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grammar.rul
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grammar.rul
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(* NAMES *)
type IDENTIFIER = Ustring.STRING
type NAMESPACE_ID = int
datatype NAMESPACE =
ForgeableNamespace of IDENTIFIER
| UnforgeableNamespace of NAMESPACE_ID
datatype IDENTIFIER_EXPRESSION =
Identifier of EXPRESSION
| QualifiedIdentifier of (EXPRESSION * EXPRESSION)
datatype NAME =
Name of (NAMESPACE * IDENTIFIER)
datatype NAMESPACE_EXPRESSION =
Namespace of NAMESPACE
| NamespaceRef of IDENTIFIER_EXPRESSION
(* TYPES *)
datatype TYPE_EXPRESSION =
SpecialType of SPECIAL_TYPE
| UnionType of TYPE_EXPRESSION list
| ArrayType of TYPE_EXPRESSION list
| TypeRef of TYPE_REF
| ElementTypeRef of (TYPE_EXPRESSION * int)
| FieldTypeRef of (TYPE_EXPRESSION * IDENT)
| FunctionType of FUNC_TYPE
| ObjectType of FIELD_TYPE list
| LikeType of TYPE_EXPRESSION
| AppType of {base: TYPE_EXPRESSION, args: TYPE_EXPRESSION list}
| LamType of {params: IDENTIFIER list, body: TYPE_EXPRESSION}
| TypePredicate of EXPRESSION
type TYPE_REF = IDENTIFIER_EXPRESSION (* constant type value *)
datatype SPECIAL_TYPE =
AnyType
| NullType
| UndefinedType
| VoidType
(* DEFINITIONS *)
type NAME_REF = IDENTIFIER_EXPRESSION (* constant name value *)
type INIT = (NAME_REF * EXPRESSION)
type HEAD = (DEFINITION list * INIT list)
datatype DEFINITION =
NamespaceDefn of (NAME_REF * NAMESPACE)
| ClassDefn of (NAME_REF * CLASS)
| InterfaceDefn of (NAME_REF * INTERFACE)
| TypeDefn of (NAME_REF * TYPE_EXPRESSION)
| MethodDefn of (NAME_REF * METHOD)
| VarDefn of (NAME_REF * VAR)
| AccessorDefn of (NAME_REF * ACCESSOR)
datatype CLASS =
Class of {
namespace: NAMESPACE_EXPRESSION
, identifier: IDENTIFIER
, typeParams: IDENTIFIER list
, dynamic: bool
, extends: TYPE_REF option
, implements: TYPE_REF list
, classDefns: DEFINITION list
, instanceDefns: DEFINITION list
, instanceInits: HEAD
, constructor: CONSTRUCTOR option }
datatype INTERFACE =
Interface {
namespace: NAMESPACE_EXPRESSION,
, identifier: IDENTIFIER
, typeParams: IDENTIFIER list
, extends: TYPE_REF option
, instanceDefns: DEFINITION list }
datatype FUNCTION =
Function of {
name: FUNC_NAME
, block: BLOCK option
, parameters: HEAD
, defaults: EXPRESSION list
, functionType: TYPE_EXPRESSION }
datatype METHOD =
Method {
func: FUNCTION
, readOnly: bool (* ES3 funcs are r/w methods with ty=Ast.Special Ast.Any *)
, override: bool
, final: bool }
datatype CONSTRUCTOR =
Constructor of {
settings: EXPRESSION list (* EXPRESSION list of LetExpr of InitExpr *)
, superArgs: EXPRESSION list
, func: FUNC }
datatype VAR =
Var {
storeType: TYPE_EXPRESSION
, readOnly: bool }
datatype ACCESSOR =
Accessor {
storeType: TYPE_EXPRESSION
, getter: FUNC option
, setter: FUNC option }
(* EXPRESSIONS *)
datatype EXPRESSION =
ConditionalExpr of (EXPRESSION * EXPRESSION * EXPRESSION)
| BinaryExpr of (BINOP * EXPRESSION * EXPRESSION)
| BinaryTypeExpr of (BINTYPEOP * EXPRESSION * TYPE_EXPRRESSION)
| UnaryExpr of (UNOP * EXPRESSION)
| TypeExpr of TYPE_EXPRESSION
| ThisExpr of THIS_KIND option
| YieldExpr of EXPRESSION option
| SuperExpr of EXPRESSION option
| LiteralExpr of LITERAL
| CallExpr of {func: EXPRESSION, actuals: EXPRESSION list}
| ApplyTypeExpr of {expr: EXPRESSION, actuals: TYPE_EXPRESSION list}
| LetExpr of (HEAD * EXPRESSION)
| NewExpr of {obj: EXPRESSION, actuals: EXPRESSION list}
| ObjectRef of {base: EXPRESSION, ident: IDENTIFIER_EXPRESSION}
| LexicalRef of {ident: IDENTIFIER_EXPRESSION}
| SetExpr of (ASSIGNOP * EXPRESSION * EXPRESSION)
| ListExpr of EXPRESSION list
| InitExpr of (INIT_TARGET * HEAD * INIT list) (* HEAD is for temporaries *)
| Comprehension of (EXPRESSION * FOR_ENUM_HEAD list * EXPRESSION option)
datatype INIT_TARGET =
Hoisted
| Local
| Prototype
datatype BINTYPEOP =
Cast
| Is
| Wrap
| To
datatype BINOP =
Plus
| Minus
| Times
| Divide
| Remainder
| LeftShift
| RightShift
| RightShiftUnsigned
| BitwiseAnd
| BitwiseOr
| BitwiseXor
| LogicalAnd
| LogicalOr
| InstanceOf
| In
| Equals
| NotEquals
| StrictEquals
| StrictNotEquals
| Less
| LessOrEqual
| Greater
| GreaterOrEqual
| Comma
datatype ASSIGNOP =
Assign
| AssignPlus
| AssignMinus
| AssignTimes
| AssignDivide
| AssignRemainder
| AssignLeftShift
| AssignRightShift
| AssignRightShiftUnsigned
| AssignBitwiseAnd
| AssignBitwiseOr
| AssignBitwiseXor
| AssignLogicalAnd
| AssignLogicalOr
datatype UNOP =
Delete
| Void
| Typeof
| PreIncrement
| PreDecrement
| PostIncrement
| PostDecrement
| UnaryPlus
| UnaryMinus
| BitwiseNot
| LogicalNot
| Type
| Splat
datatype THIS_KIND =
FunctionThis
| GeneratorThis
type FOR_ENUM_HEAD = ...
datatype LITERAL =
LiteralNull
| LiteralUndefined
| LiteralDouble of Real64.real
| LiteralDecimal of Decimal.DEC
| LiteralBoolean of bool
| LiteralString of Ustring.STRING
| LiteralArray of {exprs: EXPRESSION, ty:TYPE option}
| LiteralNamespace of NAMESPACE
| LiteralObject of {expr : FIELD list, ty: TYPE option}
| LiteralFunction of FUNC
| LiteralRegExp of {str: Ustring.STRING}
type FIELD =
{ kind: VAR_DEFN_TAG,
name: IDENTIFIER_EXRESSION,
init: EXPRESSION }
datatype VAR_DEFN_TAG =
Const
| Var
| Let
datatype ASSIGNOP =
Assign
| AssignPlus
| AssignMinus
| AssignTimes
| AssignDivide
| AssignRemainder
| AssignLeftShift
| AssignRightShift
| AssignRightShiftUnsigned
| AssignBitwiseAnd
| AssignBitwiseOr
| AssignBitwiseXor
| AssignLogicalAnd
| AssignLogicalOr
datatype UNOP =
Delete
| Void
| Typeof
| PreIncrement
| PreDecrement
| PostIncrement
| PostDecrement
| UnaryPlus
| UnaryMinus
| BitwiseNot
| LogicalNot
| Type
| Splat
(* STATEMENTS *)
datatype STATEMENT =
EmptyStmt
| ExprStmt of EXPRESSION
| ClassBlock of CLASS_BLOCK
| ForInStmt of FOR_ENUM_STMT
| ThrowStmt of EXPRESSION
| ReturnStmt of EXPRESSION
| BreakStmt of IDENTIFIER option
| ContinueStmt of IDENTIFIER option
| BlockStmt of BLOCK
| LabeledStmt of (IDENTIFIER * STATEMENT)
| WhileStmt of WHILE_STATEMENT
| DoWhileStmt of WHILE_STATEMENT
| ForStmt of FOR_STATEMENT
| IfStmt of { cnd: EXPRESSION, thn: STATEMENT, els: STATEMENT }
| WithStmt of { obj: EXPRESSION, ty: TYPE, body: STATEMENT }
| TryStmt of {block: BLOCK, catches: CATCH_CLAUSE list,
finally: BLOCK option}
| SwitchStmt of {head: HEAD, cond: EXPRESSION, labels: IDENTIFIER list,
cases: CASE list}
| SwitchTypeStmt of {cond: EXPRESSION, ty: TYPE, cases: CATCH_CLAUSE list}
(* Translation From Concrete Syntax *)
datatype ALPHA =
AllowColon
| NoColon
datatype BETA =
AllowIn
| NoIn
datatype GAMMA =
AllowExpr
| NoExpr
datatype BLOCK =
Block of STATEMENT list
datatype PROGRAM =
Program of ...
(*
NOTATION:
*Symbol* means a non-terminal symbol in the lexical grammar
'terminal' means terminal in the lexical grammar
ALLCAPS means an AST type
*)
rul Identifier () : IDENTIFIER =
*Identifier* =>
*Identifier*
| *ContextuallyReservedIdentifier* =>
*ContextuallyReservedIdentifier*
rul Qualifier () : EXPRESSION =
Identifier =>
Ast.LexicalRef (Ast.Identifier (Identifier))
| ReservedNamespace =>
Ast.LiteralExpr (Ast.LiteralNamespace (ReservedNamespace))
rul ReservedNamespace () : NAMESPACE =
'external' =>
Ast.ForgeableNamespace (getPackageString ())
| 'internal' =>
getInternalNamespace ()
| 'private' =>
getPrivateNamespace ()
| 'protected' =>
getProtectedNamespace ()
| 'public' =>
getPublicNamespace ()
rul QualifiedNameIdentifier () : EXPRESSION =
Identifier =>
Ast.LiteralExpr (Ast.StringLiteral (Identifier))
| *ReservedIdentifier* =>
Ast.LiteralExpr (Ast.StringLiteral (*ReservedIdentifier*))
| *StringLiteral* =>
Ast.LiteralExpr (Ast.StringLiteral (*StringLiteral*))
| *NumberLiteral* =>
Ast.LiteralExpr (Ast.LiteralString (toString (*NumberLiteral*))))
| Brackets =>
Brackets
rul QualifiedName () : IDENTIFIER_EXPRESSION =
Identifier =>
Ast.Identifier (Identifier)
| Qualifier '::' QualifiedNameIdentifier =>
Ast.QualifiedIdentifier (Qualifier, QualifiedNameIdentifier)
| ParenExpression '::' QualifiedNameIdentifier =>
Ast.QualifiedIdentifier (ParenExpression, QualifiedNameIdentifier)
| QualifiedName '::' QualifiedNameIdentifier =>
Ast.QualifiedIdentifier (Ast.LexicalRef (QualifiedName), QualifiedNameIdentifier)
rul PrimaryName () : IDENTIFIER_EXPRESSION =
QualifiedName =>
QualifiedName
rul FunctionExpression (alpha, beta) : LITERAL =
'function' Identifier FunctionSignature FunctionExpressionBody(alpha, beta) =>
let
val ident = Identifier
val {params, vars, defaults, type, ...} = FunctionSignature
val block = FunctionExpressionBody
in
Ast.LiteralFunction (Ast.Func (ident, false, params, vars, defaults,
type, block))
end
| 'function' FunctionSignature FunctionExpressionBody(alpha, beta) =>
let
val ident = NONE
val {params, vars, defaults, type, ...} = FunctionSignature
val block = FunctionExpressionBody
in
Ast.LiteralFunction (Ast.Func (ident, false, params, vars, defaults,
type, block))
end
rul FunctionExpressionBody (alpha, beta) : BLOCK =
Block(Local) =>
Block
| AssignmentExpression(alpha, beta) =>
Ast.Block (Ast.Head ([], []), Ast.ReturnStmt (AssignmentExpression :: []))
rul ObjectLiteral (NoColon) : LITERAL =
'{' FieldList '}' =>
Ast.LiteralObject (Ast.FieldList, NONE)
rul ObjectLiteral (AllowColon) : LITERAL =
'{' FieldList '}' =>
Ast.LiteralObject (FieldList, NONE)
| '{' FieldList '}' ':' TypeExpression =>
Ast.LiteralObject (FieldList, TypeExpression)
rul FieldList () : FIELD list =
empty =>
[]
| LiteralField =>
LiteralField :: []
| LiteralField ',' FieldList =>
LiteralField :: FieldList
rul LiteralField () : FIELD =
FieldKind FieldName ':' AssignmentExpression(AllowColon, AllowIn) =>
(FieldKind, FieldName, AssignmentExpression)
| FieldKind 'get' FieldName FunctionSignature FunctionExpressionBody(AllowColon, AllowIn) =>
let
val name = {kind=Ast.Get, ident=Ustring.empty}
val {params, vars, defaults, type, ...} = FunctionSignature
val block = FunctionExpressionBody
val functionExpression = Ast.LiteralExpr (Ast.LiteralFunction (
Ast.Func (name, false, params, vars, defaults, type, FunctionExpressionBody)))
in
(FieldKind, FieldName, functionExpression)
end
| FieldKind 'set' FieldName FunctionSignature FunctionExpressionBody(AllowColon, AllowIn) =>
let
val name = {kind=Ast.Set, ident=Ustring.empty}
val {params, vars, defaults, type, ...} = FunctionSignature
val functionExpression = Ast.LiteralExpr (Ast.LiteralFunction (
Ast.Func (name, false, params, vars, defaults, type, FunctionExpressionBody)))
in
(FieldKind, FieldName, functionExpression)
end
rul FieldKind () : VAR_DEFN_TAG option =
empty =>
NONE
| 'const' =>
SOME Ast.Const
| 'var' =>
SOME Ast.Var
rul FieldName () : IDENTIFIER_EXPRESSION =
QualifiedName =>
QualifiedName
| *StringLiteral* =>
Ast.Identifier (*StringLiteral*)
| *NumberLiteral* =>
Ast.Identifier (*NumberLiteral*)
| *ReservedIdentifier* =>
Ast.Identifier (*ReservedIdentifier*)
rul ArrayLiteral (NoColon) : LITERAL =
'[' Elements ']' =>
Ast.LiteralArray (Elements, NONE)
rul ArrayLiteral (AllowColon) : LITERAL =
'[' Elements ']' =>
Ast.LiteralArray (Elements, NONE)
| '[' Elements ']' ':' TypeExpression =>
Ast.LiteralArray (Elements, TypeExpression)
rul Elements () : EXPRESSION list =
ElementList =>
ElementList
| ElementComprehension =>
ElementComprehension
rul ElementList () : EXPRESSION list =
empty =>
[]
| LiteralElement =>
LiteralElement
| SplatExpression =>
SplatExpression
| ',' ElementList =>
undefined :: ElementList
| LiteralElement ',' ElementList =>
LiteralElement :: ElementList
rul LiteralElement () : EXPRESSION =
AssignmentExpression(AllowColon, AllowIn) =>
AssignmentExpression
rul ElementComprehension () : EXPRESSION =
LiteralElement ForInExpressionList OptionalIfCondition =>
Ast.Comprehension (LiteralElement, ForInExpressionList, OptionalIfCondition)
rul ForInExpressionList () : (FOR_BINDING * EXPRESSION) =
ForInExpression =>
ForInExpression
| ForInExpressionList ForInExpression =>
ForInExpressionList @ (ForInExpression :: [])
rul ForInExpression () : (FOR_BINDING * EXPRESSION) =
'for' '(' ForInBinding 'in' CommaExpression(AllowColon, AllowIn) ')' =>
(ForInBinding, CommaExpression)
| 'for' 'each' '(' ForInBinding 'in' CommaExpression(AllowColon, AllowIn) ')' =>
(ForInBinding, CommaExpression)
rul OptionalIfCondition () : EXPRESSION option =
empty =>
NONE
| 'if' ParenExpression =>
SOME ParenExpression
rul PrimaryExpression (alpha, beta) : EXPRESSION =
'null' => Ast.LiteralNull
| 'true' => Ast.LiteralBoolean true
| 'false' => Ast.LiteralBoolean false
| *NumberLiteral* => Ast.LiteralNumber (*NumberLiteral*)
| *StringLiteral* => Ast.LiteralString (*StringLiteral*)
| *RegularExpression* => Ast.RegExpInitialiser (*RegExpInitialiser*)
| ArrayInitialiser(alpha) => ArrayInitialiser
| ObjectInitialiser(alpha) => ObjectInitialiser
| FunctionExpression(alpha, beta) => FunctionExpression
| ThisExpression => ThisExpression
| ParenExpression => ParenExpression
| LetExpression(alpha, beta) => LetExpression
| PrimaryName => Ast.LexicalRef (PrimaryName)
rul ParenExpression () : EXPRESSION =
'(' CommaExpression(AllowColon, AllowIn) ')' => CommaExpression
rul ThisExpression () : EXPRESSION =
'this' => Ast.ThisExpr (NONE)
| 'this' 'function' => Ast.ThisExpr (Ast.FunctionThis)
| 'this' 'generator' => Ast.ThisExpr (Ast.GeneratorThis)
rul LetExpression (alpha, beta) : EXPRESSION =
'let' '(' LetBindingList ')' AssignmentExpression(alpha, beta)
=> Ast.LetExpr (LetBindingList, AssignmentExpression)
rul LetBindingList () : HEAD =
empty => ([], [])
| NonemptyLetBindingList => NonemptyLetBindingList
rul NonemptyLetBindingList () : HEAD =
VariableBinding(AllowIn) =>
VariableBinding
| VariableBinding(AllowIn) ',' NonemptyLetBindingList =>
VariableBinding :: NonemptyLetBindingList
rul SuperExpression () : EXPRESSION =
'super' =>
Ast.SuperExpr (NONE)
| 'super' ParenExpression =>
Ast.SuperExpr (ParenExpression)
rul Arguments () : EXPRESSION list =
'(' ')' =>
[]
| '(' SplatExpression ')' =>
SplatExpression :: []
| '(' ArgumentList ')' =>
ArgumentList
| '(' ArgumentList, SplatExpression ')' =>
ArgumentList @ (SplatExpression :: [])
rul ArgumentList () : EXPRESSION list =
AssignmentExpression(AllowColon, AllowIn) =>
AssignmentExpression :: []
| ArgumentList ',' AssignmentExpression(AllowColon, AllowIn) =>
ArgumentList @ (AssignmentExpression :: [])
rul PropertyOperator (base: EXPRESSION) : EXPRESSION =
'.' *ReservedIdentifier* =>
Ast.ObjectRef (base, ReservedIdentifier)
| '.' PrimaryName =>
Ast.ObjectRef (base, PrimaryName)
| '.' ParenExpression '::' QualifiedNameIdentifier(ParenExpression) =>
Ast.ObjectRef (base, QualifiedNameIdentifier)
| BracketsOrSlice(base) =>
BracketsOrSlice
| TypeApplication(base) =>
TypeApplication
rul Brackets (base: EXPRESSION) : EXPRESSION =
'[' CommaExpression(AllowColon, AllowIn) ']' =>
Ast.ObjectRef (base, Ast.Identifier (CommaExpression))
rul BracketsOrSlice (base: EXPRESSION) : EXPRESSION =
'[' CommaExpression(AllowColon, AllowIn) ']' =>
Ast.ObjectRef (base, Ast.Identifier (CommaExpression))
| '[' SliceExpression ']' =>
Ast.ObjectRef (base, Ast.Identifier (SliceExpression))
rul SliceExpression () : EXPRESSION =
OptionalExpression ':' OptionalExpression =>
Ast.SliceExpression (OptionalExpression, OptionalExpression, NONE)
| OptionalExpression ':' OptionalExpression ':' OptionalExpression =>
Ast.SliceExpression (OptionalExpression, OptionalExpression, OptionalExpression)
rul OptionalExpression () : EXPRESSION option =
empty =>
NONE
| CommaExpression(AllowColon, AllowIn) =>
CommaExpression
rul TypeApplication (base: EXPRESSION) : EXPRESSION =
'.<' TypeExpressionList '>' =>
Ast.TypeApplication (base, TypeExpressionList)
rul MemberExpression (alpha, beta) : EXPRESSION =
PrimaryExpression(alpha, beta) =>
PrimaryExpression
| 'new' MemberExpression(alpha, beta) Arguments =>
Ast.NewExpr (MemberExpression, Arguments)
| SuperExpression PropertyOperator =>
PropertyOperator (SuperExpression)
| MemberExpression(alpha, beta) PropertyOperator =>
PropertyOperator (MemberExpression))
rul CallExpression (alpha, beta) : EXPRESSION =
MemberExpression(alpha, beta) Arguments =>
Ast.CallExpr (MemberExpression, Arguments ())
| CallExpression(alpha, beta) Arguments =>
Ast.CallExpr (CallExpression, Arguments ())
| CallExpression(alpha, beta) PropertyOperator =>
PropertyOperator (CallExpression)
rul NewExpression (alpha, beta) : EXPRESSION =
MemberExpression(alpha, beta) =>
MemberExpression
| 'new' NewExpression(alpha, beta) =>
Ast.NewExpr (NewExpression, [])
rul LeftHandSideExpression (alpha, beta) : EXPRESSION =
NewExpression(alpha, beta) =>
NewExpression
| CallExpression(alpha, beta) =>
CallExpression
rul PostfixExpression (alpha, beta) : EXPRESSION =
LeftHandSideExpression(alpha, beta) =>
LeftHandSideExpression
| LeftHandSideExpression(alpha, beta) [no line break] '++' =>
Ast.UnaryExpr (Ast.PostInc, LeftHandSideExpression)
| LeftHandSideExpression(alpha, beta) [no line break] '--' =>
Ast.UnaryExpr (Ast.PostDec, LeftHandSideExpression)
rul UnaryExpression (alpha, beta) : EXPRESSION =
PostfixExpression(alpha, beta) =>
PostfixExpression
| 'delete' PostfixExpression (alpha, beta) =>
Ast.UnaryExpr (Ast.Delete, PostfixExpression)
| 'void' UnaryExpression (alpha, beta) =>
Ast.UnaryExpr (Ast.Void, UnaryExpression)
| 'typeof' UnaryExpression(alpha, beta) =>
Ast.UnaryExpr (Ast.Typeof, UnaryExpression)
| '++' PostfixExpression(alpha, beta) =>
Ast.UnaryExpr (Ast.PreInc, PostfixExpression)
| '--' PostfixExpression(alpha, beta) =>
Ast.UnaryExpr (Ast.PreDec, PostfixExpression)
| '+' UnaryExpression(alpha, beta) =>
Ast.UnaryExpr (Ast.UnaryPlus, UnaryExpression)
| '-' UnaryExpression(alpha, beta) =>
Ast.UnaryExpr (Ast.UnaryMinus, UnaryExpression)
| '~' UnaryExpression(alpha, beta) =>
Ast.UnaryExpr (Ast.BitwiseNot, UnaryExpression)
| '!' UnaryExpression(alpha, beta) =>
Ast.UnaryExpr (Ast.LogicalNot, UnaryExpression)
rul MultiplicativeExpression (alpha, beta) : EXPRESSION =
UnaryExpression(alpha, beta) =>
UnaryExpression
| MultiplicativeExpression(alpha, beta) '*' UnaryExpression(alpha, beta) =>
Ast.BinaryExpr (Ast.Mult, MultiplicativeExpression, UnaryExpression)
| MultiplicativeExpression(alpha, beta) '/' UnaryExpression(alpha, beta) =>
Ast.BinaryExpr (Ast.Div, MultiplicativeExpression, UnaryExpression)
| MultiplicativeExpression(alpha, beta) '%' UnaryExpression(alpha, beta) =>
Ast.BinaryExpr (Ast.Remainder, MultiplicativeExpression, UnaryExpression)
rul AdditiveExpression (alpha, beta) : EXPRESSION =
MultiplicativeExpression(alpha, beta) =>
MultiplicativeExpression
| AdditiveExpression(alpha, beta) '+' MultiplicativeExpression(alpha, beta) =>
Ast.BinaryExpr (Ast.Plus, AdditiveExpression, MultiplicativeExpression)
| AdditiveExpression(alpha, beta) '-' MultiplicativeExpression(alpha, beta) =>
Ast.BinaryExpr (Ast.Minus, AdditiveExpression, MultiplicativeExpression)
rul ShiftExpression (alpha, beta) : EXPRESSION =
AdditiveExpression(alpha, beta) =>
AdditiveExpression
| ShiftExpression(alpha, beta) '<<' AdditiveExpression(alpha, beta) =>
Ast.BinaryExpr (Ast.LeftShift, ShiftExpression, AdditiveExpression)
| ShiftExpression(alpha, beta) '>>' AdditiveExpression(alpha, beta) =>
Ast.BinaryExpr (Ast.RightShift, ShiftExpression, AdditiveExpression)
| ShiftExpression(alpha, beta) '>>>' AdditiveExpression(alpha, beta) =>
Ast.BinaryExpr (Ast.UnsignedRightShift, ShiftExpression, AdditiveExpression)
rul RelationalExpression (alpha, AllowIn) : EXPRESSION =
ShiftExpression(alpha, AllowIn) =>
ShiftExpression
| RelationalExpression(alpha, AllowIn) '<' ShiftExpression(alpha, AllowIn) =>
Ast.BinaryExpr (Ast.Less, RelationalExpression, ShiftExpression)
| RelationalExpression(alpha, AllowIn) '>' ShiftExpression(alpha, AllowIn) =>
Ast.BinaryExpr (Ast.Greater, RelationalExpression, ShiftExpression)
| RelationalExpression(alpha, AllowIn) '<=' ShiftExpression(alpha, AllowIn) =>
Ast.BinaryExpr (Ast.LessOrEqual, RelationalExpression, ShiftExpression)
| RelationalExpression(alpha, AllowIn) '>=' ShiftExpression(alpha, AllowIn) =>
Ast.BinaryExpr (Ast.GreaterOrEqual, RelationalExpression, ShiftExpression)
| RelationalExpression(alpha, AllowIn) 'in' ShiftExpression(alpha, AllowIn) =>
Ast.BinaryExpr (Ast.In, RelationalExpression, ShiftExpression)
| RelationalExpression(alpha, AllowIn) 'instanceof' ShiftExpression(alpha, AllowIn) =>
Ast.BinaryExpr (Ast.InstanceOf, RelationalExpression, ShiftExpression)
| RelationalExpression(alpha, AllowIn) 'cast' TypeExpression =>
Ast.BinaryTypeExpr (Ast.Cast, RelationalExpression, TypeExpression)
| RelationalExpression(alpha, AllowIn) 'is' TypeExpression =>
Ast.BinaryTypeExpr (Ast.Is, RelationalExpression, TypeExpression)
| RelationalExpression(alpha, AllowIn) 'like' TypeExpression =>
Ast.BinaryTypeExpr (Ast.Like, RelationalExpression, TypeExpression)
rul RelationalExpression (alpha, NoIn) : EXPRESSION =
ShiftExpression(alpha, NoIn) =>
ShiftExpression
| RelationalExpression(alpha, NoIn) '<' ShiftExpression(alpha, NoIn) =>
Ast.BinaryExpr (Ast.Less, RelationalExpression, ShiftExpression)
| RelationalExpression(alpha, NoIn) '>' ShiftExpression(alpha, NoIn) =>
Ast.BinaryExpr (Ast.Greater, RelationalExpression, ShiftExpression)
| RelationalExpression(alpha, NoIn) '<=' ShiftExpression(alpha, NoIn) =>
Ast.BinaryExpr (Ast.LessOrEqual, RelationalExpression, ShiftExpression)
| RelationalExpression(alpha, NoIn) '>=' ShiftExpression(alpha, NoIn) =>
Ast.BinaryExpr (Ast.GreaterOrEqual, RelationalExpression, ShiftExpression)
| RelationalExpression(alpha, NoIn) 'instanceof' ShiftExpression(alpha, NoIn) =>
Ast.BinaryExpr (Ast.InstanceOf, RelationalExpression, ShiftExpression)
| RelationalExpression(alpha, NoIn) 'cast' TypeExpression =>
Ast.BinaryTypeExpr (Ast.Cast, RelationalExpression, TypeExpression)
| RelationalExpression(alpha, NoIn) 'is' TypeExpression =>
Ast.BinaryTypeExpr (Ast.Is, RelationalExpression, TypeExpression)
| RelationalExpression(alpha, NoIn) 'like' TypeExpression =>
Ast.BinaryTypeExpr (Ast.Like, RelationalExpression, TypeExpression)
rul EqualityExpression (alpha, beta) : EXPRESSION =
RelationalExpression(alpha, beta) =>
RelationalExpression
| EqualityExpression(alpha, beta) '==' RelationalExpression(alpha, beta) =>
Ast.BinaryExpr (Ast.Equal, EqualityExpression, RelationalExpression)
| EqualityExpression(alpha, beta) '!=' RelationalExpression(alpha, beta) =>
Ast.BinaryExpr (Ast.NotEqual, EqualityExpression, RelationalExpression)
| EqualityExpression(alpha, beta) '===' RelationalExpression(alpha, beta) =>
Ast.BinaryExpr (Ast.StrictEqual, EqualityExpression, RelationalExpression)
| EqualityExpression(alpha, beta) '!==' RelationalExpression(alpha, beta) =>
Ast.BinaryExpr (Ast.StrictNotEqual, EqualityExpression, RelationalExpression)
rul BitwiseAndExpression (alpha, beta) : EXPRESSION =
EqualityExpression(alpha, beta) =>
EqualityExpression
| BitwiseAndExpression(alpha, beta) '&' EqualityExpression(alpha, beta) =>
Ast.BinaryExpr (Ast.BitwiseAnd, BitwiseAndExpression, EqualityExpression)
rul BitwiseXorExpression (alpha, beta) : EXPRESSION =
BitwiseAndExpression(alpha, beta) =>
BitwiseAndExpression
| BitwiseXorExpression(alpha, beta) '^' BitwiseAndExpression(alpha, beta) =>
Ast.BinaryExpr (Ast.BitwiseXor, BitwiseXorExpression, BitwiseAndExpression)
rul BitwiseOrExpression (alpha, beta) : EXPRESSION =
BitwiseXorExpression(alpha, beta) =>
BitwiseXorExpression
| BitwiseOrExpression(alpha, beta) '|' BitwiseXorExpression(alpha, beta) =>
Ast.BinaryExpr (Ast.BitwiseOr, BitwiseOrExpression, BitwiseXorExpression)
rul LogicalAndExpression (alpha, beta) : EXPRESSION =
BitwiseOrExpression(alpha, beta) =>
BitwiseOrExpression
| LogicalAndExpression(alpha, beta) '&&' BitwiseOrExpression(alpha, beta) =>
Ast.BinaryExpr (Ast.LogicalAnd, LogicalAndExpression, BitwiseOrExpression)
rul LogicalOrExpression (alpha, beta) : EXPRESSION =
LogicalAndExpression(alpha, beta) =>
LogicalAndExpression
| LogicalOrExpression(alpha, beta) '||' LogicalAndExpression(alpha, beta) =>
Ast.BinaryExpr (Ast.LogicalOr, LogicalOrExpression, LogicalAndExpression)
rul ConditionalExpression (alpha, beta) : EXPRESSION =
UnaryTypeExpression =>
UnaryTypeExpression
| YieldExpression(alpha, beta) =>
YieldExpression
| LogicalOrExpression(alpha, beta) =>
LogicalOrExpression
| LogicalOrExpression(alpha, beta) '?' AssignmentExpression(alpha, beta)
':' AssignmentExpression(alpha, beta) =>
Ast.ConditionalExpr (LogicalOrExpression, AssignmentExpression,
AssignmentExpression)
rul NonAssignmentExpression (alpha, beta) : EXPRESSION =
UnaryTypeExpression =>
UnaryTypeExpression
| YieldExpression(alpha, beta) =>
YieldExpression
| LogicalOrExpression(alpha, beta) =>
LogicalOrExpression
| LogicalOrExpression(alpha, beta) '?' NonAssignmentExpression(NoColon, beta)
':' NonAssignmentExpression(alpha, beta) =>
Ast.ConditionalExpression (LogicalOrExpression, NonAssignmentExpression,
NonAssignmentExpression)
rul UnaryTypeExpression () : EXPRESSION =
'type' TypeExpression =>
Ast.TypeExpr (TypeExpression)
rul YieldExpression (alpha, beta) : EXPRESSION =
'yield' =>
Ast.YieldExpr (NONE)
| 'yield' [no line break] AssignmentExpression(alpha, beta) =>
Ast.YieldExpr (AssignmentExpression)
rul AssignmentExpression (alpha, beta) : EXPRESSION =
ConditionalExpression(alpha, beta) =>
ConditionalExpression
| Pattern(alpha, beta, AllowExpr) '=' AssignmentExpression(alpha, beta) =>
desugarAssignmentExpression (Ast.Assign, Pattern, AssignmentExpression)
| SimplePattern(alpha, beta, AllowExpr) CompoundAssignmentOperator
AssignmentExpression(alpha, beta) =>
desugarAssignmentExpression (CompoundAssignmentOperator, SimplePattern,
AssignmentExpression)
rul CompoundAssignmentOperator () : ASSIGN_OP =
'*=' =>
Ast.AssignMultiply
| '/=' =>
Ast.AssignDivide
| '%=' =>
Ast.AssignRemainder
| '+=' =>
Ast.AssignPlus
| '-=' =>
Ast.AssignMinus
| '<<=' =>
Ast.AssignLeftShift
| '>>=' =>
Ast.AssignRightShift
| '>>>=' =>
Ast.AssignUnsignedRightShift
| '&=' =>
Ast.AssignBitwiseAnd
| '^=' =>
Ast.AssignBitwiseXor
| '|=' =>
Ast.AssignBitwiseOr
| '&&=' =>
Ast.AssignLogicalAnd
| '||=' =>
Ast.AssignLogicalOr
rul CommaExpression (alpha, beta) : EXPRESSION =
AssignmentExpression(alpha, beta) =>
AssignmentExpression
| CommaExpression(alpha, beta) ',' AssignmentExpression(alpha, beta) =>
Ast.BinaryExpr (Ast.CommaOp, CommaExpression, AssignmentExpression)
(*** PATTERNS ***)
(* NOTE patterns don't survive parsing. they get desugared *)
datatype PATTERN =
ObjectPattern of (IDENTIFIER * PATTERN) list
| ArrayPattern of PATTERN list
| SimplePattern of EXPRESSION
| BindingPattern of IDENTIFIER
rul Pattern(alpha, beta, gamma) : PATTERN =
SimplePattern(alpha, beta, gamma) =>
SimplePattern
| ObjectPattern(gamma) =>
ObjectPattern
| ArrayPattern(gamma) =>
ArrayPattern
rul SimplePattern(alpha, beta, NoExpr) : PATTERN =
Identifier =>
Ast.BindingPattern (Identifier)
rul SimplePattern(alpha, beta, AllowExpr) : PATTERN =
LeftHandSideExpression(alpha, beta) =>
Ast.SimplePattern (LeftHandSideExpression)
rul ObjectPattern(gamma) : PATTERN =
'{' FieldListPattern(gamma) '}' =>
Ast.ObjectPattern (FieldListPattern)
rul FieldListPattern(gamma) : (IDENTIFIER * PATTERN) list =
empty => []
| FieldPattern(gamma) =>
FieldPattern :: []
| FieldListPattern(gamma) ',' FieldPattern(gamma) =>
FieldListPattern @ (FieldPattern :: [])
rul FieldPattern(gamma) : (IDENTIFIER * PATTERN) =
FieldName =>
case FieldName of
Ast.Identifier {identifier,...} => (FieldName, Ast.BindingPattern (identifier))
| _ => error ("invalid field name in field pattern")
| FieldName ':' Pattern(AllowColon, AllowIn, gamma) =>
(FieldName, Pattern)
rul ArrayPattern(gamma) : PATTERN =
'[' ElementListPattern(gamma) ']' =>
ElementListPattern
rul ElementListPattern(gamma) : PATTERN list =
empty =>
[]
| ElementPattern(gamma) =>
ElementPattern :: []
| '...' SimplePattern(AllowColon, AllowIn) =>
Ast.RestPattern (SimplePattern) :: []
| ',' ElementListPattern(gamma) =>
undefined :: ElementListPattern
| ElementPattern(gamma) ',' ElementListPattern(gamma) =>
ElementPattern :: ElementListPattern
rul ElementPattern (gamma) : PATTERN =
Pattern(AllowColon, AllowIn, gamma) =>
Pattern
rul TypedIdentifier () : (PATTERN * TYPE_EXPRESSION) =
SimplePattern(AllowColon, AllowIn, NoExpr) =>
(SimplePattern, Ast.SpecialType (Ast.AnyType))
| SimplePattern(AllowColon, AllowIn, NoExpr) ':' TypeExpression =>
(SimplePattern, TypeExpression)
rul TypedPattern (beta) : (PATTERN * TYPE_EXPRESSION) =
Pattern(AllowColon, beta, NoExpr) =>
(Pattern, Ast.SpecialType (Ast.AnyType))
| Pattern(AllowColon, beta, NoExpr) ':' TypeExpression =>
(Pattern, TypeExpression)
rul LikedPattern (beta) : (PATTERN * TYPE_EXPRESSION) =
Pattern(AllowColon, beta, NoExpr) 'like' TypeExpression =>
(Pattern, Ast.TypePredicate (makeLikePredicate (TypeExpression)))