console: seed random number generator

This commit is contained in:
Bas van Kervel 2016-02-19 12:06:58 +01:00
parent aa36a6ae4f
commit 6777531a2d
12 changed files with 815 additions and 46 deletions

2
Godeps/Godeps.json generated

@ -84,7 +84,7 @@
},
{
"ImportPath": "github.com/robertkrimen/otto",
"Rev": "c21072f61b64b51ea58138ccacf0a85d54b9f07c"
"Rev": "53221230c215611a90762720c9042ac782ef74ee"
},
{
"ImportPath": "github.com/syndtr/goleveldb/leveldb",

@ -0,0 +1,92 @@
package ast
import (
"fmt"
"github.com/robertkrimen/otto/file"
)
// CommentPosition determines where the comment is in a given context
type CommentPosition int
const (
_ CommentPosition = iota
LEADING // Before the pertinent expression
TRAILING // After the pertinent expression
KEY // After a key or keyword
COLON // After a colon in a field declaration
FINAL // Final comments in a block, not belonging to a specific expression or the comment after a trailing , in an array or object literal
TBD
)
// Comment contains the data of the comment
type Comment struct {
Begin file.Idx
Text string
Position CommentPosition
}
// String returns a stringified version of the position
func (cp CommentPosition) String() string {
switch cp {
case LEADING:
return "Leading"
case TRAILING:
return "Trailing"
case KEY:
return "Key"
case COLON:
return "Colon"
case FINAL:
return "Final"
default:
return "???"
}
}
// String returns a stringified version of the comment
func (c Comment) String() string {
return fmt.Sprintf("Comment: %v", c.Text)
}
// CommentMap is the data structure where all found comments are stored
type CommentMap map[Node][]*Comment
// AddComment adds a single comment to the map
func (cm CommentMap) AddComment(node Node, comment *Comment) {
list := cm[node]
list = append(list, comment)
cm[node] = list
}
// AddComments adds a slice of comments, given a node and an updated position
func (cm CommentMap) AddComments(node Node, comments []*Comment, position CommentPosition) {
for _, comment := range comments {
comment.Position = position
cm.AddComment(node, comment)
}
}
// Size returns the size of the map
func (cm CommentMap) Size() int {
size := 0
for _, comments := range cm {
size += len(comments)
}
return size
}
// MoveComments moves comments with a given position from a node to another
func (cm CommentMap) MoveComments(from, to Node, position CommentPosition) {
for i, c := range cm[from] {
if c.Position == position {
cm.AddComment(to, c)
// Remove the comment from the "from" slice
cm[from][i] = cm[from][len(cm[from])-1]
cm[from][len(cm[from])-1] = nil
cm[from] = cm[from][:len(cm[from])-1]
}
}
}

@ -86,6 +86,11 @@ type (
Identifier Identifier
}
EmptyExpression struct {
Begin file.Idx
End file.Idx
}
FunctionLiteral struct {
Function file.Idx
Name *Identifier
@ -185,6 +190,7 @@ func (*BracketExpression) _expressionNode() {}
func (*CallExpression) _expressionNode() {}
func (*ConditionalExpression) _expressionNode() {}
func (*DotExpression) _expressionNode() {}
func (*EmptyExpression) _expressionNode() {}
func (*FunctionLiteral) _expressionNode() {}
func (*Identifier) _expressionNode() {}
func (*NewExpression) _expressionNode() {}
@ -399,6 +405,7 @@ func (self *BracketExpression) Idx0() file.Idx { return self.Left.Idx0() }
func (self *CallExpression) Idx0() file.Idx { return self.Callee.Idx0() }
func (self *ConditionalExpression) Idx0() file.Idx { return self.Test.Idx0() }
func (self *DotExpression) Idx0() file.Idx { return self.Left.Idx0() }
func (self *EmptyExpression) Idx0() file.Idx { return self.Begin }
func (self *FunctionLiteral) Idx0() file.Idx { return self.Function }
func (self *Identifier) Idx0() file.Idx { return self.Idx }
func (self *NewExpression) Idx0() file.Idx { return self.New }
@ -447,6 +454,7 @@ func (self *BracketExpression) Idx1() file.Idx { return self.RightBracket +
func (self *CallExpression) Idx1() file.Idx { return self.RightParenthesis + 1 }
func (self *ConditionalExpression) Idx1() file.Idx { return self.Test.Idx1() }
func (self *DotExpression) Idx1() file.Idx { return self.Identifier.Idx1() }
func (self *EmptyExpression) Idx1() file.Idx { return self.End }
func (self *FunctionLiteral) Idx1() file.Idx { return self.Body.Idx1() }
func (self *Identifier) Idx1() file.Idx { return file.Idx(int(self.Idx) + len(self.Name)) }
func (self *NewExpression) Idx1() file.Idx { return self.RightParenthesis + 1 }

@ -117,7 +117,13 @@ func builtinMath_pow(call FunctionCall) Value {
}
func builtinMath_random(call FunctionCall) Value {
return toValue_float64(rand.Float64())
var v float64
if call.runtime.random != nil {
v = call.runtime.random()
} else {
v = rand.Float64()
}
return toValue_float64(v)
}
func builtinMath_round(call FunctionCall) Value {

@ -82,6 +82,9 @@ func (cmpl *_compiler) parseExpression(in ast.Expression) _nodeExpression {
identifier: in.Identifier.Name,
}
case *ast.EmptyExpression:
return nil
case *ast.FunctionLiteral:
name := ""
if in.Name != nil {

@ -363,6 +363,10 @@ func (self Otto) SetDebuggerHandler(fn func(vm *Otto)) {
self.runtime.debugger = fn
}
func (self Otto) SetRandomSource(fn func() float64) {
self.runtime.random = fn
}
// Context is a structure that contains information about the current execution
// context.
type Context struct {

@ -12,10 +12,14 @@ func (self *_parser) parseIdentifier() *ast.Identifier {
literal := self.literal
idx := self.idx
self.next()
return &ast.Identifier{
comments := self.findComments(false)
exp := &ast.Identifier{
Name: literal,
Idx: idx,
}
self.commentMap.AddComments(exp, comments, ast.TRAILING)
return exp
}
func (self *_parser) parsePrimaryExpression() ast.Expression {
@ -196,11 +200,20 @@ func (self *_parser) parseVariableDeclarationList(var_ file.Idx) []ast.Expressio
var list []ast.Expression
for {
list = append(list, self.parseVariableDeclaration(&declarationList))
comments := self.findComments(false)
decl := self.parseVariableDeclaration(&declarationList)
if self.mode&StoreComments != 0 {
self.commentMap.AddComments(decl, comments, ast.LEADING)
self.commentMap.AddComments(decl, self.findComments(false), ast.TRAILING)
}
list = append(list, decl)
if self.token != token.COMMA {
break
}
self.next()
}
self.scope.declare(&ast.VariableDeclaration{
@ -211,10 +224,13 @@ func (self *_parser) parseVariableDeclarationList(var_ file.Idx) []ast.Expressio
return list
}
func (self *_parser) parseObjectPropertyKey() (string, string) {
func (self *_parser) parseObjectPropertyKey() (string, string, []*ast.Comment) {
idx, tkn, literal := self.idx, self.token, self.literal
value := ""
self.next()
comments := self.findComments(false)
switch tkn {
case token.IDENTIFIER:
value = literal
@ -238,15 +254,14 @@ func (self *_parser) parseObjectPropertyKey() (string, string) {
value = literal
}
}
return literal, value
return literal, value, comments
}
func (self *_parser) parseObjectProperty() ast.Property {
literal, value := self.parseObjectPropertyKey()
literal, value, comments := self.parseObjectPropertyKey()
if literal == "get" && self.token != token.COLON {
idx := self.idx
_, value := self.parseObjectPropertyKey()
_, value, _ := self.parseObjectPropertyKey()
parameterList := self.parseFunctionParameterList()
node := &ast.FunctionLiteral{
@ -261,7 +276,7 @@ func (self *_parser) parseObjectProperty() ast.Property {
}
} else if literal == "set" && self.token != token.COLON {
idx := self.idx
_, value := self.parseObjectPropertyKey()
_, value, _ := self.parseObjectPropertyKey()
parameterList := self.parseFunctionParameterList()
node := &ast.FunctionLiteral{
@ -277,63 +292,128 @@ func (self *_parser) parseObjectProperty() ast.Property {
}
self.expect(token.COLON)
comments2 := self.findComments(false)
return ast.Property{
exp := ast.Property{
Key: value,
Kind: "value",
Value: self.parseAssignmentExpression(),
}
if self.mode&StoreComments != 0 {
self.commentMap.AddComments(exp.Value, comments, ast.KEY)
self.commentMap.AddComments(exp.Value, comments2, ast.COLON)
}
return exp
}
func (self *_parser) parseObjectLiteral() ast.Expression {
var value []ast.Property
idx0 := self.expect(token.LEFT_BRACE)
var comments2 []*ast.Comment
for self.token != token.RIGHT_BRACE && self.token != token.EOF {
// Leading comments for object literal
comments := self.findComments(false)
property := self.parseObjectProperty()
if self.mode&StoreComments != 0 {
self.commentMap.AddComments(property.Value, comments, ast.LEADING)
self.commentMap.AddComments(property.Value, comments2, ast.LEADING)
}
value = append(value, property)
if self.token == token.COMMA {
self.next()
// Find leading comments after trailing comma
comments2 = self.findComments(false)
continue
}
}
idx1 := self.expect(token.RIGHT_BRACE)
return &ast.ObjectLiteral{
exp := &ast.ObjectLiteral{
LeftBrace: idx0,
RightBrace: idx1,
Value: value,
}
if self.mode&StoreComments != 0 {
self.commentMap.AddComments(exp, comments2, ast.FINAL)
}
self.consumeComments(exp, ast.FINAL)
return exp
}
func (self *_parser) parseArrayLiteral() ast.Expression {
idx0 := self.expect(token.LEFT_BRACKET)
var comments2 []*ast.Comment
var comments []*ast.Comment
var value []ast.Expression
for self.token != token.RIGHT_BRACKET && self.token != token.EOF {
// Find leading comments for both empty and non-empty expressions
comments = self.findComments(false)
if self.token == token.COMMA {
self.next()
value = append(value, nil)
// This kind of comment requires a special empty expression node.
empty := &ast.EmptyExpression{self.idx, self.idx}
if self.mode&StoreComments != 0 {
self.commentMap.AddComments(empty, comments, ast.LEADING)
self.commentMap.AddComments(empty, comments2, ast.LEADING)
}
value = append(value, empty)
// This comment belongs to the following expression, or trailing
comments2 = self.findComments(false)
continue
}
value = append(value, self.parseAssignmentExpression())
exp := self.parseAssignmentExpression()
if self.mode&StoreComments != 0 {
self.commentMap.AddComments(exp, comments, ast.LEADING)
self.commentMap.AddComments(exp, comments2, ast.LEADING)
}
value = append(value, exp)
if self.token != token.RIGHT_BRACKET {
self.expect(token.COMMA)
}
// This comment belongs to the following expression, or trailing
comments2 = self.findComments(false)
}
idx1 := self.expect(token.RIGHT_BRACKET)
return &ast.ArrayLiteral{
array := &ast.ArrayLiteral{
LeftBracket: idx0,
RightBracket: idx1,
Value: value,
}
// This is where comments after a possible trailing comma are added
if self.mode&StoreComments != 0 {
self.commentMap.AddComments(array, comments2, ast.FINAL)
}
return array
}
func (self *_parser) parseArgumentList() (argumentList []ast.Expression, idx0, idx1 file.Idx) {
idx0 = self.expect(token.LEFT_PARENTHESIS)
if self.token != token.RIGHT_PARENTHESIS {
for {
argumentList = append(argumentList, self.parseAssignmentExpression())
comments := self.findComments(false)
exp := self.parseAssignmentExpression()
if self.mode&StoreComments != 0 {
self.commentMap.AddComments(exp, comments, ast.LEADING)
}
argumentList = append(argumentList, exp)
if self.token != token.COMMA {
break
}
@ -346,12 +426,17 @@ func (self *_parser) parseArgumentList() (argumentList []ast.Expression, idx0, i
func (self *_parser) parseCallExpression(left ast.Expression) ast.Expression {
argumentList, idx0, idx1 := self.parseArgumentList()
return &ast.CallExpression{
exp := &ast.CallExpression{
Callee: left,
LeftParenthesis: idx0,
ArgumentList: argumentList,
RightParenthesis: idx1,
}
if self.mode&StoreComments != 0 {
self.commentMap.AddComments(exp, self.findComments(false), ast.TRAILING)
}
return exp
}
func (self *_parser) parseDotMember(left ast.Expression) ast.Expression {
@ -402,6 +487,11 @@ func (self *_parser) parseNewExpression() ast.Expression {
node.LeftParenthesis = idx0
node.RightParenthesis = idx1
}
if self.mode&StoreComments != 0 {
self.commentMap.AddComments(node, self.findComments(false), ast.TRAILING)
}
return node
}
@ -414,6 +504,10 @@ func (self *_parser) parseLeftHandSideExpression() ast.Expression {
left = self.parsePrimaryExpression()
}
if self.mode&StoreComments != 0 {
self.commentMap.AddComments(left, self.findComments(false), ast.TRAILING)
}
for {
if self.token == token.PERIOD {
left = self.parseDotMember(left)
@ -442,6 +536,10 @@ func (self *_parser) parseLeftHandSideExpressionAllowCall() ast.Expression {
left = self.parsePrimaryExpression()
}
if self.mode&StoreComments != 0 {
self.commentMap.AddComments(left, self.findComments(false), ast.TRAILING)
}
for {
if self.token == token.PERIOD {
left = self.parseDotMember(left)
@ -476,12 +574,18 @@ func (self *_parser) parsePostfixExpression() ast.Expression {
self.nextStatement()
return &ast.BadExpression{From: idx, To: self.idx}
}
return &ast.UnaryExpression{
exp := &ast.UnaryExpression{
Operator: tkn,
Idx: idx,
Operand: operand,
Postfix: true,
}
if self.mode&StoreComments != 0 {
self.commentMap.AddComments(exp, self.findComments(false), ast.TRAILING)
}
return exp
}
return operand
@ -496,16 +600,30 @@ func (self *_parser) parseUnaryExpression() ast.Expression {
tkn := self.token
idx := self.idx
self.next()
return &ast.UnaryExpression{
comments := self.findComments(false)
exp := &ast.UnaryExpression{
Operator: tkn,
Idx: idx,
Operand: self.parseUnaryExpression(),
}
if self.mode&StoreComments != 0 {
self.commentMap.AddComments(exp.Operand, comments, ast.LEADING)
}
return exp
case token.INCREMENT, token.DECREMENT:
tkn := self.token
idx := self.idx
self.next()
comments := self.findComments(false)
operand := self.parseUnaryExpression()
if self.mode&StoreComments != 0 {
self.commentMap.AddComments(operand, comments, ast.LEADING)
}
switch operand.(type) {
case *ast.Identifier, *ast.DotExpression, *ast.BracketExpression:
default:
@ -531,11 +649,18 @@ func (self *_parser) parseMultiplicativeExpression() ast.Expression {
self.token == token.REMAINDER {
tkn := self.token
self.next()
comments := self.findComments(false)
left = &ast.BinaryExpression{
Operator: tkn,
Left: left,
Right: next(),
}
if self.mode&StoreComments != 0 {
self.commentMap.AddComments(left.(*ast.BinaryExpression).Right, comments, ast.LEADING)
}
}
return left
@ -548,11 +673,18 @@ func (self *_parser) parseAdditiveExpression() ast.Expression {
for self.token == token.PLUS || self.token == token.MINUS {
tkn := self.token
self.next()
comments := self.findComments(false)
left = &ast.BinaryExpression{
Operator: tkn,
Left: left,
Right: next(),
}
if self.mode&StoreComments != 0 {
self.commentMap.AddComments(left.(*ast.BinaryExpression).Right, comments, ast.LEADING)
}
}
return left
@ -566,11 +698,18 @@ func (self *_parser) parseShiftExpression() ast.Expression {
self.token == token.UNSIGNED_SHIFT_RIGHT {
tkn := self.token
self.next()
comments := self.findComments(false)
left = &ast.BinaryExpression{
Operator: tkn,
Left: left,
Right: next(),
}
if self.mode&StoreComments != 0 {
self.commentMap.AddComments(left.(*ast.BinaryExpression).Right, comments, ast.LEADING)
}
}
return left
@ -590,31 +729,55 @@ func (self *_parser) parseRelationalExpression() ast.Expression {
case token.LESS, token.LESS_OR_EQUAL, token.GREATER, token.GREATER_OR_EQUAL:
tkn := self.token
self.next()
return &ast.BinaryExpression{
comments := self.findComments(false)
exp := &ast.BinaryExpression{
Operator: tkn,
Left: left,
Right: self.parseRelationalExpression(),
Comparison: true,
}
if self.mode&StoreComments != 0 {
self.commentMap.AddComments(exp.Right, comments, ast.LEADING)
}
return exp
case token.INSTANCEOF:
tkn := self.token
self.next()
return &ast.BinaryExpression{
comments := self.findComments(false)
exp := &ast.BinaryExpression{
Operator: tkn,
Left: left,
Right: self.parseRelationalExpression(),
}
if self.mode&StoreComments != 0 {
self.commentMap.AddComments(exp.Right, comments, ast.LEADING)
}
return exp
case token.IN:
if !allowIn {
return left
}
tkn := self.token
self.next()
return &ast.BinaryExpression{
comments := self.findComments(false)
exp := &ast.BinaryExpression{
Operator: tkn,
Left: left,
Right: self.parseRelationalExpression(),
}
if self.mode&StoreComments != 0 {
self.commentMap.AddComments(exp.Right, comments, ast.LEADING)
}
return exp
}
return left
@ -628,12 +791,19 @@ func (self *_parser) parseEqualityExpression() ast.Expression {
self.token == token.STRICT_EQUAL || self.token == token.STRICT_NOT_EQUAL {
tkn := self.token
self.next()
comments := self.findComments(false)
left = &ast.BinaryExpression{
Operator: tkn,
Left: left,
Right: next(),
Comparison: true,
}
if self.mode&StoreComments != 0 {
self.commentMap.AddComments(left.(*ast.BinaryExpression).Right, comments, ast.LEADING)
}
}
return left
@ -646,11 +816,18 @@ func (self *_parser) parseBitwiseAndExpression() ast.Expression {
for self.token == token.AND {
tkn := self.token
self.next()
comments := self.findComments(false)
left = &ast.BinaryExpression{
Operator: tkn,
Left: left,
Right: next(),
}
if self.mode&StoreComments != 0 {
self.commentMap.AddComments(left.(*ast.BinaryExpression).Right, comments, ast.LEADING)
}
}
return left
@ -663,11 +840,18 @@ func (self *_parser) parseBitwiseExclusiveOrExpression() ast.Expression {
for self.token == token.EXCLUSIVE_OR {
tkn := self.token
self.next()
comments := self.findComments(false)
left = &ast.BinaryExpression{
Operator: tkn,
Left: left,
Right: next(),
}
if self.mode&StoreComments != 0 {
self.commentMap.AddComments(left.(*ast.BinaryExpression).Right, comments, ast.LEADING)
}
}
return left
@ -680,11 +864,18 @@ func (self *_parser) parseBitwiseOrExpression() ast.Expression {
for self.token == token.OR {
tkn := self.token
self.next()
comments := self.findComments(false)
left = &ast.BinaryExpression{
Operator: tkn,
Left: left,
Right: next(),
}
if self.mode&StoreComments != 0 {
self.commentMap.AddComments(left.(*ast.BinaryExpression).Right, comments, ast.LEADING)
}
}
return left
@ -697,11 +888,18 @@ func (self *_parser) parseLogicalAndExpression() ast.Expression {
for self.token == token.LOGICAL_AND {
tkn := self.token
self.next()
comments := self.findComments(false)
left = &ast.BinaryExpression{
Operator: tkn,
Left: left,
Right: next(),
}
if self.mode&StoreComments != 0 {
self.commentMap.AddComments(left.(*ast.BinaryExpression).Right, comments, ast.LEADING)
}
}
return left
@ -714,11 +912,18 @@ func (self *_parser) parseLogicalOrExpression() ast.Expression {
for self.token == token.LOGICAL_OR {
tkn := self.token
self.next()
comments := self.findComments(false)
left = &ast.BinaryExpression{
Operator: tkn,
Left: left,
Right: next(),
}
if self.mode&StoreComments != 0 {
self.commentMap.AddComments(left.(*ast.BinaryExpression).Right, comments, ast.LEADING)
}
}
return left
@ -729,13 +934,29 @@ func (self *_parser) parseConditionlExpression() ast.Expression {
if self.token == token.QUESTION_MARK {
self.next()
// Comments before the consequence
comments1 := self.findComments(false)
consequent := self.parseAssignmentExpression()
if self.mode&StoreComments != 0 {
self.commentMap.AddComments(consequent, comments1, ast.LEADING)
}
self.expect(token.COLON)
return &ast.ConditionalExpression{
// Comments before the alternate
comments2 := self.findComments(false)
exp := &ast.ConditionalExpression{
Test: left,
Consequent: consequent,
Alternate: self.parseAssignmentExpression(),
}
if self.mode&StoreComments != 0 {
self.commentMap.AddComments(exp.Alternate, comments2, ast.LEADING)
}
return exp
}
return left
@ -783,17 +1004,30 @@ func (self *_parser) parseAssignmentExpression() ast.Expression {
self.nextStatement()
return &ast.BadExpression{From: idx, To: self.idx}
}
return &ast.AssignExpression{
comments := self.findComments(false)
exp := &ast.AssignExpression{
Left: left,
Operator: operator,
Right: self.parseAssignmentExpression(),
}
if self.mode&StoreComments != 0 {
self.commentMap.AddComments(exp.Right, comments, ast.LEADING)
}
return exp
}
return left
}
func (self *_parser) parseExpression() ast.Expression {
comments := self.findComments(false)
statementComments := self.fetchComments()
next := self.parseAssignmentExpression
left := next()
@ -811,5 +1045,10 @@ func (self *_parser) parseExpression() ast.Expression {
}
}
if self.mode&StoreComments != 0 {
self.commentMap.AddComments(left, comments, ast.LEADING)
self.commentMap.AddComments(left, statementComments, ast.LEADING)
}
return left
}

@ -120,6 +120,7 @@ func isLineTerminator(chr rune) bool {
func (self *_parser) scan() (tkn token.Token, literal string, idx file.Idx) {
self.implicitSemicolon = false
self.skippedLineBreak = false
for {
self.skipWhiteSpace()
@ -238,9 +239,20 @@ func (self *_parser) scan() (tkn token.Token, literal string, idx file.Idx) {
tkn = self.switch2(token.MULTIPLY, token.MULTIPLY_ASSIGN)
case '/':
if self.chr == '/' {
if self.mode&StoreComments != 0 {
runes := self.readSingleLineComment()
literal = string(runes)
tkn = token.COMMENT
return
}
self.skipSingleLineComment()
continue
} else if self.chr == '*' {
if self.mode&StoreComments != 0 {
literal = string(self.readMultiLineComment())
tkn = token.COMMENT
return
}
self.skipMultiLineComment()
continue
} else {
@ -411,6 +423,39 @@ func (self *_RegExp_parser) read() {
}
}
func (self *_parser) readSingleLineComment() (result []rune) {
for self.chr != -1 {
self.read()
if isLineTerminator(self.chr) {
return
}
result = append(result, self.chr)
}
// Get rid of the trailing -1
result = result[:len(result)-1]
return
}
func (self *_parser) readMultiLineComment() (result []rune) {
self.read()
for self.chr >= 0 {
chr := self.chr
self.read()
if chr == '*' && self.chr == '/' {
self.read()
return
}
result = append(result, chr)
}
self.errorUnexpected(0, self.chr)
return
}
func (self *_parser) skipSingleLineComment() {
for self.chr != -1 {
self.read()
@ -442,6 +487,7 @@ func (self *_parser) skipWhiteSpace() {
continue
case '\r':
if self._peek() == '\n' {
self.skippedLineBreak = true
self.read()
}
fallthrough
@ -449,6 +495,7 @@ func (self *_parser) skipWhiteSpace() {
if self.insertSemicolon {
return
}
self.skippedLineBreak = true
self.read()
continue
}

@ -49,12 +49,13 @@ type Mode uint
const (
IgnoreRegExpErrors Mode = 1 << iota // Ignore RegExp compatibility errors (allow backtracking)
StoreComments // Store the comments from source to the comments map
)
type _parser struct {
str string
length int
base int
str string
length int
base int
chr rune // The current character
chrOffset int // The offset of current character
@ -79,15 +80,22 @@ type _parser struct {
mode Mode
file *file.File
comments []*ast.Comment
commentMap *ast.CommentMap
skippedLineBreak bool
}
func _newParser(filename, src string, base int) *_parser {
return &_parser{
chr: ' ', // This is set so we can start scanning by skipping whitespace
str: src,
length: len(src),
base: base,
file: file.NewFile(filename, src, base),
chr: ' ', // This is set so we can start scanning by skipping whitespace
str: src,
length: len(src),
base: base,
file: file.NewFile(filename, src, base),
comments: make([]*ast.Comment, 0),
commentMap: &ast.CommentMap{},
skippedLineBreak: false,
}
}
@ -184,6 +192,9 @@ func (self *_parser) parse() (*ast.Program, error) {
if false {
self.errors.Sort()
}
self.addCommentStatements(program, ast.FINAL)
return program, self.errors.Err()
}
@ -270,3 +281,63 @@ func (self *_parser) position(idx file.Idx) file.Position {
return position
}
// findComments finds the following comments.
// Comments on the same line will be grouped together and returned.
// After the first line break, comments will be added as statement comments.
func (self *_parser) findComments(ignoreLineBreak bool) []*ast.Comment {
if self.mode&StoreComments == 0 {
return nil
}
comments := make([]*ast.Comment, 0)
newline := false
for self.implicitSemicolon == false || ignoreLineBreak {
if self.token != token.COMMENT {
break
}
comment := &ast.Comment{
Begin: self.idx,
Text: self.literal,
Position: ast.TBD,
}
newline = self.skippedLineBreak || newline
if newline && !ignoreLineBreak {
self.comments = append(self.comments, comment)
} else {
comments = append(comments, comment)
}
self.next()
}
return comments
}
// addCommentStatements will add the previously parsed, not positioned comments to the provided node
func (self *_parser) addCommentStatements(node ast.Node, position ast.CommentPosition) {
if len(self.comments) > 0 {
self.commentMap.AddComments(node, self.comments, position)
// Reset comments
self.comments = make([]*ast.Comment, 0)
}
}
// fetchComments fetches the current comments, resets the slice and returns the comments
func (self *_parser) fetchComments() (comments []*ast.Comment) {
comments = self.comments
self.comments = nil
return comments
}
// consumeComments consumes the current comments and appends them to the provided node
func (self *_parser) consumeComments(node ast.Node, position ast.CommentPosition) {
self.commentMap.AddComments(node, self.comments, position)
self.comments = nil
}

@ -7,10 +7,24 @@ import (
func (self *_parser) parseBlockStatement() *ast.BlockStatement {
node := &ast.BlockStatement{}
// Find comments before the leading brace
if self.mode&StoreComments != 0 {
self.commentMap.AddComments(node, self.findComments(false), ast.LEADING)
}
node.LeftBrace = self.expect(token.LEFT_BRACE)
node.List = self.parseStatementList()
self.consumeComments(node, ast.FINAL)
node.RightBrace = self.expect(token.RIGHT_BRACE)
// Find comments after the trailing brace
if self.mode&StoreComments != 0 {
self.commentMap.AddComments(node, self.findComments(false), ast.TRAILING)
}
return node
}
@ -21,7 +35,14 @@ func (self *_parser) parseEmptyStatement() ast.Statement {
func (self *_parser) parseStatementList() (list []ast.Statement) {
for self.token != token.RIGHT_BRACE && self.token != token.EOF {
list = append(list, self.parseStatement())
if self.token == token.COMMENT {
self.parseCommentElement()
continue
}
statement := self.parseStatement()
list = append(list, statement)
self.addCommentStatements(statement, ast.LEADING)
}
return
@ -77,6 +98,9 @@ func (self *_parser) parseStatement() ast.Statement {
// LabelledStatement
colon := self.idx
self.next() // :
comments := self.findComments(false)
label := identifier.Name
for _, value := range self.scope.labels {
if label == value {
@ -86,11 +110,17 @@ func (self *_parser) parseStatement() ast.Statement {
self.scope.labels = append(self.scope.labels, label) // Push the label
statement := self.parseStatement()
self.scope.labels = self.scope.labels[:len(self.scope.labels)-1] // Pop the label
return &ast.LabelledStatement{
exp := &ast.LabelledStatement{
Label: identifier,
Colon: colon,
Statement: statement,
}
if self.mode&StoreComments != 0 {
self.commentMap.AddComments(exp, comments, ast.TRAILING)
}
return exp
}
self.optionalSemicolon()
@ -107,16 +137,26 @@ func (self *_parser) parseTryStatement() ast.Statement {
Body: self.parseBlockStatement(),
}
if self.mode&StoreComments != 0 {
self.commentMap.AddComments(node.Body, self.findComments(true), ast.TRAILING)
}
if self.token == token.CATCH {
catch := self.idx
self.next()
self.expect(token.LEFT_PARENTHESIS)
comments := self.findComments(true)
if self.token != token.IDENTIFIER {
self.expect(token.IDENTIFIER)
self.nextStatement()
return &ast.BadStatement{From: catch, To: self.idx}
} else {
identifier := self.parseIdentifier()
if self.mode&StoreComments != 0 {
self.commentMap.AddComments(identifier, comments, ast.LEADING)
}
self.expect(token.RIGHT_PARENTHESIS)
node.Catch = &ast.CatchStatement{
Catch: catch,
@ -124,11 +164,22 @@ func (self *_parser) parseTryStatement() ast.Statement {
Body: self.parseBlockStatement(),
}
}
if self.mode&StoreComments != 0 {
self.commentMap.AddComments(node.Catch, self.findComments(true), ast.TRAILING)
}
}
if self.token == token.FINALLY {
self.next()
comments := self.findComments(true)
node.Finally = self.parseBlockStatement()
if self.mode&StoreComments != 0 {
self.commentMap.AddComments(node.Finally, comments, ast.LEADING)
}
}
if node.Catch == nil && node.Finally == nil {
@ -143,10 +194,15 @@ func (self *_parser) parseFunctionParameterList() *ast.ParameterList {
opening := self.expect(token.LEFT_PARENTHESIS)
var list []*ast.Identifier
for self.token != token.RIGHT_PARENTHESIS && self.token != token.EOF {
comments := self.findComments(true)
if self.token != token.IDENTIFIER {
self.expect(token.IDENTIFIER)
} else {
list = append(list, self.parseIdentifier())
identifier := self.parseIdentifier()
if self.mode&StoreComments != 0 {
self.commentMap.AddComments(identifier, comments, ast.LEADING)
}
list = append(list, identifier)
}
if self.token != token.RIGHT_PARENTHESIS {
self.expect(token.COMMA)
@ -218,12 +274,24 @@ func (self *_parser) parseFunctionBlock(node *ast.FunctionLiteral) {
func (self *_parser) parseDebuggerStatement() ast.Statement {
idx := self.expect(token.DEBUGGER)
comments := self.findComments(true)
node := &ast.DebuggerStatement{
Debugger: idx,
}
if self.mode&StoreComments != 0 {
self.commentMap.AddComments(node, comments, ast.TRAILING)
}
self.semicolon()
if !self.skippedLineBreak {
if self.mode&StoreComments != 0 {
self.commentMap.AddComments(node, self.findComments(false), ast.TRAILING)
}
}
return node
}
@ -309,30 +377,77 @@ func (self *_parser) parseSwitchStatement() ast.Statement {
func (self *_parser) parseWithStatement() ast.Statement {
self.expect(token.WITH)
// Find the comments after with
comments := self.findComments(true)
self.expect(token.LEFT_PARENTHESIS)
node := &ast.WithStatement{
Object: self.parseExpression(),
}
self.expect(token.RIGHT_PARENTHESIS)
// Add the key comments
if self.mode&StoreComments != 0 {
self.commentMap.AddComments(node, comments, ast.KEY)
}
// Find the leading comments for the body
comments = self.findComments(true)
node.Body = self.parseStatement()
// Add the body comments
if self.mode&StoreComments != 0 {
self.commentMap.AddComments(node.Body, comments, ast.LEADING)
}
// Move the trailing comments to the with statement
self.commentMap.MoveComments(node.Body, node, ast.TRAILING)
return node
}
func (self *_parser) parseCaseStatement() *ast.CaseStatement {
var comments []*ast.Comment
node := &ast.CaseStatement{
Case: self.idx,
}
if self.mode&StoreComments != 0 {
self.commentMap.AddComments(node, self.findComments(true), ast.LEADING)
}
// Consume current comments
self.consumeComments(node, ast.LEADING)
if self.token == token.DEFAULT {
self.next()
} else {
self.expect(token.CASE)
comments = self.findComments(true)
node.Test = self.parseExpression()
if self.mode&StoreComments != 0 {
self.commentMap.AddComments(node.Test, comments, ast.LEADING)
}
comments = self.findComments(true)
if self.mode&StoreComments != 0 {
self.commentMap.AddComments(node.Test, comments, ast.TRAILING)
}
}
self.expect(token.COLON)
if self.mode&StoreComments != 0 {
self.commentMap.AddComments(node.Test, self.findComments(false), ast.TRAILING)
}
for {
if self.token == token.EOF ||
self.token == token.RIGHT_BRACE ||
@ -340,8 +455,12 @@ func (self *_parser) parseCaseStatement() *ast.CaseStatement {
self.token == token.DEFAULT {
break
}
node.Consequent = append(node.Consequent, self.parseStatement())
consequent := self.parseStatement()
node.Consequent = append(node.Consequent, consequent)
if self.mode&StoreComments != 0 {
self.commentMap.AddComments(consequent, self.findComments(false), ast.TRAILING)
}
}
return node
@ -360,44 +479,84 @@ func (self *_parser) parseForIn(into ast.Expression) *ast.ForInStatement {
// Already have consumed "<into> in"
// Comments after the in, before the expression
comments := self.findComments(true)
source := self.parseExpression()
if self.mode&StoreComments != 0 {
self.commentMap.AddComments(source, comments, ast.LEADING)
}
self.expect(token.RIGHT_PARENTHESIS)
return &ast.ForInStatement{
comments = self.findComments(true)
body := self.parseIterationStatement()
if self.mode&StoreComments != 0 {
self.commentMap.AddComments(body, comments, ast.LEADING)
}
forin := &ast.ForInStatement{
Into: into,
Source: source,
Body: self.parseIterationStatement(),
Body: body,
}
self.commentMap.MoveComments(body, forin, ast.TRAILING)
return forin
}
func (self *_parser) parseFor(initializer ast.Expression) *ast.ForStatement {
// Already have consumed "<initializer> ;"
comments := self.findComments(true)
var test, update ast.Expression
if self.token != token.SEMICOLON {
test = self.parseExpression()
if self.mode&StoreComments != 0 {
self.commentMap.AddComments(test, comments, ast.LEADING)
}
}
self.expect(token.SEMICOLON)
comments = self.findComments(true)
if self.token != token.RIGHT_PARENTHESIS {
update = self.parseExpression()
if self.mode&StoreComments != 0 {
self.commentMap.AddComments(update, comments, ast.LEADING)
}
}
self.expect(token.RIGHT_PARENTHESIS)
return &ast.ForStatement{
comments = self.findComments(true)
body := self.parseIterationStatement()
if self.mode&StoreComments != 0 {
self.commentMap.AddComments(body, comments, ast.LEADING)
}
forstatement := &ast.ForStatement{
Initializer: initializer,
Test: test,
Update: update,
Body: self.parseIterationStatement(),
Body: body,
}
self.commentMap.MoveComments(body, forstatement, ast.TRAILING)
return forstatement
}
func (self *_parser) parseForOrForInStatement() ast.Statement {
idx := self.expect(token.FOR)
self.expect(token.LEFT_PARENTHESIS)
comments := self.findComments(true)
var left []ast.Expression
forIn := false
@ -435,11 +594,19 @@ func (self *_parser) parseForOrForInStatement() ast.Statement {
self.nextStatement()
return &ast.BadStatement{From: idx, To: self.idx}
}
if self.mode&StoreComments != 0 {
self.commentMap.AddComments(left[0], comments, ast.LEADING)
}
return self.parseForIn(left[0])
}
self.expect(token.SEMICOLON)
return self.parseFor(&ast.SequenceExpression{Sequence: left})
initializer := &ast.SequenceExpression{Sequence: left}
if self.mode&StoreComments != 0 {
self.commentMap.AddComments(initializer, comments, ast.LEADING)
}
return self.parseFor(initializer)
}
func (self *_parser) parseVariableStatement() *ast.VariableStatement {
@ -447,12 +614,27 @@ func (self *_parser) parseVariableStatement() *ast.VariableStatement {
idx := self.expect(token.VAR)
list := self.parseVariableDeclarationList(idx)
self.semicolon()
return &ast.VariableStatement{
statement := &ast.VariableStatement{
Var: idx,
List: list,
}
self.commentMap.MoveComments(statement.List[len(statement.List)-1], statement, ast.TRAILING)
if self.mode&StoreComments != 0 {
self.commentMap.AddComments(statement, self.findComments(true), ast.TRAILING)
}
self.semicolon()
if self.skippedLineBreak {
if self.mode&StoreComments != 0 {
self.commentMap.AddComments(statement, self.findComments(false), ast.TRAILING)
}
}
return statement
}
func (self *_parser) parseDoWhileStatement() ast.Statement {
@ -463,7 +645,13 @@ func (self *_parser) parseDoWhileStatement() ast.Statement {
}()
self.expect(token.DO)
comments := self.findComments(true)
node := &ast.DoWhileStatement{}
if self.mode&StoreComments != 0 {
self.commentMap.AddComments(node, comments, ast.KEY)
}
if self.token == token.LEFT_BRACE {
node.Body = self.parseBlockStatement()
} else {
@ -471,49 +659,123 @@ func (self *_parser) parseDoWhileStatement() ast.Statement {
}
self.expect(token.WHILE)
comments = self.findComments(true)
self.expect(token.LEFT_PARENTHESIS)
node.Test = self.parseExpression()
if self.mode&StoreComments != 0 {
self.commentMap.AddComments(node.Test, comments, ast.LEADING)
}
self.expect(token.RIGHT_PARENTHESIS)
if self.mode&StoreComments != 0 {
self.commentMap.AddComments(node.Test, self.findComments(false), ast.TRAILING)
}
return node
}
func (self *_parser) parseWhileStatement() ast.Statement {
self.expect(token.WHILE)
// Comments after while keyword
comments := self.findComments(true)
self.expect(token.LEFT_PARENTHESIS)
node := &ast.WhileStatement{
Test: self.parseExpression(),
}
// Add the while comments
if self.mode&StoreComments != 0 {
self.commentMap.AddComments(node, comments, ast.KEY)
}
self.expect(token.RIGHT_PARENTHESIS)
// Finding comments prior to the body
comments = self.findComments(true)
node.Body = self.parseIterationStatement()
// Adding the comments prior to the body
if self.mode&StoreComments != 0 {
self.commentMap.AddComments(node.Body, comments, ast.LEADING)
}
// Move the trailing comments to the while statement
self.commentMap.MoveComments(node.Body, node, ast.TRAILING)
return node
}
func (self *_parser) parseIfStatement() ast.Statement {
self.expect(token.IF)
comments := self.findComments(true)
self.expect(token.LEFT_PARENTHESIS)
node := &ast.IfStatement{
Test: self.parseExpression(),
}
if self.mode&StoreComments != 0 {
self.commentMap.AddComments(node, comments, ast.KEY)
}
self.expect(token.RIGHT_PARENTHESIS)
comments = self.findComments(true)
if self.token == token.LEFT_BRACE {
node.Consequent = self.parseBlockStatement()
} else {
node.Consequent = self.parseStatement()
}
if self.mode&StoreComments != 0 {
self.commentMap.AddComments(node.Consequent, comments, ast.LEADING)
self.commentMap.AddComments(node.Consequent, self.findComments(true), ast.TRAILING)
}
if self.token == token.ELSE {
self.next()
comments = self.findComments(true)
node.Alternate = self.parseStatement()
if self.mode&StoreComments != 0 {
self.commentMap.AddComments(node.Alternate, comments, ast.LEADING)
self.commentMap.AddComments(node.Alternate, self.findComments(false), ast.TRAILING)
}
}
return node
}
func (self *_parser) parseSourceElement() ast.Statement {
return self.parseStatement()
statementComment := self.fetchComments()
statement := self.parseStatement()
if self.mode&StoreComments != 0 {
self.commentMap.AddComments(statement, statementComment, ast.LEADING)
}
return statement
}
func (self *_parser) parseCommentElement() {
literal := self.literal
idx := self.expect(token.COMMENT)
self.comments = append(self.comments, &ast.Comment{
Begin: idx,
Text: literal,
Position: ast.LEADING,
})
}
func (self *_parser) parseSourceElements() []ast.Statement {
@ -524,10 +786,19 @@ func (self *_parser) parseSourceElements() []ast.Statement {
break
}
if self.token == token.COMMENT {
self.parseCommentElement()
continue
}
body = append(body, self.parseSourceElement())
}
for self.token != token.EOF {
if self.token == token.COMMENT {
self.parseCommentElement()
continue
}
body = append(body, self.parseSourceElement())
}
@ -546,6 +817,9 @@ func (self *_parser) parseProgram() *ast.Program {
func (self *_parser) parseBreakStatement() ast.Statement {
idx := self.expect(token.BREAK)
breakComments := self.findComments(true)
semicolon := self.implicitSemicolon
if self.token == token.SEMICOLON {
semicolon = true
@ -557,10 +831,16 @@ func (self *_parser) parseBreakStatement() ast.Statement {
if !self.scope.inIteration && !self.scope.inSwitch {
goto illegal
}
return &ast.BranchStatement{
breakStatement := &ast.BranchStatement{
Idx: idx,
Token: token.BREAK,
}
if self.mode&StoreComments != 0 {
self.commentMap.AddComments(breakStatement, breakComments, ast.TRAILING)
}
return breakStatement
}
if self.token == token.IDENTIFIER {

@ -55,6 +55,7 @@ type _runtime struct {
otto *Otto
eval *_object // The builtin eval, for determine indirect versus direct invocation
debugger func(*Otto)
random func() float64
labels []string // FIXME
lck sync.Mutex

@ -18,8 +18,11 @@
package jsre
import (
crand "crypto/rand"
"encoding/binary"
"fmt"
"io/ioutil"
"math/rand"
"sync"
"time"
@ -70,6 +73,18 @@ func New(assetPath string) *JSRE {
return re
}
// randomSource returns a pseudo random value generator.
func randomSource() *rand.Rand {
bytes := make([]byte, 8)
seed := time.Now().UnixNano()
if _, err := crand.Read(bytes); err == nil {
seed = int64(binary.LittleEndian.Uint64(bytes))
}
src := rand.NewSource(seed)
return rand.New(src)
}
// This function runs the main event loop from a goroutine that is started
// when JSRE is created. Use Stop() before exiting to properly stop it.
// The event loop processes vm access requests from the evalQueue in a
@ -81,6 +96,9 @@ func New(assetPath string) *JSRE {
// called from JS through an RPC call.
func (self *JSRE) runEventLoop() {
vm := otto.New()
r := randomSource()
vm.SetRandomSource(r.Float64)
registry := map[*jsTimer]*jsTimer{}
ready := make(chan *jsTimer)