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package parser
import (
"strings"
"gitee.com/quant1x/pkg/goja/ast"
"gitee.com/quant1x/pkg/goja/file"
"gitee.com/quant1x/pkg/goja/token"
"gitee.com/quant1x/pkg/goja/unistring"
)
func (self *_parser) parseIdentifier() *ast.Identifier {
literal := self.parsedLiteral
idx := self.idx
self.next()
return &ast.Identifier{
Name: literal,
Idx: idx,
}
}
func (self *_parser) parsePrimaryExpression() ast.Expression {
literal, parsedLiteral := self.literal, self.parsedLiteral
idx := self.idx
switch self.token {
case token.IDENTIFIER:
self.next()
return &ast.Identifier{
Name: parsedLiteral,
Idx: idx,
}
case token.NULL:
self.next()
return &ast.NullLiteral{
Idx: idx,
Literal: literal,
}
case token.BOOLEAN:
self.next()
value := false
switch parsedLiteral {
case "true":
value = true
case "false":
value = false
default:
self.error(idx, "Illegal boolean literal")
}
return &ast.BooleanLiteral{
Idx: idx,
Literal: literal,
Value: value,
}
case token.STRING:
self.next()
return &ast.StringLiteral{
Idx: idx,
Literal: literal,
Value: parsedLiteral,
}
case token.NUMBER:
self.next()
value, err := parseNumberLiteral(literal)
if err != nil {
self.error(idx, err.Error())
value = 0
}
return &ast.NumberLiteral{
Idx: idx,
Literal: literal,
Value: value,
}
case token.SLASH, token.QUOTIENT_ASSIGN:
return self.parseRegExpLiteral()
case token.LEFT_BRACE:
return self.parseObjectLiteral()
case token.LEFT_BRACKET:
return self.parseArrayLiteral()
case token.LEFT_PARENTHESIS:
return self.parseParenthesisedExpression()
case token.BACKTICK:
return self.parseTemplateLiteral(false)
case token.THIS:
self.next()
return &ast.ThisExpression{
Idx: idx,
}
case token.SUPER:
return self.parseSuperProperty()
case token.ASYNC:
if f := self.parseMaybeAsyncFunction(false); f != nil {
return f
}
case token.FUNCTION:
return self.parseFunction(false, false, idx)
case token.CLASS:
return self.parseClass(false)
}
if self.isBindingId(self.token) {
self.next()
return &ast.Identifier{
Name: parsedLiteral,
Idx: idx,
}
}
self.errorUnexpectedToken(self.token)
self.nextStatement()
return &ast.BadExpression{From: idx, To: self.idx}
}
func (self *_parser) parseSuperProperty() ast.Expression {
idx := self.idx
self.next()
switch self.token {
case token.PERIOD:
self.next()
if !token.IsId(self.token) {
self.expect(token.IDENTIFIER)
self.nextStatement()
return &ast.BadExpression{From: idx, To: self.idx}
}
idIdx := self.idx
parsedLiteral := self.parsedLiteral
self.next()
return &ast.DotExpression{
Left: &ast.SuperExpression{
Idx: idx,
},
Identifier: ast.Identifier{
Name: parsedLiteral,
Idx: idIdx,
},
}
case token.LEFT_BRACKET:
return self.parseBracketMember(&ast.SuperExpression{
Idx: idx,
})
case token.LEFT_PARENTHESIS:
return self.parseCallExpression(&ast.SuperExpression{
Idx: idx,
})
default:
self.error(idx, "'super' keyword unexpected here")
self.nextStatement()
return &ast.BadExpression{From: idx, To: self.idx}
}
}
func (self *_parser) reinterpretSequenceAsArrowFuncParams(list []ast.Expression) *ast.ParameterList {
firstRestIdx := -1
params := make([]*ast.Binding, 0, len(list))
for i, item := range list {
if _, ok := item.(*ast.SpreadElement); ok {
if firstRestIdx == -1 {
firstRestIdx = i
continue
}
}
if firstRestIdx != -1 {
self.error(list[firstRestIdx].Idx0(), "Rest parameter must be last formal parameter")
return &ast.ParameterList{}
}
params = append(params, self.reinterpretAsBinding(item))
}
var rest ast.Expression
if firstRestIdx != -1 {
rest = self.reinterpretAsBindingRestElement(list[firstRestIdx])
}
return &ast.ParameterList{
List: params,
Rest: rest,
}
}
func (self *_parser) parseParenthesisedExpression() ast.Expression {
opening := self.idx
self.expect(token.LEFT_PARENTHESIS)
var list []ast.Expression
if self.token != token.RIGHT_PARENTHESIS {
for {
if self.token == token.ELLIPSIS {
start := self.idx
self.errorUnexpectedToken(token.ELLIPSIS)
self.next()
expr := self.parseAssignmentExpression()
list = append(list, &ast.BadExpression{
From: start,
To: expr.Idx1(),
})
} else {
list = append(list, self.parseAssignmentExpression())
}
if self.token != token.COMMA {
break
}
self.next()
if self.token == token.RIGHT_PARENTHESIS {
self.errorUnexpectedToken(token.RIGHT_PARENTHESIS)
break
}
}
}
self.expect(token.RIGHT_PARENTHESIS)
if len(list) == 1 && len(self.errors) == 0 {
return list[0]
}
if len(list) == 0 {
self.errorUnexpectedToken(token.RIGHT_PARENTHESIS)
return &ast.BadExpression{
From: opening,
To: self.idx,
}
}
return &ast.SequenceExpression{
Sequence: list,
}
}
func (self *_parser) parseRegExpLiteral() *ast.RegExpLiteral {
offset := self.chrOffset - 1 // Opening slash already gotten
if self.token == token.QUOTIENT_ASSIGN {
offset -= 1 // =
}
idx := self.idxOf(offset)
pattern, _, err := self.scanString(offset, false)
endOffset := self.chrOffset
if err == "" {
pattern = pattern[1 : len(pattern)-1]
}
flags := ""
if !isLineTerminator(self.chr) && !isLineWhiteSpace(self.chr) {
self.next()
if self.token == token.IDENTIFIER { // gim
flags = self.literal
self.next()
endOffset = self.chrOffset - 1
}
} else {
self.next()
}
literal := self.str[offset:endOffset]
return &ast.RegExpLiteral{
Idx: idx,
Literal: literal,
Pattern: pattern,
Flags: flags,
}
}
func (self *_parser) isBindingId(tok token.Token) bool {
if tok == token.IDENTIFIER {
return true
}
if tok == token.AWAIT {
return !self.scope.allowAwait
}
if tok == token.YIELD {
return !self.scope.allowYield
}
if token.IsUnreservedWord(tok) {
return true
}
return false
}
func (self *_parser) tokenToBindingId() {
if self.isBindingId(self.token) {
self.token = token.IDENTIFIER
}
}
func (self *_parser) parseBindingTarget() (target ast.BindingTarget) {
self.tokenToBindingId()
switch self.token {
case token.IDENTIFIER:
target = &ast.Identifier{
Name: self.parsedLiteral,
Idx: self.idx,
}
self.next()
case token.LEFT_BRACKET:
target = self.parseArrayBindingPattern()
case token.LEFT_BRACE:
target = self.parseObjectBindingPattern()
default:
idx := self.expect(token.IDENTIFIER)
self.nextStatement()
target = &ast.BadExpression{From: idx, To: self.idx}
}
return
}
func (self *_parser) parseVariableDeclaration(declarationList *[]*ast.Binding) *ast.Binding {
node := &ast.Binding{
Target: self.parseBindingTarget(),
}
if declarationList != nil {
*declarationList = append(*declarationList, node)
}
if self.token == token.ASSIGN {
self.next()
node.Initializer = self.parseAssignmentExpression()
}
return node
}
func (self *_parser) parseVariableDeclarationList() (declarationList []*ast.Binding) {
for {
self.parseVariableDeclaration(&declarationList)
if self.token != token.COMMA {
break
}
self.next()
}
return
}
func (self *_parser) parseVarDeclarationList(var_ file.Idx) []*ast.Binding {
declarationList := self.parseVariableDeclarationList()
self.scope.declare(&ast.VariableDeclaration{
Var: var_,
List: declarationList,
})
return declarationList
}
func (self *_parser) parseObjectPropertyKey() (string, unistring.String, ast.Expression, token.Token) {
if self.token == token.LEFT_BRACKET {
self.next()
expr := self.parseAssignmentExpression()
self.expect(token.RIGHT_BRACKET)
return "", "", expr, token.ILLEGAL
}
idx, tkn, literal, parsedLiteral := self.idx, self.token, self.literal, self.parsedLiteral
var value ast.Expression
self.next()
switch tkn {
case token.IDENTIFIER, token.STRING, token.KEYWORD, token.ESCAPED_RESERVED_WORD:
value = &ast.StringLiteral{
Idx: idx,
Literal: literal,
Value: parsedLiteral,
}
case token.NUMBER:
num, err := parseNumberLiteral(literal)
if err != nil {
self.error(idx, err.Error())
} else {
value = &ast.NumberLiteral{
Idx: idx,
Literal: literal,
Value: num,
}
}
case token.PRIVATE_IDENTIFIER:
value = &ast.PrivateIdentifier{
Identifier: ast.Identifier{
Idx: idx,
Name: parsedLiteral,
},
}
default:
// null, false, class, etc.
if token.IsId(tkn) {
value = &ast.StringLiteral{
Idx: idx,
Literal: literal,
Value: unistring.String(literal),
}
} else {
self.errorUnexpectedToken(tkn)
}
}
return literal, parsedLiteral, value, tkn
}
func (self *_parser) parseObjectProperty() ast.Property {
if self.token == token.ELLIPSIS {
self.next()
return &ast.SpreadElement{
Expression: self.parseAssignmentExpression(),
}
}
keyStartIdx := self.idx
generator := false
if self.token == token.MULTIPLY {
generator = true
self.next()
}
literal, parsedLiteral, value, tkn := self.parseObjectPropertyKey()
if value == nil {
return nil
}
if token.IsId(tkn) || tkn == token.STRING || tkn == token.NUMBER || tkn == token.ILLEGAL {
if generator {
return &ast.PropertyKeyed{
Key: value,
Kind: ast.PropertyKindMethod,
Value: self.parseMethodDefinition(keyStartIdx, ast.PropertyKindMethod, true, false),
Computed: tkn == token.ILLEGAL,
}
}
switch {
case self.token == token.LEFT_PARENTHESIS:
return &ast.PropertyKeyed{
Key: value,
Kind: ast.PropertyKindMethod,
Value: self.parseMethodDefinition(keyStartIdx, ast.PropertyKindMethod, false, false),
Computed: tkn == token.ILLEGAL,
}
case self.token == token.COMMA || self.token == token.RIGHT_BRACE || self.token == token.ASSIGN: // shorthand property
if self.isBindingId(tkn) {
var initializer ast.Expression
if self.token == token.ASSIGN {
// allow the initializer syntax here in case the object literal
// needs to be reinterpreted as an assignment pattern, enforce later if it doesn't.
self.next()
initializer = self.parseAssignmentExpression()
}
return &ast.PropertyShort{
Name: ast.Identifier{
Name: parsedLiteral,
Idx: value.Idx0(),
},
Initializer: initializer,
}
} else {
self.errorUnexpectedToken(self.token)
}
case (literal == "get" || literal == "set" || tkn == token.ASYNC) && self.token != token.COLON:
_, _, keyValue, tkn1 := self.parseObjectPropertyKey()
if keyValue == nil {
return nil
}
var kind ast.PropertyKind
var async bool
if tkn == token.ASYNC {
async = true
kind = ast.PropertyKindMethod
} else if literal == "get" {
kind = ast.PropertyKindGet
} else {
kind = ast.PropertyKindSet
}
return &ast.PropertyKeyed{
Key: keyValue,
Kind: kind,
Value: self.parseMethodDefinition(keyStartIdx, kind, false, async),
Computed: tkn1 == token.ILLEGAL,
}
}
}
self.expect(token.COLON)
return &ast.PropertyKeyed{
Key: value,
Kind: ast.PropertyKindValue,
Value: self.parseAssignmentExpression(),
Computed: tkn == token.ILLEGAL,
}
}
func (self *_parser) parseMethodDefinition(keyStartIdx file.Idx, kind ast.PropertyKind, generator, async bool) *ast.FunctionLiteral {
idx1 := self.idx
if generator != self.scope.allowYield {
self.scope.allowYield = generator
defer func() {
self.scope.allowYield = !generator
}()
}
if async != self.scope.allowAwait {
self.scope.allowAwait = async
defer func() {
self.scope.allowAwait = !async
}()
}
parameterList := self.parseFunctionParameterList()
switch kind {
case ast.PropertyKindGet:
if len(parameterList.List) > 0 || parameterList.Rest != nil {
self.error(idx1, "Getter must not have any formal parameters.")
}
case ast.PropertyKindSet:
if len(parameterList.List) != 1 || parameterList.Rest != nil {
self.error(idx1, "Setter must have exactly one formal parameter.")
}
}
node := &ast.FunctionLiteral{
Function: keyStartIdx,
ParameterList: parameterList,
Generator: generator,
Async: async,
}
node.Body, node.DeclarationList = self.parseFunctionBlock(async, async, generator)
node.Source = self.slice(keyStartIdx, node.Body.Idx1())
return node
}
func (self *_parser) parseObjectLiteral() *ast.ObjectLiteral {
var value []ast.Property
idx0 := self.expect(token.LEFT_BRACE)
for self.token != token.RIGHT_BRACE && self.token != token.EOF {
property := self.parseObjectProperty()
if property != nil {
value = append(value, property)
}
if self.token != token.RIGHT_BRACE {
self.expect(token.COMMA)
} else {
break
}
}
idx1 := self.expect(token.RIGHT_BRACE)
return &ast.ObjectLiteral{
LeftBrace: idx0,
RightBrace: idx1,
Value: value,
}
}
func (self *_parser) parseArrayLiteral() *ast.ArrayLiteral {
idx0 := self.expect(token.LEFT_BRACKET)
var value []ast.Expression
for self.token != token.RIGHT_BRACKET && self.token != token.EOF {
if self.token == token.COMMA {
self.next()
value = append(value, nil)
continue
}
if self.token == token.ELLIPSIS {
self.next()
value = append(value, &ast.SpreadElement{
Expression: self.parseAssignmentExpression(),
})
} else {
value = append(value, self.parseAssignmentExpression())
}
if self.token != token.RIGHT_BRACKET {
self.expect(token.COMMA)
}
}
idx1 := self.expect(token.RIGHT_BRACKET)
return &ast.ArrayLiteral{
LeftBracket: idx0,
RightBracket: idx1,
Value: value,
}
}
func (self *_parser) parseTemplateLiteral(tagged bool) *ast.TemplateLiteral {
res := &ast.TemplateLiteral{
OpenQuote: self.idx,
}
for {
start := self.offset
literal, parsed, finished, parseErr, err := self.parseTemplateCharacters()
if err != "" {
self.error(self.offset, err)
}
res.Elements = append(res.Elements, &ast.TemplateElement{
Idx: self.idxOf(start),
Literal: literal,
Parsed: parsed,
Valid: parseErr == "",
})
if !tagged && parseErr != "" {
self.error(self.offset, parseErr)
}
end := self.chrOffset - 1
self.next()
if finished {
res.CloseQuote = self.idxOf(end)
break
}
expr := self.parseExpression()
res.Expressions = append(res.Expressions, expr)
if self.token != token.RIGHT_BRACE {
self.errorUnexpectedToken(self.token)
}
}
return res
}
func (self *_parser) parseTaggedTemplateLiteral(tag ast.Expression) *ast.TemplateLiteral {
l := self.parseTemplateLiteral(true)
l.Tag = tag
return l
}
func (self *_parser) parseArgumentList() (argumentList []ast.Expression, idx0, idx1 file.Idx) {
idx0 = self.expect(token.LEFT_PARENTHESIS)
for self.token != token.RIGHT_PARENTHESIS {
var item ast.Expression
if self.token == token.ELLIPSIS {
self.next()
item = &ast.SpreadElement{
Expression: self.parseAssignmentExpression(),
}
} else {
item = self.parseAssignmentExpression()
}
argumentList = append(argumentList, item)
if self.token != token.COMMA {
break
}
self.next()
}
idx1 = self.expect(token.RIGHT_PARENTHESIS)
return
}
func (self *_parser) parseCallExpression(left ast.Expression) ast.Expression {
argumentList, idx0, idx1 := self.parseArgumentList()
return &ast.CallExpression{
Callee: left,
LeftParenthesis: idx0,
ArgumentList: argumentList,
RightParenthesis: idx1,
}
}
func (self *_parser) parseDotMember(left ast.Expression) ast.Expression {
period := self.idx
self.next()
literal := self.parsedLiteral
idx := self.idx
if self.token == token.PRIVATE_IDENTIFIER {
self.next()
return &ast.PrivateDotExpression{
Left: left,
Identifier: ast.PrivateIdentifier{
Identifier: ast.Identifier{
Idx: idx,
Name: literal,
},
},
}
}
if !token.IsId(self.token) {
self.expect(token.IDENTIFIER)
self.nextStatement()
return &ast.BadExpression{From: period, To: self.idx}
}
self.next()
return &ast.DotExpression{
Left: left,
Identifier: ast.Identifier{
Idx: idx,
Name: literal,
},
}
}
func (self *_parser) parseBracketMember(left ast.Expression) ast.Expression {
idx0 := self.expect(token.LEFT_BRACKET)
member := self.parseExpression()
idx1 := self.expect(token.RIGHT_BRACKET)
return &ast.BracketExpression{
LeftBracket: idx0,
Left: left,
Member: member,
RightBracket: idx1,
}
}
func (self *_parser) parseNewExpression() ast.Expression {
idx := self.expect(token.NEW)
if self.token == token.PERIOD {
self.next()
if self.literal == "target" {
return &ast.MetaProperty{
Meta: &ast.Identifier{
Name: unistring.String(token.NEW.String()),
Idx: idx,
},
Property: self.parseIdentifier(),
}
}
self.errorUnexpectedToken(token.IDENTIFIER)
}
callee := self.parseLeftHandSideExpression()
if bad, ok := callee.(*ast.BadExpression); ok {
bad.From = idx
return bad
}
node := &ast.NewExpression{
New: idx,
Callee: callee,
}
if self.token == token.LEFT_PARENTHESIS {
argumentList, idx0, idx1 := self.parseArgumentList()
node.ArgumentList = argumentList
node.LeftParenthesis = idx0
node.RightParenthesis = idx1
}
return node
}
func (self *_parser) parseLeftHandSideExpression() ast.Expression {
var left ast.Expression
if self.token == token.NEW {
left = self.parseNewExpression()
} else {
left = self.parsePrimaryExpression()
}
L:
for {
switch self.token {
case token.PERIOD:
left = self.parseDotMember(left)
case token.LEFT_BRACKET:
left = self.parseBracketMember(left)
case token.BACKTICK:
left = self.parseTaggedTemplateLiteral(left)
default:
break L
}
}
return left
}
func (self *_parser) parseLeftHandSideExpressionAllowCall() ast.Expression {
allowIn := self.scope.allowIn
self.scope.allowIn = true
defer func() {
self.scope.allowIn = allowIn
}()
var left ast.Expression
start := self.idx
if self.token == token.NEW {
left = self.parseNewExpression()
} else {
left = self.parsePrimaryExpression()
}
optionalChain := false
L:
for {
switch self.token {
case token.PERIOD:
left = self.parseDotMember(left)
case token.LEFT_BRACKET:
left = self.parseBracketMember(left)
case token.LEFT_PARENTHESIS:
left = self.parseCallExpression(left)
case token.BACKTICK:
if optionalChain {
self.error(self.idx, "Invalid template literal on optional chain")
self.nextStatement()
return &ast.BadExpression{From: start, To: self.idx}
}
left = self.parseTaggedTemplateLiteral(left)
case token.QUESTION_DOT:
optionalChain = true
left = &ast.Optional{Expression: left}
switch self.peek() {
case token.LEFT_BRACKET, token.LEFT_PARENTHESIS, token.BACKTICK:
self.next()
default:
left = self.parseDotMember(left)
}
default:
break L
}
}
if optionalChain {
left = &ast.OptionalChain{Expression: left}
}
return left
}
func (self *_parser) parseUpdateExpression() ast.Expression {
switch self.token {
case token.INCREMENT, token.DECREMENT:
tkn := self.token
idx := self.idx
self.next()
operand := self.parseUnaryExpression()
switch operand.(type) {
case *ast.Identifier, *ast.DotExpression, *ast.PrivateDotExpression, *ast.BracketExpression:
default:
self.error(idx, "Invalid left-hand side in assignment")
self.nextStatement()
return &ast.BadExpression{From: idx, To: self.idx}
}
return &ast.UnaryExpression{
Operator: tkn,
Idx: idx,
Operand: operand,
}
default:
operand := self.parseLeftHandSideExpressionAllowCall()
if self.token == token.INCREMENT || self.token == token.DECREMENT {
// Make sure there is no line terminator here
if self.implicitSemicolon {
return operand
}
tkn := self.token
idx := self.idx
self.next()
switch operand.(type) {
case *ast.Identifier, *ast.DotExpression, *ast.PrivateDotExpression, *ast.BracketExpression:
default:
self.error(idx, "Invalid left-hand side in assignment")
self.nextStatement()
return &ast.BadExpression{From: idx, To: self.idx}
}
return &ast.UnaryExpression{
Operator: tkn,
Idx: idx,
Operand: operand,
Postfix: true,
}
}
return operand
}
}
func (self *_parser) parseUnaryExpression() ast.Expression {
switch self.token {
case token.PLUS, token.MINUS, token.NOT, token.BITWISE_NOT:
fallthrough
case token.DELETE, token.VOID, token.TYPEOF:
tkn := self.token
idx := self.idx
self.next()
return &ast.UnaryExpression{
Operator: tkn,
Idx: idx,
Operand: self.parseUnaryExpression(),
}
case token.AWAIT:
if self.scope.allowAwait {
idx := self.idx
self.next()
if !self.scope.inAsync {
self.errorUnexpectedToken(token.AWAIT)
return &ast.BadExpression{
From: idx,
To: self.idx,
}
}
if self.scope.inFuncParams {
self.error(idx, "Illegal await-expression in formal parameters of async function")
}
return &ast.AwaitExpression{
Await: idx,
Argument: self.parseUnaryExpression(),
}
}
}
return self.parseUpdateExpression()
}
func (self *_parser) parseExponentiationExpression() ast.Expression {
parenthesis := self.token == token.LEFT_PARENTHESIS
left := self.parseUnaryExpression()
if self.token == token.EXPONENT {
if !parenthesis {
if u, isUnary := left.(*ast.UnaryExpression); isUnary && u.Operator != token.INCREMENT && u.Operator != token.DECREMENT {
self.error(self.idx, "Unary operator used immediately before exponentiation expression. Parenthesis must be used to disambiguate operator precedence")
}
}
for {
self.next()
left = &ast.BinaryExpression{
Operator: token.EXPONENT,
Left: left,
Right: self.parseExponentiationExpression(),
}
if self.token != token.EXPONENT {
break
}
}
}
return left
}
func (self *_parser) parseMultiplicativeExpression() ast.Expression {
left := self.parseExponentiationExpression()
for self.token == token.MULTIPLY || self.token == token.SLASH ||
self.token == token.REMAINDER {
tkn := self.token
self.next()
left = &ast.BinaryExpression{
Operator: tkn,
Left: left,
Right: self.parseExponentiationExpression(),
}
}
return left
}
func (self *_parser) parseAdditiveExpression() ast.Expression {
left := self.parseMultiplicativeExpression()
for self.token == token.PLUS || self.token == token.MINUS {
tkn := self.token
self.next()
left = &ast.BinaryExpression{
Operator: tkn,
Left: left,
Right: self.parseMultiplicativeExpression(),
}
}
return left
}
func (self *_parser) parseShiftExpression() ast.Expression {
left := self.parseAdditiveExpression()
for self.token == token.SHIFT_LEFT || self.token == token.SHIFT_RIGHT ||
self.token == token.UNSIGNED_SHIFT_RIGHT {
tkn := self.token
self.next()
left = &ast.BinaryExpression{
Operator: tkn,
Left: left,
Right: self.parseAdditiveExpression(),
}
}
return left
}
func (self *_parser) parseRelationalExpression() ast.Expression {
if self.scope.allowIn && self.token == token.PRIVATE_IDENTIFIER {
left := &ast.PrivateIdentifier{
Identifier: ast.Identifier{
Idx: self.idx,
Name: self.parsedLiteral,
},
}
self.next()
if self.token == token.IN {
self.next()
return &ast.BinaryExpression{
Operator: self.token,
Left: left,
Right: self.parseShiftExpression(),
}
}
return left
}
left := self.parseShiftExpression()
allowIn := self.scope.allowIn
self.scope.allowIn = true
defer func() {
self.scope.allowIn = allowIn
}()
switch self.token {
case token.LESS, token.LESS_OR_EQUAL, token.GREATER, token.GREATER_OR_EQUAL:
tkn := self.token
self.next()
return &ast.BinaryExpression{
Operator: tkn,
Left: left,
Right: self.parseRelationalExpression(),
Comparison: true,
}
case token.INSTANCEOF:
tkn := self.token
self.next()
return &ast.BinaryExpression{
Operator: tkn,
Left: left,
Right: self.parseRelationalExpression(),
}
case token.IN:
if !allowIn {
return left
}
tkn := self.token
self.next()
return &ast.BinaryExpression{
Operator: tkn,
Left: left,
Right: self.parseRelationalExpression(),
}
}
return left
}
func (self *_parser) parseEqualityExpression() ast.Expression {
left := self.parseRelationalExpression()
for self.token == token.EQUAL || self.token == token.NOT_EQUAL ||
self.token == token.STRICT_EQUAL || self.token == token.STRICT_NOT_EQUAL {
tkn := self.token
self.next()
left = &ast.BinaryExpression{
Operator: tkn,
Left: left,
Right: self.parseRelationalExpression(),
Comparison: true,
}
}
return left
}
func (self *_parser) parseBitwiseAndExpression() ast.Expression {
left := self.parseEqualityExpression()
for self.token == token.AND {
tkn := self.token
self.next()
left = &ast.BinaryExpression{
Operator: tkn,
Left: left,
Right: self.parseEqualityExpression(),
}
}
return left
}
func (self *_parser) parseBitwiseExclusiveOrExpression() ast.Expression {
left := self.parseBitwiseAndExpression()
for self.token == token.EXCLUSIVE_OR {
tkn := self.token
self.next()
left = &ast.BinaryExpression{
Operator: tkn,
Left: left,
Right: self.parseBitwiseAndExpression(),
}
}
return left
}
func (self *_parser) parseBitwiseOrExpression() ast.Expression {
left := self.parseBitwiseExclusiveOrExpression()
for self.token == token.OR {
tkn := self.token
self.next()
left = &ast.BinaryExpression{
Operator: tkn,
Left: left,
Right: self.parseBitwiseExclusiveOrExpression(),
}
}
return left
}
func (self *_parser) parseLogicalAndExpression() ast.Expression {
left := self.parseBitwiseOrExpression()
for self.token == token.LOGICAL_AND {
tkn := self.token
self.next()
left = &ast.BinaryExpression{
Operator: tkn,
Left: left,
Right: self.parseBitwiseOrExpression(),
}
}
return left
}
func isLogicalAndExpr(expr ast.Expression) bool {
if bexp, ok := expr.(*ast.BinaryExpression); ok && bexp.Operator == token.LOGICAL_AND {
return true
}
return false
}
func (self *_parser) parseLogicalOrExpression() ast.Expression {
var idx file.Idx
parenthesis := self.token == token.LEFT_PARENTHESIS
left := self.parseLogicalAndExpression()
if self.token == token.LOGICAL_OR || !parenthesis && isLogicalAndExpr(left) {
for {
switch self.token {
case token.LOGICAL_OR:
self.next()
left = &ast.BinaryExpression{
Operator: token.LOGICAL_OR,
Left: left,
Right: self.parseLogicalAndExpression(),
}
case token.COALESCE:
idx = self.idx
goto mixed
default:
return left
}
}
} else {
for {
switch self.token {
case token.COALESCE:
idx = self.idx
self.next()
parenthesis := self.token == token.LEFT_PARENTHESIS
right := self.parseLogicalAndExpression()
if !parenthesis && isLogicalAndExpr(right) {
goto mixed
}
left = &ast.BinaryExpression{
Operator: token.COALESCE,
Left: left,
Right: right,
}
case token.LOGICAL_OR:
idx = self.idx
goto mixed
default:
return left
}
}
}
mixed:
self.error(idx, "Logical expressions and coalesce expressions cannot be mixed. Wrap either by parentheses")
return left
}
func (self *_parser) parseConditionalExpression() ast.Expression {
left := self.parseLogicalOrExpression()
if self.token == token.QUESTION_MARK {
self.next()
allowIn := self.scope.allowIn
self.scope.allowIn = true
consequent := self.parseAssignmentExpression()
self.scope.allowIn = allowIn
self.expect(token.COLON)
return &ast.ConditionalExpression{
Test: left,
Consequent: consequent,
Alternate: self.parseAssignmentExpression(),
}
}
return left
}
func (self *_parser) parseArrowFunction(start file.Idx, paramList *ast.ParameterList, async bool) ast.Expression {
self.expect(token.ARROW)
node := &ast.ArrowFunctionLiteral{
Start: start,
ParameterList: paramList,
Async: async,
}
node.Body, node.DeclarationList = self.parseArrowFunctionBody(async)
node.Source = self.slice(start, node.Body.Idx1())
return node
}
func (self *_parser) parseSingleArgArrowFunction(start file.Idx, async bool) ast.Expression {
if async != self.scope.allowAwait {
self.scope.allowAwait = async
defer func() {
self.scope.allowAwait = !async
}()
}
self.tokenToBindingId()
if self.token != token.IDENTIFIER {
self.errorUnexpectedToken(self.token)
self.next()
return &ast.BadExpression{
From: start,
To: self.idx,
}
}
id := self.parseIdentifier()
paramList := &ast.ParameterList{
Opening: id.Idx,
Closing: id.Idx1(),
List: []*ast.Binding{{
Target: id,
}},
}
return self.parseArrowFunction(start, paramList, async)
}
func (self *_parser) parseAssignmentExpression() ast.Expression {
start := self.idx
parenthesis := false
async := false
var state parserState
switch self.token {
case token.LEFT_PARENTHESIS:
self.mark(&state)
parenthesis = true
case token.ASYNC:
tok := self.peek()
if self.isBindingId(tok) {
// async x => ...
self.next()
return self.parseSingleArgArrowFunction(start, true)
} else if tok == token.LEFT_PARENTHESIS {
self.mark(&state)
async = true
}
case token.YIELD:
if self.scope.allowYield {
return self.parseYieldExpression()
}
fallthrough
default:
self.tokenToBindingId()
}
left := self.parseConditionalExpression()
var operator token.Token
switch self.token {
case token.ASSIGN:
operator = self.token
case token.ADD_ASSIGN:
operator = token.PLUS
case token.SUBTRACT_ASSIGN:
operator = token.MINUS
case token.MULTIPLY_ASSIGN:
operator = token.MULTIPLY
case token.EXPONENT_ASSIGN:
operator = token.EXPONENT
case token.QUOTIENT_ASSIGN:
operator = token.SLASH
case token.REMAINDER_ASSIGN:
operator = token.REMAINDER
case token.AND_ASSIGN:
operator = token.AND
case token.OR_ASSIGN:
operator = token.OR
case token.EXCLUSIVE_OR_ASSIGN:
operator = token.EXCLUSIVE_OR
case token.SHIFT_LEFT_ASSIGN:
operator = token.SHIFT_LEFT
case token.SHIFT_RIGHT_ASSIGN:
operator = token.SHIFT_RIGHT
case token.UNSIGNED_SHIFT_RIGHT_ASSIGN:
operator = token.UNSIGNED_SHIFT_RIGHT
case token.ARROW:
var paramList *ast.ParameterList
if id, ok := left.(*ast.Identifier); ok {
paramList = &ast.ParameterList{
Opening: id.Idx,
Closing: id.Idx1() - 1,
List: []*ast.Binding{{
Target: id,
}},
}
} else if parenthesis {
if seq, ok := left.(*ast.SequenceExpression); ok && len(self.errors) == 0 {
paramList = self.reinterpretSequenceAsArrowFuncParams(seq.Sequence)
} else {
self.restore(&state)
paramList = self.parseFunctionParameterList()
}
} else if async {
// async (x, y) => ...
if !self.scope.allowAwait {
self.scope.allowAwait = true
defer func() {
self.scope.allowAwait = false
}()
}
if _, ok := left.(*ast.CallExpression); ok {
self.restore(&state)
self.next() // skip "async"
paramList = self.parseFunctionParameterList()
}
}
if paramList == nil {
self.error(left.Idx0(), "Malformed arrow function parameter list")
return &ast.BadExpression{From: left.Idx0(), To: left.Idx1()}
}
return self.parseArrowFunction(start, paramList, async)
}
if operator != 0 {
idx := self.idx
self.next()
ok := false
switch l := left.(type) {
case *ast.Identifier, *ast.DotExpression, *ast.PrivateDotExpression, *ast.BracketExpression:
ok = true
case *ast.ArrayLiteral:
if !parenthesis && operator == token.ASSIGN {
left = self.reinterpretAsArrayAssignmentPattern(l)
ok = true
}
case *ast.ObjectLiteral:
if !parenthesis && operator == token.ASSIGN {
left = self.reinterpretAsObjectAssignmentPattern(l)
ok = true
}
}
if ok {
return &ast.AssignExpression{
Left: left,
Operator: operator,
Right: self.parseAssignmentExpression(),
}
}
self.error(left.Idx0(), "Invalid left-hand side in assignment")
self.nextStatement()
return &ast.BadExpression{From: idx, To: self.idx}
}
return left
}
func (self *_parser) parseYieldExpression() ast.Expression {
idx := self.expect(token.YIELD)
if self.scope.inFuncParams {
self.error(idx, "Yield expression not allowed in formal parameter")
}
node := &ast.YieldExpression{
Yield: idx,
}
if !self.implicitSemicolon && self.token == token.MULTIPLY {
node.Delegate = true
self.next()
}
if !self.implicitSemicolon && self.token != token.SEMICOLON && self.token != token.RIGHT_BRACE && self.token != token.EOF {
var state parserState
self.mark(&state)
expr := self.parseAssignmentExpression()
if _, bad := expr.(*ast.BadExpression); bad {
expr = nil
self.restore(&state)
}
node.Argument = expr
}
return node
}
func (self *_parser) parseExpression() ast.Expression {
left := self.parseAssignmentExpression()
if self.token == token.COMMA {
sequence := []ast.Expression{left}
for {
if self.token != token.COMMA {
break
}
self.next()
sequence = append(sequence, self.parseAssignmentExpression())
}
return &ast.SequenceExpression{
Sequence: sequence,
}
}
return left
}
func (self *_parser) checkComma(from, to file.Idx) {
if pos := strings.IndexByte(self.str[int(from)-self.base:int(to)-self.base], ','); pos >= 0 {
self.error(from+file.Idx(pos), "Comma is not allowed here")
}
}
func (self *_parser) reinterpretAsArrayAssignmentPattern(left *ast.ArrayLiteral) ast.Expression {
value := left.Value
var rest ast.Expression
for i, item := range value {
if spread, ok := item.(*ast.SpreadElement); ok {
if i != len(value)-1 {
self.error(item.Idx0(), "Rest element must be last element")
return &ast.BadExpression{From: left.Idx0(), To: left.Idx1()}
}
self.checkComma(spread.Expression.Idx1(), left.RightBracket)
rest = self.reinterpretAsDestructAssignTarget(spread.Expression)
value = value[:len(value)-1]
} else {
value[i] = self.reinterpretAsAssignmentElement(item)
}
}
return &ast.ArrayPattern{
LeftBracket: left.LeftBracket,
RightBracket: left.RightBracket,
Elements: value,
Rest: rest,
}
}
func (self *_parser) reinterpretArrayAssignPatternAsBinding(pattern *ast.ArrayPattern) *ast.ArrayPattern {
for i, item := range pattern.Elements {
pattern.Elements[i] = self.reinterpretAsDestructBindingTarget(item)
}
if pattern.Rest != nil {
pattern.Rest = self.reinterpretAsDestructBindingTarget(pattern.Rest)
}
return pattern
}
func (self *_parser) reinterpretAsArrayBindingPattern(left *ast.ArrayLiteral) ast.BindingTarget {
value := left.Value
var rest ast.Expression
for i, item := range value {
if spread, ok := item.(*ast.SpreadElement); ok {
if i != len(value)-1 {
self.error(item.Idx0(), "Rest element must be last element")
return &ast.BadExpression{From: left.Idx0(), To: left.Idx1()}
}
self.checkComma(spread.Expression.Idx1(), left.RightBracket)
rest = self.reinterpretAsDestructBindingTarget(spread.Expression)
value = value[:len(value)-1]
} else {
value[i] = self.reinterpretAsBindingElement(item)
}
}
return &ast.ArrayPattern{
LeftBracket: left.LeftBracket,
RightBracket: left.RightBracket,
Elements: value,
Rest: rest,
}
}
func (self *_parser) parseArrayBindingPattern() ast.BindingTarget {
return self.reinterpretAsArrayBindingPattern(self.parseArrayLiteral())
}
func (self *_parser) parseObjectBindingPattern() ast.BindingTarget {
return self.reinterpretAsObjectBindingPattern(self.parseObjectLiteral())
}
func (self *_parser) reinterpretArrayObjectPatternAsBinding(pattern *ast.ObjectPattern) *ast.ObjectPattern {
for _, prop := range pattern.Properties {
if keyed, ok := prop.(*ast.PropertyKeyed); ok {
keyed.Value = self.reinterpretAsBindingElement(keyed.Value)
}
}
if pattern.Rest != nil {
pattern.Rest = self.reinterpretAsBindingRestElement(pattern.Rest)
}
return pattern
}
func (self *_parser) reinterpretAsObjectBindingPattern(expr *ast.ObjectLiteral) ast.BindingTarget {
var rest ast.Expression
value := expr.Value
for i, prop := range value {
ok := false
switch prop := prop.(type) {
case *ast.PropertyKeyed:
if prop.Kind == ast.PropertyKindValue {
prop.Value = self.reinterpretAsBindingElement(prop.Value)
ok = true
}
case *ast.PropertyShort:
ok = true
case *ast.SpreadElement:
if i != len(expr.Value)-1 {
self.error(prop.Idx0(), "Rest element must be last element")
return &ast.BadExpression{From: expr.Idx0(), To: expr.Idx1()}
}
// TODO make sure there is no trailing comma
rest = self.reinterpretAsBindingRestElement(prop.Expression)
value = value[:i]
ok = true
}
if !ok {
self.error(prop.Idx0(), "Invalid destructuring binding target")
return &ast.BadExpression{From: expr.Idx0(), To: expr.Idx1()}
}
}
return &ast.ObjectPattern{
LeftBrace: expr.LeftBrace,
RightBrace: expr.RightBrace,
Properties: value,
Rest: rest,
}
}
func (self *_parser) reinterpretAsObjectAssignmentPattern(l *ast.ObjectLiteral) ast.Expression {
var rest ast.Expression
value := l.Value
for i, prop := range value {
ok := false
switch prop := prop.(type) {
case *ast.PropertyKeyed:
if prop.Kind == ast.PropertyKindValue {
prop.Value = self.reinterpretAsAssignmentElement(prop.Value)
ok = true
}
case *ast.PropertyShort:
ok = true
case *ast.SpreadElement:
if i != len(l.Value)-1 {
self.error(prop.Idx0(), "Rest element must be last element")
return &ast.BadExpression{From: l.Idx0(), To: l.Idx1()}
}
// TODO make sure there is no trailing comma
rest = prop.Expression
value = value[:i]
ok = true
}
if !ok {
self.error(prop.Idx0(), "Invalid destructuring assignment target")
return &ast.BadExpression{From: l.Idx0(), To: l.Idx1()}
}
}
return &ast.ObjectPattern{
LeftBrace: l.LeftBrace,
RightBrace: l.RightBrace,
Properties: value,
Rest: rest,
}
}
func (self *_parser) reinterpretAsAssignmentElement(expr ast.Expression) ast.Expression {
switch expr := expr.(type) {
case *ast.AssignExpression:
if expr.Operator == token.ASSIGN {
expr.Left = self.reinterpretAsDestructAssignTarget(expr.Left)
return expr
} else {
self.error(expr.Idx0(), "Invalid destructuring assignment target")
return &ast.BadExpression{From: expr.Idx0(), To: expr.Idx1()}
}
default:
return self.reinterpretAsDestructAssignTarget(expr)
}
}
func (self *_parser) reinterpretAsBindingElement(expr ast.Expression) ast.Expression {
switch expr := expr.(type) {
case *ast.AssignExpression:
if expr.Operator == token.ASSIGN {
expr.Left = self.reinterpretAsDestructBindingTarget(expr.Left)
return expr
} else {
self.error(expr.Idx0(), "Invalid destructuring assignment target")
return &ast.BadExpression{From: expr.Idx0(), To: expr.Idx1()}
}
default:
return self.reinterpretAsDestructBindingTarget(expr)
}
}
func (self *_parser) reinterpretAsBinding(expr ast.Expression) *ast.Binding {
switch expr := expr.(type) {
case *ast.AssignExpression:
if expr.Operator == token.ASSIGN {
return &ast.Binding{
Target: self.reinterpretAsDestructBindingTarget(expr.Left),
Initializer: expr.Right,
}
} else {
self.error(expr.Idx0(), "Invalid destructuring assignment target")
return &ast.Binding{
Target: &ast.BadExpression{From: expr.Idx0(), To: expr.Idx1()},
}
}
default:
return &ast.Binding{
Target: self.reinterpretAsDestructBindingTarget(expr),
}
}
}
func (self *_parser) reinterpretAsDestructAssignTarget(item ast.Expression) ast.Expression {
switch item := item.(type) {
case nil:
return nil
case *ast.ArrayLiteral:
return self.reinterpretAsArrayAssignmentPattern(item)
case *ast.ObjectLiteral:
return self.reinterpretAsObjectAssignmentPattern(item)
case ast.Pattern, *ast.Identifier, *ast.DotExpression, *ast.PrivateDotExpression, *ast.BracketExpression:
return item
}
self.error(item.Idx0(), "Invalid destructuring assignment target")
return &ast.BadExpression{From: item.Idx0(), To: item.Idx1()}
}
func (self *_parser) reinterpretAsDestructBindingTarget(item ast.Expression) ast.BindingTarget {
switch item := item.(type) {
case nil:
return nil
case *ast.ArrayPattern:
return self.reinterpretArrayAssignPatternAsBinding(item)
case *ast.ObjectPattern:
return self.reinterpretArrayObjectPatternAsBinding(item)
case *ast.ArrayLiteral:
return self.reinterpretAsArrayBindingPattern(item)
case *ast.ObjectLiteral:
return self.reinterpretAsObjectBindingPattern(item)
case *ast.Identifier:
if !self.scope.allowAwait || item.Name != "await" {
return item
}
}
self.error(item.Idx0(), "Invalid destructuring binding target")
return &ast.BadExpression{From: item.Idx0(), To: item.Idx1()}
}
func (self *_parser) reinterpretAsBindingRestElement(expr ast.Expression) ast.Expression {
if _, ok := expr.(*ast.Identifier); ok {
return expr
}
self.error(expr.Idx0(), "Invalid binding rest")
return &ast.BadExpression{From: expr.Idx0(), To: expr.Idx1()}
}
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