullyQualified(n *ast.NameFullyQualified) {
n.NsSeparatorTkn = f.newToken(token.T_NS_SEPARATOR, []byte("\\"))
separatorTkns := make([]*token.Token, len(n.Parts)-1)
for i, v := range n.Parts {
v.Accept(f)
if i != len(n.Parts)-1 {
separatorTkns[i] = f.newToken(token.T_NS_SEPARATOR, []byte("\\"))
}
}
}
func (f *formatter) NameRelative(n *ast.NameRelative) {
n.NsTkn = f.newToken(token.T_NAMESPACE, []byte("namespace"))
n.NsSeparatorTkn = f.newToken(token.T_NS_SEPARATOR, []byte("\\"))
separatorTkns := make([]*token.Token, len(n.Parts)-1)
for i, v := range n.Parts {
v.Accept(f)
if i != len(n.Parts)-1 {
separatorTkns[i] = f.newToken(token.T_NS_SEPARATOR, []byte("\\"))
}
}
}
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func (f *formatter) NameNamePart(n *ast.NamePart) {
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if n.StringTkn == nil {
n.StringTkn = f.newToken(token.T_STRING, n.Value)
} else {
n.StringTkn.FreeFloating = f.getFreeFloating()
}
}