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fediversity.eu/node_modules/sucrase/dist/esm/parser/traverser/statement.js

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2024-03-26 16:28:28 +01:00
/* eslint max-len: 0 */
import {File} from "../index";
import {
flowAfterParseClassSuper,
flowAfterParseVarHead,
flowParseExportDeclaration,
flowParseExportStar,
flowParseIdentifierStatement,
flowParseImportSpecifier,
flowParseTypeAnnotation,
flowParseTypeParameterDeclaration,
flowShouldDisallowExportDefaultSpecifier,
flowShouldParseExportDeclaration,
flowShouldParseExportStar,
flowStartParseFunctionParams,
flowStartParseImportSpecifiers,
flowTryParseExportDefaultExpression,
flowTryParseStatement,
} from "../plugins/flow";
import {
tsAfterParseClassSuper,
tsAfterParseVarHead,
tsIsDeclarationStart,
tsParseExportDeclaration,
tsParseExportSpecifier,
tsParseIdentifierStatement,
tsParseImportEqualsDeclaration,
tsParseImportSpecifier,
tsParseMaybeDecoratorArguments,
tsParseModifiers,
tsStartParseFunctionParams,
tsTryParseClassMemberWithIsStatic,
tsTryParseExport,
tsTryParseExportDefaultExpression,
tsTryParseStatementContent,
tsTryParseTypeAnnotation,
tsTryParseTypeParameters,
} from "../plugins/typescript";
import {
eat,
eatTypeToken,
IdentifierRole,
lookaheadType,
lookaheadTypeAndKeyword,
match,
next,
nextTokenStart,
nextTokenStartSince,
popTypeContext,
pushTypeContext,
} from "../tokenizer";
import {ContextualKeyword} from "../tokenizer/keywords";
import {Scope} from "../tokenizer/state";
import { TokenType as tt} from "../tokenizer/types";
import {charCodes} from "../util/charcodes";
import {getNextContextId, input, isFlowEnabled, isTypeScriptEnabled, state} from "./base";
import {
parseCallExpressionArguments,
parseExprAtom,
parseExpression,
parseExprSubscripts,
parseFunctionBodyAndFinish,
parseIdentifier,
parseMaybeAssign,
parseMethod,
parseObj,
parseParenExpression,
parsePropertyName,
} from "./expression";
import {
parseBindingAtom,
parseBindingIdentifier,
parseBindingList,
parseImportedIdentifier,
} from "./lval";
import {
canInsertSemicolon,
eatContextual,
expect,
expectContextual,
hasFollowingLineBreak,
hasPrecedingLineBreak,
isContextual,
isLineTerminator,
isLookaheadContextual,
semicolon,
unexpected,
} from "./util";
export function parseTopLevel() {
parseBlockBody(tt.eof);
state.scopes.push(new Scope(0, state.tokens.length, true));
if (state.scopeDepth !== 0) {
throw new Error(`Invalid scope depth at end of file: ${state.scopeDepth}`);
}
return new File(state.tokens, state.scopes);
}
// Parse a single statement.
//
// If expecting a statement and finding a slash operator, parse a
// regular expression literal. This is to handle cases like
// `if (foo) /blah/.exec(foo)`, where looking at the previous token
// does not help.
export function parseStatement(declaration) {
if (isFlowEnabled) {
if (flowTryParseStatement()) {
return;
}
}
if (match(tt.at)) {
parseDecorators();
}
parseStatementContent(declaration);
}
function parseStatementContent(declaration) {
if (isTypeScriptEnabled) {
if (tsTryParseStatementContent()) {
return;
}
}
const starttype = state.type;
// Most types of statements are recognized by the keyword they
// start with. Many are trivial to parse, some require a bit of
// complexity.
switch (starttype) {
case tt._break:
case tt._continue:
parseBreakContinueStatement();
return;
case tt._debugger:
parseDebuggerStatement();
return;
case tt._do:
parseDoStatement();
return;
case tt._for:
parseForStatement();
return;
case tt._function:
if (lookaheadType() === tt.dot) break;
if (!declaration) unexpected();
parseFunctionStatement();
return;
case tt._class:
if (!declaration) unexpected();
parseClass(true);
return;
case tt._if:
parseIfStatement();
return;
case tt._return:
parseReturnStatement();
return;
case tt._switch:
parseSwitchStatement();
return;
case tt._throw:
parseThrowStatement();
return;
case tt._try:
parseTryStatement();
return;
case tt._let:
case tt._const:
if (!declaration) unexpected(); // NOTE: falls through to _var
case tt._var:
parseVarStatement(starttype !== tt._var);
return;
case tt._while:
parseWhileStatement();
return;
case tt.braceL:
parseBlock();
return;
case tt.semi:
parseEmptyStatement();
return;
case tt._export:
case tt._import: {
const nextType = lookaheadType();
if (nextType === tt.parenL || nextType === tt.dot) {
break;
}
next();
if (starttype === tt._import) {
parseImport();
} else {
parseExport();
}
return;
}
case tt.name:
if (state.contextualKeyword === ContextualKeyword._async) {
const functionStart = state.start;
// peek ahead and see if next token is a function
const snapshot = state.snapshot();
next();
if (match(tt._function) && !canInsertSemicolon()) {
expect(tt._function);
parseFunction(functionStart, true);
return;
} else {
state.restoreFromSnapshot(snapshot);
}
} else if (
state.contextualKeyword === ContextualKeyword._using &&
!hasFollowingLineBreak() &&
// Statements like `using[0]` and `using in foo` aren't actual using
// declarations.
lookaheadType() === tt.name
) {
parseVarStatement(true);
return;
} else if (startsAwaitUsing()) {
expectContextual(ContextualKeyword._await);
parseVarStatement(true);
return;
}
default:
// Do nothing.
break;
}
// If the statement does not start with a statement keyword or a
// brace, it's an ExpressionStatement or LabeledStatement. We
// simply start parsing an expression, and afterwards, if the
// next token is a colon and the expression was a simple
// Identifier node, we switch to interpreting it as a label.
const initialTokensLength = state.tokens.length;
parseExpression();
let simpleName = null;
if (state.tokens.length === initialTokensLength + 1) {
const token = state.tokens[state.tokens.length - 1];
if (token.type === tt.name) {
simpleName = token.contextualKeyword;
}
}
if (simpleName == null) {
semicolon();
return;
}
if (eat(tt.colon)) {
parseLabeledStatement();
} else {
// This was an identifier, so we might want to handle flow/typescript-specific cases.
parseIdentifierStatement(simpleName);
}
}
/**
* Determine if we're positioned at an `await using` declaration.
*
* Note that this can happen either in place of a regular variable declaration
* or in a loop body, and in both places, there are similar-looking cases where
* we need to return false.
*
* Examples returning true:
* await using foo = bar();
* for (await using a of b) {}
*
* Examples returning false:
* await using
* await using + 1
* await using instanceof T
* for (await using;;) {}
*
* For now, we early return if we don't see `await`, then do a simple
* backtracking-based lookahead for the `using` and identifier tokens. In the
* future, this could be optimized with a character-based approach.
*/
function startsAwaitUsing() {
if (!isContextual(ContextualKeyword._await)) {
return false;
}
const snapshot = state.snapshot();
// await
next();
if (!isContextual(ContextualKeyword._using) || hasPrecedingLineBreak()) {
state.restoreFromSnapshot(snapshot);
return false;
}
// using
next();
if (!match(tt.name) || hasPrecedingLineBreak()) {
state.restoreFromSnapshot(snapshot);
return false;
}
state.restoreFromSnapshot(snapshot);
return true;
}
export function parseDecorators() {
while (match(tt.at)) {
parseDecorator();
}
}
function parseDecorator() {
next();
if (eat(tt.parenL)) {
parseExpression();
expect(tt.parenR);
} else {
parseIdentifier();
while (eat(tt.dot)) {
parseIdentifier();
}
parseMaybeDecoratorArguments();
}
}
function parseMaybeDecoratorArguments() {
if (isTypeScriptEnabled) {
tsParseMaybeDecoratorArguments();
} else {
baseParseMaybeDecoratorArguments();
}
}
export function baseParseMaybeDecoratorArguments() {
if (eat(tt.parenL)) {
parseCallExpressionArguments();
}
}
function parseBreakContinueStatement() {
next();
if (!isLineTerminator()) {
parseIdentifier();
semicolon();
}
}
function parseDebuggerStatement() {
next();
semicolon();
}
function parseDoStatement() {
next();
parseStatement(false);
expect(tt._while);
parseParenExpression();
eat(tt.semi);
}
function parseForStatement() {
state.scopeDepth++;
const startTokenIndex = state.tokens.length;
parseAmbiguousForStatement();
const endTokenIndex = state.tokens.length;
state.scopes.push(new Scope(startTokenIndex, endTokenIndex, false));
state.scopeDepth--;
}
/**
* Determine if this token is a `using` declaration (explicit resource
* management) as part of a loop.
* https://github.com/tc39/proposal-explicit-resource-management
*/
function isUsingInLoop() {
if (!isContextual(ContextualKeyword._using)) {
return false;
}
// This must be `for (using of`, where `using` is the name of the loop
// variable.
if (isLookaheadContextual(ContextualKeyword._of)) {
return false;
}
return true;
}
// Disambiguating between a `for` and a `for`/`in` or `for`/`of`
// loop is non-trivial. Basically, we have to parse the init `var`
// statement or expression, disallowing the `in` operator (see
// the second parameter to `parseExpression`), and then check
// whether the next token is `in` or `of`. When there is no init
// part (semicolon immediately after the opening parenthesis), it
// is a regular `for` loop.
function parseAmbiguousForStatement() {
next();
let forAwait = false;
if (isContextual(ContextualKeyword._await)) {
forAwait = true;
next();
}
expect(tt.parenL);
if (match(tt.semi)) {
if (forAwait) {
unexpected();
}
parseFor();
return;
}
const isAwaitUsing = startsAwaitUsing();
if (isAwaitUsing || match(tt._var) || match(tt._let) || match(tt._const) || isUsingInLoop()) {
if (isAwaitUsing) {
expectContextual(ContextualKeyword._await);
}
next();
parseVar(true, state.type !== tt._var);
if (match(tt._in) || isContextual(ContextualKeyword._of)) {
parseForIn(forAwait);
return;
}
parseFor();
return;
}
parseExpression(true);
if (match(tt._in) || isContextual(ContextualKeyword._of)) {
parseForIn(forAwait);
return;
}
if (forAwait) {
unexpected();
}
parseFor();
}
function parseFunctionStatement() {
const functionStart = state.start;
next();
parseFunction(functionStart, true);
}
function parseIfStatement() {
next();
parseParenExpression();
parseStatement(false);
if (eat(tt._else)) {
parseStatement(false);
}
}
function parseReturnStatement() {
next();
// In `return` (and `break`/`continue`), the keywords with
// optional arguments, we eagerly look for a semicolon or the
// possibility to insert one.
if (!isLineTerminator()) {
parseExpression();
semicolon();
}
}
function parseSwitchStatement() {
next();
parseParenExpression();
state.scopeDepth++;
const startTokenIndex = state.tokens.length;
expect(tt.braceL);
// Don't bother validation; just go through any sequence of cases, defaults, and statements.
while (!match(tt.braceR) && !state.error) {
if (match(tt._case) || match(tt._default)) {
const isCase = match(tt._case);
next();
if (isCase) {
parseExpression();
}
expect(tt.colon);
} else {
parseStatement(true);
}
}
next(); // Closing brace
const endTokenIndex = state.tokens.length;
state.scopes.push(new Scope(startTokenIndex, endTokenIndex, false));
state.scopeDepth--;
}
function parseThrowStatement() {
next();
parseExpression();
semicolon();
}
function parseCatchClauseParam() {
parseBindingAtom(true /* isBlockScope */);
if (isTypeScriptEnabled) {
tsTryParseTypeAnnotation();
}
}
function parseTryStatement() {
next();
parseBlock();
if (match(tt._catch)) {
next();
let catchBindingStartTokenIndex = null;
if (match(tt.parenL)) {
state.scopeDepth++;
catchBindingStartTokenIndex = state.tokens.length;
expect(tt.parenL);
parseCatchClauseParam();
expect(tt.parenR);
}
parseBlock();
if (catchBindingStartTokenIndex != null) {
// We need a special scope for the catch binding which includes the binding itself and the
// catch block.
const endTokenIndex = state.tokens.length;
state.scopes.push(new Scope(catchBindingStartTokenIndex, endTokenIndex, false));
state.scopeDepth--;
}
}
if (eat(tt._finally)) {
parseBlock();
}
}
export function parseVarStatement(isBlockScope) {
next();
parseVar(false, isBlockScope);
semicolon();
}
function parseWhileStatement() {
next();
parseParenExpression();
parseStatement(false);
}
function parseEmptyStatement() {
next();
}
function parseLabeledStatement() {
parseStatement(true);
}
/**
* Parse a statement starting with an identifier of the given name. Subclasses match on the name
* to handle statements like "declare".
*/
function parseIdentifierStatement(contextualKeyword) {
if (isTypeScriptEnabled) {
tsParseIdentifierStatement(contextualKeyword);
} else if (isFlowEnabled) {
flowParseIdentifierStatement(contextualKeyword);
} else {
semicolon();
}
}
// Parse a semicolon-enclosed block of statements.
export function parseBlock(isFunctionScope = false, contextId = 0) {
const startTokenIndex = state.tokens.length;
state.scopeDepth++;
expect(tt.braceL);
if (contextId) {
state.tokens[state.tokens.length - 1].contextId = contextId;
}
parseBlockBody(tt.braceR);
if (contextId) {
state.tokens[state.tokens.length - 1].contextId = contextId;
}
const endTokenIndex = state.tokens.length;
state.scopes.push(new Scope(startTokenIndex, endTokenIndex, isFunctionScope));
state.scopeDepth--;
}
export function parseBlockBody(end) {
while (!eat(end) && !state.error) {
parseStatement(true);
}
}
// Parse a regular `for` loop. The disambiguation code in
// `parseStatement` will already have parsed the init statement or
// expression.
function parseFor() {
expect(tt.semi);
if (!match(tt.semi)) {
parseExpression();
}
expect(tt.semi);
if (!match(tt.parenR)) {
parseExpression();
}
expect(tt.parenR);
parseStatement(false);
}
// Parse a `for`/`in` and `for`/`of` loop, which are almost
// same from parser's perspective.
function parseForIn(forAwait) {
if (forAwait) {
eatContextual(ContextualKeyword._of);
} else {
next();
}
parseExpression();
expect(tt.parenR);
parseStatement(false);
}
// Parse a list of variable declarations.
function parseVar(isFor, isBlockScope) {
while (true) {
parseVarHead(isBlockScope);
if (eat(tt.eq)) {
const eqIndex = state.tokens.length - 1;
parseMaybeAssign(isFor);
state.tokens[eqIndex].rhsEndIndex = state.tokens.length;
}
if (!eat(tt.comma)) {
break;
}
}
}
function parseVarHead(isBlockScope) {
parseBindingAtom(isBlockScope);
if (isTypeScriptEnabled) {
tsAfterParseVarHead();
} else if (isFlowEnabled) {
flowAfterParseVarHead();
}
}
// Parse a function declaration or literal (depending on the
// `isStatement` parameter).
export function parseFunction(
functionStart,
isStatement,
optionalId = false,
) {
if (match(tt.star)) {
next();
}
if (isStatement && !optionalId && !match(tt.name) && !match(tt._yield)) {
unexpected();
}
let nameScopeStartTokenIndex = null;
if (match(tt.name)) {
// Expression-style functions should limit their name's scope to the function body, so we make
// a new function scope to enforce that.
if (!isStatement) {
nameScopeStartTokenIndex = state.tokens.length;
state.scopeDepth++;
}
parseBindingIdentifier(false);
}
const startTokenIndex = state.tokens.length;
state.scopeDepth++;
parseFunctionParams();
parseFunctionBodyAndFinish(functionStart);
const endTokenIndex = state.tokens.length;
// In addition to the block scope of the function body, we need a separate function-style scope
// that includes the params.
state.scopes.push(new Scope(startTokenIndex, endTokenIndex, true));
state.scopeDepth--;
if (nameScopeStartTokenIndex !== null) {
state.scopes.push(new Scope(nameScopeStartTokenIndex, endTokenIndex, true));
state.scopeDepth--;
}
}
export function parseFunctionParams(
allowModifiers = false,
funcContextId = 0,
) {
if (isTypeScriptEnabled) {
tsStartParseFunctionParams();
} else if (isFlowEnabled) {
flowStartParseFunctionParams();
}
expect(tt.parenL);
if (funcContextId) {
state.tokens[state.tokens.length - 1].contextId = funcContextId;
}
parseBindingList(
tt.parenR,
false /* isBlockScope */,
false /* allowEmpty */,
allowModifiers,
funcContextId,
);
if (funcContextId) {
state.tokens[state.tokens.length - 1].contextId = funcContextId;
}
}
// Parse a class declaration or literal (depending on the
// `isStatement` parameter).
export function parseClass(isStatement, optionalId = false) {
// Put a context ID on the class keyword, the open-brace, and the close-brace, so that later
// code can easily navigate to meaningful points on the class.
const contextId = getNextContextId();
next();
state.tokens[state.tokens.length - 1].contextId = contextId;
state.tokens[state.tokens.length - 1].isExpression = !isStatement;
// Like with functions, we declare a special "name scope" from the start of the name to the end
// of the class, but only with expression-style classes, to represent the fact that the name is
// available to the body of the class but not an outer declaration.
let nameScopeStartTokenIndex = null;
if (!isStatement) {
nameScopeStartTokenIndex = state.tokens.length;
state.scopeDepth++;
}
parseClassId(isStatement, optionalId);
parseClassSuper();
const openBraceIndex = state.tokens.length;
parseClassBody(contextId);
if (state.error) {
return;
}
state.tokens[openBraceIndex].contextId = contextId;
state.tokens[state.tokens.length - 1].contextId = contextId;
if (nameScopeStartTokenIndex !== null) {
const endTokenIndex = state.tokens.length;
state.scopes.push(new Scope(nameScopeStartTokenIndex, endTokenIndex, false));
state.scopeDepth--;
}
}
function isClassProperty() {
return match(tt.eq) || match(tt.semi) || match(tt.braceR) || match(tt.bang) || match(tt.colon);
}
function isClassMethod() {
return match(tt.parenL) || match(tt.lessThan);
}
function parseClassBody(classContextId) {
expect(tt.braceL);
while (!eat(tt.braceR) && !state.error) {
if (eat(tt.semi)) {
continue;
}
if (match(tt.at)) {
parseDecorator();
continue;
}
const memberStart = state.start;
parseClassMember(memberStart, classContextId);
}
}
function parseClassMember(memberStart, classContextId) {
if (isTypeScriptEnabled) {
tsParseModifiers([
ContextualKeyword._declare,
ContextualKeyword._public,
ContextualKeyword._protected,
ContextualKeyword._private,
ContextualKeyword._override,
]);
}
let isStatic = false;
if (match(tt.name) && state.contextualKeyword === ContextualKeyword._static) {
parseIdentifier(); // eats 'static'
if (isClassMethod()) {
parseClassMethod(memberStart, /* isConstructor */ false);
return;
} else if (isClassProperty()) {
parseClassProperty();
return;
}
// otherwise something static
state.tokens[state.tokens.length - 1].type = tt._static;
isStatic = true;
if (match(tt.braceL)) {
// This is a static block. Mark the word "static" with the class context ID for class element
// detection and parse as a regular block.
state.tokens[state.tokens.length - 1].contextId = classContextId;
parseBlock();
return;
}
}
parseClassMemberWithIsStatic(memberStart, isStatic, classContextId);
}
function parseClassMemberWithIsStatic(
memberStart,
isStatic,
classContextId,
) {
if (isTypeScriptEnabled) {
if (tsTryParseClassMemberWithIsStatic(isStatic)) {
return;
}
}
if (eat(tt.star)) {
// a generator
parseClassPropertyName(classContextId);
parseClassMethod(memberStart, /* isConstructor */ false);
return;
}
// Get the identifier name so we can tell if it's actually a keyword like "async", "get", or
// "set".
parseClassPropertyName(classContextId);
let isConstructor = false;
const token = state.tokens[state.tokens.length - 1];
// We allow "constructor" as either an identifier or a string.
if (token.contextualKeyword === ContextualKeyword._constructor) {
isConstructor = true;
}
parsePostMemberNameModifiers();
if (isClassMethod()) {
parseClassMethod(memberStart, isConstructor);
} else if (isClassProperty()) {
parseClassProperty();
} else if (token.contextualKeyword === ContextualKeyword._async && !isLineTerminator()) {
state.tokens[state.tokens.length - 1].type = tt._async;
// an async method
const isGenerator = match(tt.star);
if (isGenerator) {
next();
}
// The so-called parsed name would have been "async": get the real name.
parseClassPropertyName(classContextId);
parsePostMemberNameModifiers();
parseClassMethod(memberStart, false /* isConstructor */);
} else if (
(token.contextualKeyword === ContextualKeyword._get ||
token.contextualKeyword === ContextualKeyword._set) &&
!(isLineTerminator() && match(tt.star))
) {
if (token.contextualKeyword === ContextualKeyword._get) {
state.tokens[state.tokens.length - 1].type = tt._get;
} else {
state.tokens[state.tokens.length - 1].type = tt._set;
}
// `get\n*` is an uninitialized property named 'get' followed by a generator.
// a getter or setter
// The so-called parsed name would have been "get/set": get the real name.
parseClassPropertyName(classContextId);
parseClassMethod(memberStart, /* isConstructor */ false);
} else if (token.contextualKeyword === ContextualKeyword._accessor && !isLineTerminator()) {
parseClassPropertyName(classContextId);
parseClassProperty();
} else if (isLineTerminator()) {
// an uninitialized class property (due to ASI, since we don't otherwise recognize the next token)
parseClassProperty();
} else {
unexpected();
}
}
function parseClassMethod(functionStart, isConstructor) {
if (isTypeScriptEnabled) {
tsTryParseTypeParameters();
} else if (isFlowEnabled) {
if (match(tt.lessThan)) {
flowParseTypeParameterDeclaration();
}
}
parseMethod(functionStart, isConstructor);
}
// Return the name of the class property, if it is a simple identifier.
export function parseClassPropertyName(classContextId) {
parsePropertyName(classContextId);
}
export function parsePostMemberNameModifiers() {
if (isTypeScriptEnabled) {
const oldIsType = pushTypeContext(0);
eat(tt.question);
popTypeContext(oldIsType);
}
}
export function parseClassProperty() {
if (isTypeScriptEnabled) {
eatTypeToken(tt.bang);
tsTryParseTypeAnnotation();
} else if (isFlowEnabled) {
if (match(tt.colon)) {
flowParseTypeAnnotation();
}
}
if (match(tt.eq)) {
const equalsTokenIndex = state.tokens.length;
next();
parseMaybeAssign();
state.tokens[equalsTokenIndex].rhsEndIndex = state.tokens.length;
}
semicolon();
}
function parseClassId(isStatement, optionalId = false) {
if (
isTypeScriptEnabled &&
(!isStatement || optionalId) &&
isContextual(ContextualKeyword._implements)
) {
return;
}
if (match(tt.name)) {
parseBindingIdentifier(true);
}
if (isTypeScriptEnabled) {
tsTryParseTypeParameters();
} else if (isFlowEnabled) {
if (match(tt.lessThan)) {
flowParseTypeParameterDeclaration();
}
}
}
// Returns true if there was a superclass.
function parseClassSuper() {
let hasSuper = false;
if (eat(tt._extends)) {
parseExprSubscripts();
hasSuper = true;
} else {
hasSuper = false;
}
if (isTypeScriptEnabled) {
tsAfterParseClassSuper(hasSuper);
} else if (isFlowEnabled) {
flowAfterParseClassSuper(hasSuper);
}
}
// Parses module export declaration.
export function parseExport() {
const exportIndex = state.tokens.length - 1;
if (isTypeScriptEnabled) {
if (tsTryParseExport()) {
return;
}
}
// export * from '...'
if (shouldParseExportStar()) {
parseExportStar();
} else if (isExportDefaultSpecifier()) {
// export default from
parseIdentifier();
if (match(tt.comma) && lookaheadType() === tt.star) {
expect(tt.comma);
expect(tt.star);
expectContextual(ContextualKeyword._as);
parseIdentifier();
} else {
parseExportSpecifiersMaybe();
}
parseExportFrom();
} else if (eat(tt._default)) {
// export default ...
parseExportDefaultExpression();
} else if (shouldParseExportDeclaration()) {
parseExportDeclaration();
} else {
// export { x, y as z } [from '...']
parseExportSpecifiers();
parseExportFrom();
}
state.tokens[exportIndex].rhsEndIndex = state.tokens.length;
}
function parseExportDefaultExpression() {
if (isTypeScriptEnabled) {
if (tsTryParseExportDefaultExpression()) {
return;
}
}
if (isFlowEnabled) {
if (flowTryParseExportDefaultExpression()) {
return;
}
}
const functionStart = state.start;
if (eat(tt._function)) {
parseFunction(functionStart, true, true);
} else if (isContextual(ContextualKeyword._async) && lookaheadType() === tt._function) {
// async function declaration
eatContextual(ContextualKeyword._async);
eat(tt._function);
parseFunction(functionStart, true, true);
} else if (match(tt._class)) {
parseClass(true, true);
} else if (match(tt.at)) {
parseDecorators();
parseClass(true, true);
} else {
parseMaybeAssign();
semicolon();
}
}
function parseExportDeclaration() {
if (isTypeScriptEnabled) {
tsParseExportDeclaration();
} else if (isFlowEnabled) {
flowParseExportDeclaration();
} else {
parseStatement(true);
}
}
function isExportDefaultSpecifier() {
if (isTypeScriptEnabled && tsIsDeclarationStart()) {
return false;
} else if (isFlowEnabled && flowShouldDisallowExportDefaultSpecifier()) {
return false;
}
if (match(tt.name)) {
return state.contextualKeyword !== ContextualKeyword._async;
}
if (!match(tt._default)) {
return false;
}
const _next = nextTokenStart();
const lookahead = lookaheadTypeAndKeyword();
const hasFrom =
lookahead.type === tt.name && lookahead.contextualKeyword === ContextualKeyword._from;
if (lookahead.type === tt.comma) {
return true;
}
// lookahead again when `export default from` is seen
if (hasFrom) {
const nextAfterFrom = input.charCodeAt(nextTokenStartSince(_next + 4));
return nextAfterFrom === charCodes.quotationMark || nextAfterFrom === charCodes.apostrophe;
}
return false;
}
function parseExportSpecifiersMaybe() {
if (eat(tt.comma)) {
parseExportSpecifiers();
}
}
export function parseExportFrom() {
if (eatContextual(ContextualKeyword._from)) {
parseExprAtom();
maybeParseImportAttributes();
}
semicolon();
}
function shouldParseExportStar() {
if (isFlowEnabled) {
return flowShouldParseExportStar();
} else {
return match(tt.star);
}
}
function parseExportStar() {
if (isFlowEnabled) {
flowParseExportStar();
} else {
baseParseExportStar();
}
}
export function baseParseExportStar() {
expect(tt.star);
if (isContextual(ContextualKeyword._as)) {
parseExportNamespace();
} else {
parseExportFrom();
}
}
function parseExportNamespace() {
next();
state.tokens[state.tokens.length - 1].type = tt._as;
parseIdentifier();
parseExportSpecifiersMaybe();
parseExportFrom();
}
function shouldParseExportDeclaration() {
return (
(isTypeScriptEnabled && tsIsDeclarationStart()) ||
(isFlowEnabled && flowShouldParseExportDeclaration()) ||
state.type === tt._var ||
state.type === tt._const ||
state.type === tt._let ||
state.type === tt._function ||
state.type === tt._class ||
isContextual(ContextualKeyword._async) ||
match(tt.at)
);
}
// Parses a comma-separated list of module exports.
export function parseExportSpecifiers() {
let first = true;
// export { x, y as z } [from '...']
expect(tt.braceL);
while (!eat(tt.braceR) && !state.error) {
if (first) {
first = false;
} else {
expect(tt.comma);
if (eat(tt.braceR)) {
break;
}
}
parseExportSpecifier();
}
}
function parseExportSpecifier() {
if (isTypeScriptEnabled) {
tsParseExportSpecifier();
return;
}
parseIdentifier();
state.tokens[state.tokens.length - 1].identifierRole = IdentifierRole.ExportAccess;
if (eatContextual(ContextualKeyword._as)) {
parseIdentifier();
}
}
/**
* Starting at the `module` token in an import, determine if it was truly an
* import reflection token or just looks like one.
*
* Returns true for:
* import module foo from "foo";
* import module from from "foo";
*
* Returns false for:
* import module from "foo";
* import module, {bar} from "foo";
*/
function isImportReflection() {
const snapshot = state.snapshot();
expectContextual(ContextualKeyword._module);
if (eatContextual(ContextualKeyword._from)) {
if (isContextual(ContextualKeyword._from)) {
state.restoreFromSnapshot(snapshot);
return true;
} else {
state.restoreFromSnapshot(snapshot);
return false;
}
} else if (match(tt.comma)) {
state.restoreFromSnapshot(snapshot);
return false;
} else {
state.restoreFromSnapshot(snapshot);
return true;
}
}
/**
* Eat the "module" token from the import reflection proposal.
* https://github.com/tc39/proposal-import-reflection
*/
function parseMaybeImportReflection() {
// isImportReflection does snapshot/restore, so only run it if we see the word
// "module".
if (isContextual(ContextualKeyword._module) && isImportReflection()) {
next();
}
}
// Parses import declaration.
export function parseImport() {
if (isTypeScriptEnabled && match(tt.name) && lookaheadType() === tt.eq) {
tsParseImportEqualsDeclaration();
return;
}
if (isTypeScriptEnabled && isContextual(ContextualKeyword._type)) {
const lookahead = lookaheadTypeAndKeyword();
if (lookahead.type === tt.name && lookahead.contextualKeyword !== ContextualKeyword._from) {
// One of these `import type` cases:
// import type T = require('T');
// import type A from 'A';
expectContextual(ContextualKeyword._type);
if (lookaheadType() === tt.eq) {
tsParseImportEqualsDeclaration();
return;
}
// If this is an `import type...from` statement, then we already ate the
// type token, so proceed to the regular import parser.
} else if (lookahead.type === tt.star || lookahead.type === tt.braceL) {
// One of these `import type` cases, in which case we can eat the type token
// and proceed as normal:
// import type * as A from 'A';
// import type {a} from 'A';
expectContextual(ContextualKeyword._type);
}
// Otherwise, we are importing the name "type".
}
// import '...'
if (match(tt.string)) {
parseExprAtom();
} else {
parseMaybeImportReflection();
parseImportSpecifiers();
expectContextual(ContextualKeyword._from);
parseExprAtom();
}
maybeParseImportAttributes();
semicolon();
}
// eslint-disable-next-line no-unused-vars
function shouldParseDefaultImport() {
return match(tt.name);
}
function parseImportSpecifierLocal() {
parseImportedIdentifier();
}
// Parses a comma-separated list of module imports.
function parseImportSpecifiers() {
if (isFlowEnabled) {
flowStartParseImportSpecifiers();
}
let first = true;
if (shouldParseDefaultImport()) {
// import defaultObj, { x, y as z } from '...'
parseImportSpecifierLocal();
if (!eat(tt.comma)) return;
}
if (match(tt.star)) {
next();
expectContextual(ContextualKeyword._as);
parseImportSpecifierLocal();
return;
}
expect(tt.braceL);
while (!eat(tt.braceR) && !state.error) {
if (first) {
first = false;
} else {
// Detect an attempt to deep destructure
if (eat(tt.colon)) {
unexpected(
"ES2015 named imports do not destructure. Use another statement for destructuring after the import.",
);
}
expect(tt.comma);
if (eat(tt.braceR)) {
break;
}
}
parseImportSpecifier();
}
}
function parseImportSpecifier() {
if (isTypeScriptEnabled) {
tsParseImportSpecifier();
return;
}
if (isFlowEnabled) {
flowParseImportSpecifier();
return;
}
parseImportedIdentifier();
if (isContextual(ContextualKeyword._as)) {
state.tokens[state.tokens.length - 1].identifierRole = IdentifierRole.ImportAccess;
next();
parseImportedIdentifier();
}
}
/**
* Parse import attributes like `with {type: "json"}`, or the legacy form
* `assert {type: "json"}`.
*
* Import attributes technically have their own syntax, but are always parseable
* as a plain JS object, so just do that for simplicity.
*/
function maybeParseImportAttributes() {
if (match(tt._with) || (isContextual(ContextualKeyword._assert) && !hasPrecedingLineBreak())) {
next();
parseObj(false, false);
}
}