25 KiB
These are the core Babylon AST node types.
- Node objects
- Changes
- Identifier
- PrivateName
- Literals
- Programs
- Functions
- Statements
- Declarations
- Misc
- Expressions
- Template Literals
- Patterns
- Classes
- Modules
Node objects
AST nodes are represented as Node objects, which may have any prototype inheritance but which implement the following interface:
interface Node {
type: string;
loc: SourceLocation | null;
}
The type field is a string representing the AST variant type. Each subtype of Node is documented below with the specific string of its type field. You can use this field to determine which interface a node implements.
The loc field represents the source location information of the node. If the node contains no information about the source location, the field is null; otherwise it is an object consisting of a start position (the position of the first character of the parsed source region) and an end position (the position of the first character after the parsed source region):
interface SourceLocation {
source: string | null;
start: Position;
end: Position;
}
Each Position object consists of a line number (1-indexed) and a column number (0-indexed):
interface Position {
line: number; // >= 1
column: number; // >= 0
}
Changes
Babylon 7
Flow: Node renamed from ExistentialTypeParam to ExistsTypeAnnotation #322
Flow: Node renamed from NumericLiteralTypeAnnotation to NumberLiteralTypeAnnotation babel/babylon#332
Flow: Node Variance which replaces the string value of the variance field on several nodes babel/babylon#333
Flow: ObjectTypeIndexer location info matches Flow's better babel/babylon#228
Node ForAwaitStatement has been removed #349 in favor of modifying ForOfStatement
RestProperty and SpreadProperty have been dropped in favor of RestElement and SpreadElement.
Identifier
interface Identifier <: Expression, Pattern {
type: "Identifier";
name: string;
}
An identifier. Note that an identifier may be an expression or a destructuring pattern.
PrivateName
interface PrivateName <: Expression, Pattern {
type: "PrivateName";
id: Identifier;
}
A Private Name Identifier.
Literals
interface Literal <: Expression { }
A literal token. May or may not represent an expression.
RegExpLiteral
interface RegExpLiteral <: Literal {
type: "RegExpLiteral";
pattern: string;
flags: string;
}
NullLiteral
interface NullLiteral <: Literal {
type: "NullLiteral";
}
StringLiteral
interface StringLiteral <: Literal {
type: "StringLiteral";
value: string;
}
BooleanLiteral
interface BooleanLiteral <: Literal {
type: "BooleanLiteral";
value: boolean;
}
NumericLiteral
interface NumericLiteral <: Literal {
type: "NumericLiteral";
value: number;
}
Programs
interface Program <: Node {
type: "Program";
sourceType: "script" | "module";
body: [ Statement | ModuleDeclaration ];
directives: [ Directive ];
}
A complete program source tree.
Parsers must specify sourceType as "module" if the source has been parsed as an ES6 module. Otherwise, sourceType must be "script".
Functions
interface Function <: Node {
id: Identifier | null;
params: [ Pattern ];
body: BlockStatement;
generator: boolean;
async: boolean;
}
A function declaration or expression.
Statements
interface Statement <: Node { }
Any statement.
ExpressionStatement
interface ExpressionStatement <: Statement {
type: "ExpressionStatement";
expression: Expression;
}
An expression statement, i.e., a statement consisting of a single expression.
BlockStatement
interface BlockStatement <: Statement {
type: "BlockStatement";
body: [ Statement ];
directives: [ Directive ];
}
A block statement, i.e., a sequence of statements surrounded by braces.
EmptyStatement
interface EmptyStatement <: Statement {
type: "EmptyStatement";
}
An empty statement, i.e., a solitary semicolon.
DebuggerStatement
interface DebuggerStatement <: Statement {
type: "DebuggerStatement";
}
A debugger statement.
WithStatement
interface WithStatement <: Statement {
type: "WithStatement";
object: Expression;
body: Statement;
}
A with statement.
Control flow
ReturnStatement
interface ReturnStatement <: Statement {
type: "ReturnStatement";
argument: Expression | null;
}
A return statement.
LabeledStatement
interface LabeledStatement <: Statement {
type: "LabeledStatement";
label: Identifier;
body: Statement;
}
A labeled statement, i.e., a statement prefixed by a break/continue label.
BreakStatement
interface BreakStatement <: Statement {
type: "BreakStatement";
label: Identifier | null;
}
A break statement.
ContinueStatement
interface ContinueStatement <: Statement {
type: "ContinueStatement";
label: Identifier | null;
}
A continue statement.
Choice
IfStatement
interface IfStatement <: Statement {
type: "IfStatement";
test: Expression;
consequent: Statement;
alternate: Statement | null;
}
An if statement.
SwitchStatement
interface SwitchStatement <: Statement {
type: "SwitchStatement";
discriminant: Expression;
cases: [ SwitchCase ];
}
A switch statement.
SwitchCase
interface SwitchCase <: Node {
type: "SwitchCase";
test: Expression | null;
consequent: [ Statement ];
}
A case (if test is an Expression) or default (if test === null) clause in the body of a switch statement.
Exceptions
ThrowStatement
interface ThrowStatement <: Statement {
type: "ThrowStatement";
argument: Expression;
}
A throw statement.
TryStatement
interface TryStatement <: Statement {
type: "TryStatement";
block: BlockStatement;
handler: CatchClause | null;
finalizer: BlockStatement | null;
}
A try statement. If handler is null then finalizer must be a BlockStatement.
CatchClause
interface CatchClause <: Node {
type: "CatchClause";
param: Pattern | null;
body: BlockStatement;
}
A catch clause following a try block.
Loops
WhileStatement
interface WhileStatement <: Statement {
type: "WhileStatement";
test: Expression;
body: Statement;
}
A while statement.
DoWhileStatement
interface DoWhileStatement <: Statement {
type: "DoWhileStatement";
body: Statement;
test: Expression;
}
A do/while statement.
ForStatement
interface ForStatement <: Statement {
type: "ForStatement";
init: VariableDeclaration | Expression | null;
test: Expression | null;
update: Expression | null;
body: Statement;
}
A for statement.
ForInStatement
interface ForInStatement <: Statement {
type: "ForInStatement";
left: VariableDeclaration | Expression;
right: Expression;
body: Statement;
}
A for/in statement.
ForOfStatement
interface ForOfStatement <: ForInStatement {
type: "ForOfStatement";
await: boolean;
}
Declarations
interface Declaration <: Statement { }
Any declaration node. Note that declarations are considered statements; this is because declarations can appear in any statement context.
FunctionDeclaration
interface FunctionDeclaration <: Function, Declaration {
type: "FunctionDeclaration";
id: Identifier;
}
A function declaration. Note that unlike in the parent interface Function, the id cannot be null, except when this is the child of an ExportDefaultDeclaration.
VariableDeclaration
interface VariableDeclaration <: Declaration {
type: "VariableDeclaration";
declarations: [ VariableDeclarator ];
kind: "var" | "let" | "const";
}
A variable declaration.
VariableDeclarator
interface VariableDeclarator <: Node {
type: "VariableDeclarator";
id: Pattern;
init: Expression | null;
}
A variable declarator.
Misc
Decorator
interface Decorator <: Node {
type: "Decorator";
expression: Expression;
}
Directive
interface Directive <: Node {
type: "Directive";
value: DirectiveLiteral;
}
DirectiveLiteral
interface DirectiveLiteral <: StringLiteral {
type: "DirectiveLiteral";
}
Expressions
interface Expression <: Node { }
Any expression node. Since the left-hand side of an assignment may be any expression in general, an expression can also be a pattern.
Super
interface Super <: Node {
type: "Super";
}
A super pseudo-expression.
Import
interface Import <: Node {
type: "Import";
}
A import pseudo-expression.
ThisExpression
interface ThisExpression <: Expression {
type: "ThisExpression";
}
A this expression.
ArrowFunctionExpression
interface ArrowFunctionExpression <: Function, Expression {
type: "ArrowFunctionExpression";
body: BlockStatement | Expression;
}
A fat arrow function expression, e.g., let foo = (bar) => { /* body */ }.
YieldExpression
interface YieldExpression <: Expression {
type: "YieldExpression";
argument: Expression | null;
delegate: boolean;
}
A yield expression.
AwaitExpression
interface AwaitExpression <: Expression {
type: "AwaitExpression";
argument: Expression | null;
}
A await expression.
ArrayExpression
interface ArrayExpression <: Expression {
type: "ArrayExpression";
elements: [ Expression | SpreadElement | null ];
}
An array expression.
ObjectExpression
interface ObjectExpression <: Expression {
type: "ObjectExpression";
properties: [ ObjectProperty | ObjectMethod | SpreadElement ];
}
An object expression.
ObjectMember
interface ObjectMember <: Node {
key: Expression;
computed: boolean;
decorators: [ Decorator ];
}
ObjectProperty
interface ObjectProperty <: ObjectMember {
type: "ObjectProperty";
shorthand: boolean;
value: Expression;
}
ObjectMethod
interface ObjectMethod <: ObjectMember, Function {
type: "ObjectMethod";
kind: "get" | "set" | "method";
}
FunctionExpression
interface FunctionExpression <: Function, Expression {
type: "FunctionExpression";
}
A function expression.
Unary operations
UnaryExpression
interface UnaryExpression <: Expression {
type: "UnaryExpression";
operator: UnaryOperator;
prefix: boolean;
argument: Expression;
}
A unary operator expression.
UnaryOperator
enum UnaryOperator {
"-" | "+" | "!" | "~" | "typeof" | "void" | "delete" | "throw"
}
A unary operator token.
UpdateExpression
interface UpdateExpression <: Expression {
type: "UpdateExpression";
operator: UpdateOperator;
argument: Expression;
prefix: boolean;
}
An update (increment or decrement) operator expression.
UpdateOperator
enum UpdateOperator {
"++" | "--"
}
An update (increment or decrement) operator token.
Binary operations
BinaryExpression
interface BinaryExpression <: Expression {
type: "BinaryExpression";
operator: BinaryOperator;
left: Expression;
right: Expression;
}
A binary operator expression.
BinaryOperator
enum BinaryOperator {
"==" | "!=" | "===" | "!=="
| "<" | "<=" | ">" | ">="
| "<<" | ">>" | ">>>"
| "+" | "-" | "*" | "/" | "%"
| "**" | "|" | "^" | "&" | "in"
| "instanceof"
| "|>"
}
A binary operator token.
AssignmentExpression
interface AssignmentExpression <: Expression {
type: "AssignmentExpression";
operator: AssignmentOperator;
left: Pattern | Expression;
right: Expression;
}
An assignment operator expression.
AssignmentOperator
enum AssignmentOperator {
"=" | "+=" | "-=" | "*=" | "/=" | "%=" | "**="
| "<<=" | ">>=" | ">>>="
| "|=" | "^=" | "&="
}
An assignment operator token.
LogicalExpression
interface LogicalExpression <: Expression {
type: "LogicalExpression";
operator: LogicalOperator;
left: Expression;
right: Expression;
}
A logical operator expression.
LogicalOperator
enum LogicalOperator {
"||" | "&&" | "??"
}
A logical operator token.
SpreadElement
interface SpreadElement <: Node {
type: "SpreadElement";
argument: Expression;
}
MemberExpression
interface MemberExpression <: Expression, Pattern {
type: "MemberExpression";
object: Expression | Super;
property: Expression;
computed: boolean;
optional: boolean | null;
}
A member expression. If computed is true, the node corresponds to a computed (a[b]) member expression and property is an Expression. If computed is false, the node corresponds to a static (a.b) member expression and property is an Identifier. The optional flags indicates that the member expression can be called even if the object is null or undefined. If this is the object value (null/undefined) should be returned.
BindExpression
interface BindExpression <: Expression {
type: "BindExpression";
object: Expression | null;
callee: Expression;
}
If object is null, then callee should be a MemberExpression.
ConditionalExpression
interface ConditionalExpression <: Expression {
type: "ConditionalExpression";
test: Expression;
alternate: Expression;
consequent: Expression;
}
A conditional expression, i.e., a ternary ?/: expression.
CallExpression
interface CallExpression <: Expression {
type: "CallExpression";
callee: Expression | Super | Import;
arguments: [ Expression | SpreadElement ];
optional: boolean | null;
}
A function or method call expression.
NewExpression
interface NewExpression <: CallExpression {
type: "NewExpression";
optional: boolean | null;
}
A new expression.
SequenceExpression
interface SequenceExpression <: Expression {
type: "SequenceExpression";
expressions: [ Expression ];
}
A sequence expression, i.e., a comma-separated sequence of expressions.
DoExpression
interface DoExpression <: Expression {
type: "DoExpression";
body: BlockStatement
}
Template Literals
TemplateLiteral
interface TemplateLiteral <: Expression {
type: "TemplateLiteral";
quasis: [ TemplateElement ];
expressions: [ Expression ];
}
TaggedTemplateExpression
interface TaggedTemplateExpression <: Expression {
type: "TaggedTemplateExpression";
tag: Expression;
quasi: TemplateLiteral;
}
TemplateElement
interface TemplateElement <: Node {
type: "TemplateElement";
tail: boolean;
value: {
cooked: string | null;
raw: string;
};
}
Patterns
interface Pattern <: Node { }
ObjectPattern
interface AssignmentProperty <: ObjectProperty {
value: Pattern;
}
interface ObjectPattern <: Pattern {
type: "ObjectPattern";
properties: [ AssignmentProperty | RestElement ];
}
ArrayPattern
interface ArrayPattern <: Pattern {
type: "ArrayPattern";
elements: [ Pattern | null ];
}
RestElement
interface RestElement <: Pattern {
type: "RestElement";
argument: Pattern;
}
AssignmentPattern
interface AssignmentPattern <: Pattern {
type: "AssignmentPattern";
left: Pattern;
right: Expression;
}
Classes
interface Class <: Node {
id: Identifier | null;
superClass: Expression | null;
body: ClassBody;
decorators: [ Decorator ];
}
ClassBody
interface ClassBody <: Node {
type: "ClassBody";
body: [ ClassMethod | ClassPrivateMethod | ClassProperty | ClassPrivateProperty ];
}
ClassMethod
interface ClassMethod <: Function {
type: "ClassMethod";
key: Expression;
kind: "constructor" | "method" | "get" | "set";
computed: boolean;
static: boolean;
decorators: [ Decorator ];
}
ClassPrivateMethod
interface ClassPrivateMethod <: Function {
type: "ClassPrivateMethod";
key: PrivateName;
kind: "method" | "get" | "set";
static: boolean;
decorators: [ Decorator ];
}
ClassProperty
interface ClassProperty <: Node {
type: "ClassProperty";
key: Expression;
value: Expression;
static: boolean;
computed: boolean;
}
ClassPrivateProperty
interface ClassPrivateProperty <: Node {
type: "ClassPrivateProperty";
key: PrivateName;
value: Expression;
static: boolean;
}
ClassDeclaration
interface ClassDeclaration <: Class, Declaration {
type: "ClassDeclaration";
id: Identifier;
}
ClassExpression
interface ClassExpression <: Class, Expression {
type: "ClassExpression";
}
MetaProperty
interface MetaProperty <: Expression {
type: "MetaProperty";
meta: Identifier;
property: Identifier;
}
Modules
ModuleDeclaration
interface ModuleDeclaration <: Node { }
A module import or export declaration.
ModuleSpecifier
interface ModuleSpecifier <: Node {
local: Identifier;
}
A specifier in an import or export declaration.
Imports
ImportDeclaration
interface ImportDeclaration <: ModuleDeclaration {
type: "ImportDeclaration";
specifiers: [ ImportSpecifier | ImportDefaultSpecifier | ImportNamespaceSpecifier ];
source: Literal;
}
An import declaration, e.g., import foo from "mod";.
ImportSpecifier
interface ImportSpecifier <: ModuleSpecifier {
type: "ImportSpecifier";
imported: Identifier;
}
An imported variable binding, e.g., {foo} in import {foo} from "mod" or {foo as bar} in import {foo as bar} from "mod". The imported field refers to the name of the export imported from the module. The local field refers to the binding imported into the local module scope. If it is a basic named import, such as in import {foo} from "mod", both imported and local are equivalent Identifier nodes; in this case an Identifier node representing foo. If it is an aliased import, such as in import {foo as bar} from "mod", the imported field is an Identifier node representing foo, and the local field is an Identifier node representing bar.
ImportDefaultSpecifier
interface ImportDefaultSpecifier <: ModuleSpecifier {
type: "ImportDefaultSpecifier";
}
A default import specifier, e.g., foo in import foo from "mod.js".
ImportNamespaceSpecifier
interface ImportNamespaceSpecifier <: ModuleSpecifier {
type: "ImportNamespaceSpecifier";
}
A namespace import specifier, e.g., * as foo in import * as foo from "mod.js".
Exports
ExportNamedDeclaration
interface ExportNamedDeclaration <: ModuleDeclaration {
type: "ExportNamedDeclaration";
declaration: Declaration | null;
specifiers: [ ExportSpecifier ];
source: Literal | null;
}
An export named declaration, e.g., export {foo, bar};, export {foo} from "mod";, export var foo = 1; or export * as foo from "bar";.
Note: Having declaration populated with non-empty specifiers or non-null source results in an invalid state.
ExportSpecifier
interface ExportSpecifier <: ModuleSpecifier {
type: "ExportSpecifier";
exported: Identifier;
}
An exported variable binding, e.g., {foo} in export {foo} or {bar as foo} in export {bar as foo}. The exported field refers to the name exported in the module. The local field refers to the binding into the local module scope. If it is a basic named export, such as in export {foo}, both exported and local are equivalent Identifier nodes; in this case an Identifier node representing foo. If it is an aliased export, such as in export {bar as foo}, the exported field is an Identifier node representing foo, and the local field is an Identifier node representing bar.
ExportDefaultDeclaration
interface OptFunctionDeclaration <: FunctionDeclaration {
id: Identifier | null;
}
interface OptClassDeclaration <: ClassDeclaration {
id: Identifier | null;
}
interface ExportDefaultDeclaration <: ModuleDeclaration {
type: "ExportDefaultDeclaration";
declaration: OptFunctionDeclaration | OptClassDeclaration | Expression;
}
An export default declaration, e.g., export default function () {}; or export default 1;.
ExportAllDeclaration
interface ExportAllDeclaration <: ModuleDeclaration {
type: "ExportAllDeclaration";
source: Literal;
}
An export batch declaration, e.g., export * from "mod";.