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/*
MIT License http://www.opensource.org/licenses/mit-license.php
Author Tobias Koppers @sokra
*/
"use strict";
const { Parser: AcornParser } = require("acorn");
const { importAssertions } = require("acorn-import-assertions");
const { SyncBailHook, HookMap } = require("tapable");
const vm = require("vm");
const Parser = require("../Parser");
const StackedMap = require("../util/StackedMap");
const binarySearchBounds = require("../util/binarySearchBounds");
const memoize = require("../util/memoize");
const BasicEvaluatedExpression = require("./BasicEvaluatedExpression");
/** @typedef {import("acorn").Options} AcornOptions */
/** @typedef {import("estree").ArrayExpression} ArrayExpressionNode */
/** @typedef {import("estree").BinaryExpression} BinaryExpressionNode */
/** @typedef {import("estree").BlockStatement} BlockStatementNode */
/** @typedef {import("estree").SequenceExpression} SequenceExpressionNode */
/** @typedef {import("estree").CallExpression} CallExpressionNode */
/** @typedef {import("estree").ClassDeclaration} ClassDeclarationNode */
/** @typedef {import("estree").ClassExpression} ClassExpressionNode */
/** @typedef {import("estree").Comment} CommentNode */
/** @typedef {import("estree").ConditionalExpression} ConditionalExpressionNode */
/** @typedef {import("estree").Declaration} DeclarationNode */
/** @typedef {import("estree").PrivateIdentifier} PrivateIdentifierNode */
/** @typedef {import("estree").PropertyDefinition} PropertyDefinitionNode */
/** @typedef {import("estree").Expression} ExpressionNode */
/** @typedef {import("estree").Identifier} IdentifierNode */
/** @typedef {import("estree").IfStatement} IfStatementNode */
/** @typedef {import("estree").LabeledStatement} LabeledStatementNode */
/** @typedef {import("estree").Literal} LiteralNode */
/** @typedef {import("estree").LogicalExpression} LogicalExpressionNode */
/** @typedef {import("estree").ChainExpression} ChainExpressionNode */
/** @typedef {import("estree").MemberExpression} MemberExpressionNode */
/** @typedef {import("estree").MetaProperty} MetaPropertyNode */
/** @typedef {import("estree").MethodDefinition} MethodDefinitionNode */
/** @typedef {import("estree").ModuleDeclaration} ModuleDeclarationNode */
/** @typedef {import("estree").NewExpression} NewExpressionNode */
/** @typedef {import("estree").Node} AnyNode */
/** @typedef {import("estree").Program} ProgramNode */
/** @typedef {import("estree").Statement} StatementNode */
/** @typedef {import("estree").ImportDeclaration} ImportDeclarationNode */
/** @typedef {import("estree").ExportNamedDeclaration} ExportNamedDeclarationNode */
/** @typedef {import("estree").ExportDefaultDeclaration} ExportDefaultDeclarationNode */
/** @typedef {import("estree").ExportAllDeclaration} ExportAllDeclarationNode */
/** @typedef {import("estree").Super} SuperNode */
/** @typedef {import("estree").TaggedTemplateExpression} TaggedTemplateExpressionNode */
/** @typedef {import("estree").TemplateLiteral} TemplateLiteralNode */
/** @typedef {import("estree").ThisExpression} ThisExpressionNode */
/** @typedef {import("estree").UnaryExpression} UnaryExpressionNode */
/** @typedef {import("estree").VariableDeclarator} VariableDeclaratorNode */
/** @template T @typedef {import("tapable").AsArray<T>} AsArray<T> */
/** @typedef {import("../Parser").ParserState} ParserState */
/** @typedef {import("../Parser").PreparsedAst} PreparsedAst */
/** @typedef {{declaredScope: ScopeInfo, freeName: string | true, tagInfo: TagInfo | undefined}} VariableInfoInterface */
/** @typedef {{ name: string | VariableInfo, rootInfo: string | VariableInfo, getMembers: () => string[] }} GetInfoResult */
const EMPTY_ARRAY = [];
const ALLOWED_MEMBER_TYPES_CALL_EXPRESSION = 0b01;
const ALLOWED_MEMBER_TYPES_EXPRESSION = 0b10;
const ALLOWED_MEMBER_TYPES_ALL = 0b11;
// Syntax: https://developer.mozilla.org/en/SpiderMonkey/Parser_API
const parser = AcornParser.extend(importAssertions);
class VariableInfo {
/**
* @param {ScopeInfo} declaredScope scope in which the variable is declared
* @param {string | true} freeName which free name the variable aliases, or true when none
* @param {TagInfo | undefined} tagInfo info about tags
*/
constructor(declaredScope, freeName, tagInfo) {
this.declaredScope = declaredScope;
this.freeName = freeName;
this.tagInfo = tagInfo;
}
}
/** @typedef {string | ScopeInfo | VariableInfo} ExportedVariableInfo */
/** @typedef {LiteralNode | string | null | undefined} ImportSource */
/** @typedef {Omit<AcornOptions, "sourceType" | "ecmaVersion"> & { sourceType: "module" | "script" | "auto", ecmaVersion?: AcornOptions["ecmaVersion"] }} ParseOptions */
/**
* @typedef {Object} TagInfo
* @property {any} tag
* @property {any} data
* @property {TagInfo | undefined} next
*/
/**
* @typedef {Object} ScopeInfo
* @property {StackedMap<string, VariableInfo | ScopeInfo>} definitions
* @property {boolean | "arrow"} topLevelScope
* @property {boolean} inShorthand
* @property {boolean} isStrict
* @property {boolean} isAsmJs
* @property {boolean} inTry
*/
const joinRanges = (startRange, endRange) => {
if (!endRange) return startRange;
if (!startRange) return endRange;
return [startRange[0], endRange[1]];
};
const objectAndMembersToName = (object, membersReversed) => {
let name = object;
for (let i = membersReversed.length - 1; i >= 0; i--) {
name = name + "." + membersReversed[i];
}
return name;
};
const getRootName = expression => {
switch (expression.type) {
case "Identifier":
return expression.name;
case "ThisExpression":
return "this";
case "MetaProperty":
return `${expression.meta.name}.${expression.property.name}`;
default:
return undefined;
}
};
/** @type {AcornOptions} */
const defaultParserOptions = {
ranges: true,
locations: true,
ecmaVersion: "latest",
sourceType: "module",
// https://github.com/tc39/proposal-hashbang
allowHashBang: true,
onComment: null
};
// regexp to match at least one "magic comment"
const webpackCommentRegExp = new RegExp(/(^|\W)webpack[A-Z]{1,}[A-Za-z]{1,}:/);
const EMPTY_COMMENT_OPTIONS = {
options: null,
errors: null
};
class JavascriptParser extends Parser {
/**
* @param {"module" | "script" | "auto"} sourceType default source type
*/
constructor(sourceType = "auto") {
super();
this.hooks = Object.freeze({
/** @type {HookMap<SyncBailHook<[UnaryExpressionNode], BasicEvaluatedExpression | undefined | null>>} */
evaluateTypeof: new HookMap(() => new SyncBailHook(["expression"])),
/** @type {HookMap<SyncBailHook<[ExpressionNode], BasicEvaluatedExpression | undefined | null>>} */
evaluate: new HookMap(() => new SyncBailHook(["expression"])),
/** @type {HookMap<SyncBailHook<[IdentifierNode | ThisExpressionNode | MemberExpressionNode | MetaPropertyNode], BasicEvaluatedExpression | undefined | null>>} */
evaluateIdentifier: new HookMap(() => new SyncBailHook(["expression"])),
/** @type {HookMap<SyncBailHook<[IdentifierNode | ThisExpressionNode | MemberExpressionNode], BasicEvaluatedExpression | undefined | null>>} */
evaluateDefinedIdentifier: new HookMap(
() => new SyncBailHook(["expression"])
),
/** @type {HookMap<SyncBailHook<[CallExpressionNode, BasicEvaluatedExpression | undefined], BasicEvaluatedExpression | undefined | null>>} */
evaluateCallExpressionMember: new HookMap(
() => new SyncBailHook(["expression", "param"])
),
/** @type {HookMap<SyncBailHook<[ExpressionNode | DeclarationNode | PrivateIdentifierNode, number], boolean | void>>} */
isPure: new HookMap(
() => new SyncBailHook(["expression", "commentsStartPosition"])
),
/** @type {SyncBailHook<[StatementNode | ModuleDeclarationNode], boolean | void>} */
preStatement: new SyncBailHook(["statement"]),
/** @type {SyncBailHook<[StatementNode | ModuleDeclarationNode], boolean | void>} */
blockPreStatement: new SyncBailHook(["declaration"]),
/** @type {SyncBailHook<[StatementNode | ModuleDeclarationNode], boolean | void>} */
statement: new SyncBailHook(["statement"]),
/** @type {SyncBailHook<[IfStatementNode], boolean | void>} */
statementIf: new SyncBailHook(["statement"]),
/** @type {SyncBailHook<[ExpressionNode, ClassExpressionNode | ClassDeclarationNode], boolean | void>} */
classExtendsExpression: new SyncBailHook([
"expression",
"classDefinition"
]),
/** @type {SyncBailHook<[MethodDefinitionNode | PropertyDefinitionNode, ClassExpressionNode | ClassDeclarationNode], boolean | void>} */
classBodyElement: new SyncBailHook(["element", "classDefinition"]),
/** @type {SyncBailHook<[ExpressionNode, MethodDefinitionNode | PropertyDefinitionNode, ClassExpressionNode | ClassDeclarationNode], boolean | void>} */
classBodyValue: new SyncBailHook([
"expression",
"element",
"classDefinition"
]),
/** @type {HookMap<SyncBailHook<[LabeledStatementNode], boolean | void>>} */
label: new HookMap(() => new SyncBailHook(["statement"])),
/** @type {SyncBailHook<[ImportDeclarationNode, ImportSource], boolean | void>} */
import: new SyncBailHook(["statement", "source"]),
/** @type {SyncBailHook<[ImportDeclarationNode, ImportSource, string, string], boolean | void>} */
importSpecifier: new SyncBailHook([
"statement",
"source",
"exportName",
"identifierName"
]),
/** @type {SyncBailHook<[ExportNamedDeclarationNode | ExportAllDeclarationNode], boolean | void>} */
export: new SyncBailHook(["statement"]),
/** @type {SyncBailHook<[ExportNamedDeclarationNode | ExportAllDeclarationNode, ImportSource], boolean | void>} */
exportImport: new SyncBailHook(["statement", "source"]),
/** @type {SyncBailHook<[ExportNamedDeclarationNode | ExportAllDeclarationNode, DeclarationNode], boolean | void>} */
exportDeclaration: new SyncBailHook(["statement", "declaration"]),
/** @type {SyncBailHook<[ExportDefaultDeclarationNode, DeclarationNode], boolean | void>} */
exportExpression: new SyncBailHook(["statement", "declaration"]),
/** @type {SyncBailHook<[ExportNamedDeclarationNode | ExportAllDeclarationNode, string, string, number | undefined], boolean | void>} */
exportSpecifier: new SyncBailHook([
"statement",
"identifierName",
"exportName",
"index"
]),
/** @type {SyncBailHook<[ExportNamedDeclarationNode | ExportAllDeclarationNode, ImportSource, string, string, number | undefined], boolean | void>} */
exportImportSpecifier: new SyncBailHook([
"statement",
"source",
"identifierName",
"exportName",
"index"
]),
/** @type {SyncBailHook<[VariableDeclaratorNode, StatementNode], boolean | void>} */
preDeclarator: new SyncBailHook(["declarator", "statement"]),
/** @type {SyncBailHook<[VariableDeclaratorNode, StatementNode], boolean | void>} */
declarator: new SyncBailHook(["declarator", "statement"]),
/** @type {HookMap<SyncBailHook<[DeclarationNode], boolean | void>>} */
varDeclaration: new HookMap(() => new SyncBailHook(["declaration"])),
/** @type {HookMap<SyncBailHook<[DeclarationNode], boolean | void>>} */
varDeclarationLet: new HookMap(() => new SyncBailHook(["declaration"])),
/** @type {HookMap<SyncBailHook<[DeclarationNode], boolean | void>>} */
varDeclarationConst: new HookMap(() => new SyncBailHook(["declaration"])),
/** @type {HookMap<SyncBailHook<[DeclarationNode], boolean | void>>} */
varDeclarationVar: new HookMap(() => new SyncBailHook(["declaration"])),
/** @type {HookMap<SyncBailHook<[IdentifierNode], boolean | void>>} */
pattern: new HookMap(() => new SyncBailHook(["pattern"])),
/** @type {HookMap<SyncBailHook<[ExpressionNode], boolean | void>>} */
canRename: new HookMap(() => new SyncBailHook(["initExpression"])),
/** @type {HookMap<SyncBailHook<[ExpressionNode], boolean | void>>} */
rename: new HookMap(() => new SyncBailHook(["initExpression"])),
/** @type {HookMap<SyncBailHook<[import("estree").AssignmentExpression], boolean | void>>} */
assign: new HookMap(() => new SyncBailHook(["expression"])),
/** @type {HookMap<SyncBailHook<[import("estree").AssignmentExpression, string[]], boolean | void>>} */
assignMemberChain: new HookMap(
() => new SyncBailHook(["expression", "members"])
),
/** @type {HookMap<SyncBailHook<[ExpressionNode], boolean | void>>} */
typeof: new HookMap(() => new SyncBailHook(["expression"])),
/** @type {SyncBailHook<[ExpressionNode], boolean | void>} */
importCall: new SyncBailHook(["expression"]),
/** @type {SyncBailHook<[ExpressionNode], boolean | void>} */
topLevelAwait: new SyncBailHook(["expression"]),
/** @type {HookMap<SyncBailHook<[ExpressionNode], boolean | void>>} */
call: new HookMap(() => new SyncBailHook(["expression"])),
/** Something like "a.b()" */
/** @type {HookMap<SyncBailHook<[CallExpressionNode, string[]], boolean | void>>} */
callMemberChain: new HookMap(
() => new SyncBailHook(["expression", "members"])
),
/** Something like "a.b().c.d" */
/** @type {HookMap<SyncBailHook<[ExpressionNode, string[], CallExpressionNode, string[]], boolean | void>>} */
memberChainOfCallMemberChain: new HookMap(
() =>
new SyncBailHook([
"expression",
"calleeMembers",
"callExpression",
"members"
])
),
/** Something like "a.b().c.d()"" */
/** @type {HookMap<SyncBailHook<[ExpressionNode, string[], CallExpressionNode, string[]], boolean | void>>} */
callMemberChainOfCallMemberChain: new HookMap(
() =>
new SyncBailHook([
"expression",
"calleeMembers",
"innerCallExpression",
"members"
])
),
/** @type {SyncBailHook<[ChainExpressionNode], boolean | void>} */
optionalChaining: new SyncBailHook(["optionalChaining"]),
/** @type {HookMap<SyncBailHook<[NewExpressionNode], boolean | void>>} */
new: new HookMap(() => new SyncBailHook(["expression"])),
/** @type {HookMap<SyncBailHook<[ExpressionNode], boolean | void>>} */
expression: new HookMap(() => new SyncBailHook(["expression"])),
/** @type {HookMap<SyncBailHook<[ExpressionNode, string[]], boolean | void>>} */
expressionMemberChain: new HookMap(
() => new SyncBailHook(["expression", "members"])
),
/** @type {HookMap<SyncBailHook<[ExpressionNode, string[]], boolean | void>>} */
unhandledExpressionMemberChain: new HookMap(
() => new SyncBailHook(["expression", "members"])
),
/** @type {SyncBailHook<[ExpressionNode], boolean | void>} */
expressionConditionalOperator: new SyncBailHook(["expression"]),
/** @type {SyncBailHook<[ExpressionNode], boolean | void>} */
expressionLogicalOperator: new SyncBailHook(["expression"]),
/** @type {SyncBailHook<[ProgramNode, CommentNode[]], boolean | void>} */
program: new SyncBailHook(["ast", "comments"]),
/** @type {SyncBailHook<[ProgramNode, CommentNode[]], boolean | void>} */
finish: new SyncBailHook(["ast", "comments"])
});
this.sourceType = sourceType;
/** @type {ScopeInfo} */
this.scope = undefined;
/** @type {ParserState} */
this.state = undefined;
this.comments = undefined;
this.semicolons = undefined;
/** @type {(StatementNode|ExpressionNode)[]} */
this.statementPath = undefined;
this.prevStatement = undefined;
this.currentTagData = undefined;
this._initializeEvaluating();
}
_initializeEvaluating() {
this.hooks.evaluate.for("Literal").tap("JavascriptParser", _expr => {
const expr = /** @type {LiteralNode} */ (_expr);
switch (typeof expr.value) {
case "number":
return new BasicEvaluatedExpression()
.setNumber(expr.value)
.setRange(expr.range);
case "bigint":
return new BasicEvaluatedExpression()
.setBigInt(expr.value)
.setRange(expr.range);
case "string":
return new BasicEvaluatedExpression()
.setString(expr.value)
.setRange(expr.range);
case "boolean":
return new BasicEvaluatedExpression()
.setBoolean(expr.value)
.setRange(expr.range);
}
if (expr.value === null) {
return new BasicEvaluatedExpression().setNull().setRange(expr.range);
}
if (expr.value instanceof RegExp) {
return new BasicEvaluatedExpression()
.setRegExp(expr.value)
.setRange(expr.range);
}
});
this.hooks.evaluate.for("NewExpression").tap("JavascriptParser", _expr => {
const expr = /** @type {NewExpressionNode} */ (_expr);
const callee = expr.callee;
if (
callee.type !== "Identifier" ||
callee.name !== "RegExp" ||
expr.arguments.length > 2 ||
this.getVariableInfo("RegExp") !== "RegExp"
)
return;
let regExp, flags;
const arg1 = expr.arguments[0];
if (arg1) {
if (arg1.type === "SpreadElement") return;
const evaluatedRegExp = this.evaluateExpression(arg1);
if (!evaluatedRegExp) return;
regExp = evaluatedRegExp.asString();
if (!regExp) return;
} else {
return new BasicEvaluatedExpression()
.setRegExp(new RegExp(""))
.setRange(expr.range);
}
const arg2 = expr.arguments[1];
if (arg2) {
if (arg2.type === "SpreadElement") return;
const evaluatedFlags = this.evaluateExpression(arg2);
if (!evaluatedFlags) return;
if (!evaluatedFlags.isUndefined()) {
flags = evaluatedFlags.asString();
if (
flags === undefined ||
!BasicEvaluatedExpression.isValidRegExpFlags(flags)
)
return;
}
}
return new BasicEvaluatedExpression()
.setRegExp(flags ? new RegExp(regExp, flags) : new RegExp(regExp))
.setRange(expr.range);
});
this.hooks.evaluate
.for("LogicalExpression")
.tap("JavascriptParser", _expr => {
const expr = /** @type {LogicalExpressionNode} */ (_expr);
const left = this.evaluateExpression(expr.left);
if (!left) return;
if (expr.operator === "&&") {
const leftAsBool = left.asBool();
if (leftAsBool === false) return left.setRange(expr.range);
if (leftAsBool !== true) return;
} else if (expr.operator === "||") {
const leftAsBool = left.asBool();
if (leftAsBool === true) return left.setRange(expr.range);
if (leftAsBool !== false) return;
} else if (expr.operator === "??") {
const leftAsNullish = left.asNullish();
if (leftAsNullish === false) return left.setRange(expr.range);
if (leftAsNullish !== true) return;
} else return;
const right = this.evaluateExpression(expr.right);
if (!right) return;
if (left.couldHaveSideEffects()) right.setSideEffects();
return right.setRange(expr.range);
});
const valueAsExpression = (value, expr, sideEffects) => {
switch (typeof value) {
case "boolean":
return new BasicEvaluatedExpression()
.setBoolean(value)
.setSideEffects(sideEffects)
.setRange(expr.range);
case "number":
return new BasicEvaluatedExpression()
.setNumber(value)
.setSideEffects(sideEffects)
.setRange(expr.range);
case "bigint":
return new BasicEvaluatedExpression()
.setBigInt(value)
.setSideEffects(sideEffects)
.setRange(expr.range);
case "string":
return new BasicEvaluatedExpression()
.setString(value)
.setSideEffects(sideEffects)
.setRange(expr.range);
}
};
this.hooks.evaluate
.for("BinaryExpression")
.tap("JavascriptParser", _expr => {
const expr = /** @type {BinaryExpressionNode} */ (_expr);
const handleConstOperation = fn => {
const left = this.evaluateExpression(expr.left);
if (!left || !left.isCompileTimeValue()) return;
const right = this.evaluateExpression(expr.right);
if (!right || !right.isCompileTimeValue()) return;
const result = fn(
left.asCompileTimeValue(),
right.asCompileTimeValue()
);
return valueAsExpression(
result,
expr,
left.couldHaveSideEffects() || right.couldHaveSideEffects()
);
};
const isAlwaysDifferent = (a, b) =>
(a === true && b === false) || (a === false && b === true);
const handleTemplateStringCompare = (left, right, res, eql) => {
const getPrefix = parts => {
let value = "";
for (const p of parts) {
const v = p.asString();
if (v !== undefined) value += v;
else break;
}
return value;
};
const getSuffix = parts => {
let value = "";
for (let i = parts.length - 1; i >= 0; i--) {
const v = parts[i].asString();
if (v !== undefined) value = v + value;
else break;
}
return value;
};
const leftPrefix = getPrefix(left.parts);
const rightPrefix = getPrefix(right.parts);
const leftSuffix = getSuffix(left.parts);
const rightSuffix = getSuffix(right.parts);
const lenPrefix = Math.min(leftPrefix.length, rightPrefix.length);
const lenSuffix = Math.min(leftSuffix.length, rightSuffix.length);
if (
leftPrefix.slice(0, lenPrefix) !==
rightPrefix.slice(0, lenPrefix) ||
leftSuffix.slice(-lenSuffix) !== rightSuffix.slice(-lenSuffix)
) {
return res
.setBoolean(!eql)
.setSideEffects(
left.couldHaveSideEffects() || right.couldHaveSideEffects()
);
}
};
const handleStrictEqualityComparison = eql => {
const left = this.evaluateExpression(expr.left);
if (!left) return;
const right = this.evaluateExpression(expr.right);
if (!right) return;
const res = new BasicEvaluatedExpression();
res.setRange(expr.range);
const leftConst = left.isCompileTimeValue();
const rightConst = right.isCompileTimeValue();
if (leftConst && rightConst) {
return res
.setBoolean(
eql ===
(left.asCompileTimeValue() === right.asCompileTimeValue())
)
.setSideEffects(
left.couldHaveSideEffects() || right.couldHaveSideEffects()
);
}
if (left.isArray() && right.isArray()) {
return res
.setBoolean(!eql)
.setSideEffects(
left.couldHaveSideEffects() || right.couldHaveSideEffects()
);
}
if (left.isTemplateString() && right.isTemplateString()) {
return handleTemplateStringCompare(left, right, res, eql);
}
const leftPrimitive = left.isPrimitiveType();
const rightPrimitive = right.isPrimitiveType();
if (
// Primitive !== Object or
// compile-time object types are never equal to something at runtime
(leftPrimitive === false &&
(leftConst || rightPrimitive === true)) ||
(rightPrimitive === false &&
(rightConst || leftPrimitive === true)) ||
// Different nullish or boolish status also means not equal
isAlwaysDifferent(left.asBool(), right.asBool()) ||
isAlwaysDifferent(left.asNullish(), right.asNullish())
) {
return res
.setBoolean(!eql)
.setSideEffects(
left.couldHaveSideEffects() || right.couldHaveSideEffects()
);
}
};
const handleAbstractEqualityComparison = eql => {
const left = this.evaluateExpression(expr.left);
if (!left) return;
const right = this.evaluateExpression(expr.right);
if (!right) return;
const res = new BasicEvaluatedExpression();
res.setRange(expr.range);
const leftConst = left.isCompileTimeValue();
const rightConst = right.isCompileTimeValue();
if (leftConst && rightConst) {
return res
.setBoolean(
eql ===
// eslint-disable-next-line eqeqeq
(left.asCompileTimeValue() == right.asCompileTimeValue())
)
.setSideEffects(
left.couldHaveSideEffects() || right.couldHaveSideEffects()
);
}
if (left.isArray() && right.isArray()) {
return res
.setBoolean(!eql)
.setSideEffects(
left.couldHaveSideEffects() || right.couldHaveSideEffects()
);
}
if (left.isTemplateString() && right.isTemplateString()) {
return handleTemplateStringCompare(left, right, res, eql);
}
};
if (expr.operator === "+") {
const left = this.evaluateExpression(expr.left);
if (!left) return;
const right = this.evaluateExpression(expr.right);
if (!right) return;
const res = new BasicEvaluatedExpression();
if (left.isString()) {
if (right.isString()) {
res.setString(left.string + right.string);
} else if (right.isNumber()) {
res.setString(left.string + right.number);
} else if (
right.isWrapped() &&
right.prefix &&
right.prefix.isString()
) {
// "left" + ("prefix" + inner + "postfix")
// => ("leftPrefix" + inner + "postfix")
res.setWrapped(
new BasicEvaluatedExpression()
.setString(left.string + right.prefix.string)
.setRange(joinRanges(left.range, right.prefix.range)),
right.postfix,
right.wrappedInnerExpressions
);
} else if (right.isWrapped()) {
// "left" + ([null] + inner + "postfix")
// => ("left" + inner + "postfix")
res.setWrapped(
left,
right.postfix,
right.wrappedInnerExpressions
);
} else {
// "left" + expr
// => ("left" + expr + "")
res.setWrapped(left, null, [right]);
}
} else if (left.isNumber()) {
if (right.isString()) {
res.setString(left.number + right.string);
} else if (right.isNumber()) {
res.setNumber(left.number + right.number);
} else {
return;
}
} else if (left.isBigInt()) {
if (right.isBigInt()) {
res.setBigInt(left.bigint + right.bigint);
}
} else if (left.isWrapped()) {
if (left.postfix && left.postfix.isString() && right.isString()) {
// ("prefix" + inner + "postfix") + "right"
// => ("prefix" + inner + "postfixRight")
res.setWrapped(
left.prefix,
new BasicEvaluatedExpression()
.setString(left.postfix.string + right.string)
.setRange(joinRanges(left.postfix.range, right.range)),
left.wrappedInnerExpressions
);
} else if (
left.postfix &&
left.postfix.isString() &&
right.isNumber()
) {
// ("prefix" + inner + "postfix") + 123
// => ("prefix" + inner + "postfix123")
res.setWrapped(
left.prefix,
new BasicEvaluatedExpression()
.setString(left.postfix.string + right.number)
.setRange(joinRanges(left.postfix.range, right.range)),
left.wrappedInnerExpressions
);
} else if (right.isString()) {
// ("prefix" + inner + [null]) + "right"
// => ("prefix" + inner + "right")
res.setWrapped(left.prefix, right, left.wrappedInnerExpressions);
} else if (right.isNumber()) {
// ("prefix" + inner + [null]) + 123
// => ("prefix" + inner + "123")
res.setWrapped(
left.prefix,
new BasicEvaluatedExpression()
.setString(right.number + "")
.setRange(right.range),
left.wrappedInnerExpressions
);
} else if (right.isWrapped()) {
// ("prefix1" + inner1 + "postfix1") + ("prefix2" + inner2 + "postfix2")
// ("prefix1" + inner1 + "postfix1" + "prefix2" + inner2 + "postfix2")
res.setWrapped(
left.prefix,
right.postfix,
left.wrappedInnerExpressions &&
right.wrappedInnerExpressions &&
left.wrappedInnerExpressions
.concat(left.postfix ? [left.postfix] : [])
.concat(right.prefix ? [right.prefix] : [])
.concat(right.wrappedInnerExpressions)
);
} else {
// ("prefix" + inner + postfix) + expr
// => ("prefix" + inner + postfix + expr + [null])
res.setWrapped(
left.prefix,
null,
left.wrappedInnerExpressions &&
left.wrappedInnerExpressions.concat(
left.postfix ? [left.postfix, right] : [right]
)
);
}
} else {
if (right.isString()) {
// left + "right"
// => ([null] + left + "right")
res.setWrapped(null, right, [left]);
} else if (right.isWrapped()) {
// left + (prefix + inner + "postfix")
// => ([null] + left + prefix + inner + "postfix")
res.setWrapped(
null,
right.postfix,
right.wrappedInnerExpressions &&
(right.prefix ? [left, right.prefix] : [left]).concat(
right.wrappedInnerExpressions
)
);
} else {
return;
}
}
if (left.couldHaveSideEffects() || right.couldHaveSideEffects())
res.setSideEffects();
res.setRange(expr.range);
return res;
} else if (expr.operator === "-") {
return handleConstOperation((l, r) => l - r);
} else if (expr.operator === "*") {
return handleConstOperation((l, r) => l * r);
} else if (expr.operator === "/") {
return handleConstOperation((l, r) => l / r);
} else if (expr.operator === "**") {
return handleConstOperation((l, r) => l ** r);
} else if (expr.operator === "===") {
return handleStrictEqualityComparison(true);
} else if (expr.operator === "==") {
return handleAbstractEqualityComparison(true);
} else if (expr.operator === "!==") {
return handleStrictEqualityComparison(false);
} else if (expr.operator === "!=") {
return handleAbstractEqualityComparison(false);
} else if (expr.operator === "&") {
return handleConstOperation((l, r) => l & r);
} else if (expr.operator === "|") {
return handleConstOperation((l, r) => l | r);
} else if (expr.operator === "^") {
return handleConstOperation((l, r) => l ^ r);
} else if (expr.operator === ">>>") {
return handleConstOperation((l, r) => l >>> r);
} else if (expr.operator === ">>") {
return handleConstOperation((l, r) => l >> r);
} else if (expr.operator === "<<") {
return handleConstOperation((l, r) => l << r);
} else if (expr.operator === "<") {
return handleConstOperation((l, r) => l < r);
} else if (expr.operator === ">") {
return handleConstOperation((l, r) => l > r);
} else if (expr.operator === "<=") {
return handleConstOperation((l, r) => l <= r);
} else if (expr.operator === ">=") {
return handleConstOperation((l, r) => l >= r);
}
});
this.hooks.evaluate
.for("UnaryExpression")
.tap("JavascriptParser", _expr => {
const expr = /** @type {UnaryExpressionNode} */ (_expr);
const handleConstOperation = fn => {
const argument = this.evaluateExpression(expr.argument);
if (!argument || !argument.isCompileTimeValue()) return;
const result = fn(argument.asCompileTimeValue());
return valueAsExpression(
result,
expr,
argument.couldHaveSideEffects()
);
};
if (expr.operator === "typeof") {
switch (expr.argument.type) {
case "Identifier": {
const res = this.callHooksForName(
this.hooks.evaluateTypeof,
expr.argument.name,
expr
);
if (res !== undefined) return res;
break;
}
case "MetaProperty": {
const res = this.callHooksForName(
this.hooks.evaluateTypeof,
getRootName(expr.argument),
expr
);
if (res !== undefined) return res;
break;
}
case "MemberExpression": {
const res = this.callHooksForExpression(
this.hooks.evaluateTypeof,
expr.argument,
expr
);
if (res !== undefined) return res;
break;
}
case "ChainExpression": {
const res = this.callHooksForExpression(
this.hooks.evaluateTypeof,
expr.argument.expression,
expr
);
if (res !== undefined) return res;
break;
}
case "FunctionExpression": {
return new BasicEvaluatedExpression()
.setString("function")
.setRange(expr.range);
}
}
const arg = this.evaluateExpression(expr.argument);
if (arg.isUnknown()) return;
if (arg.isString()) {
return new BasicEvaluatedExpression()
.setString("string")
.setRange(expr.range);
}
if (arg.isWrapped()) {
return new BasicEvaluatedExpression()
.setString("string")
.setSideEffects()
.setRange(expr.range);
}
if (arg.isUndefined()) {
return new BasicEvaluatedExpression()
.setString("undefined")
.setRange(expr.range);
}
if (arg.isNumber()) {
return new BasicEvaluatedExpression()
.setString("number")
.setRange(expr.range);
}
if (arg.isBigInt()) {
return new BasicEvaluatedExpression()
.setString("bigint")
.setRange(expr.range);
}
if (arg.isBoolean()) {
return new BasicEvaluatedExpression()
.setString("boolean")
.setRange(expr.range);
}
if (arg.isConstArray() || arg.isRegExp() || arg.isNull()) {
return new BasicEvaluatedExpression()
.setString("object")
.setRange(expr.range);
}
if (arg.isArray()) {
return new BasicEvaluatedExpression()
.setString("object")
.setSideEffects(arg.couldHaveSideEffects())
.setRange(expr.range);
}
} else if (expr.operator === "!") {
const argument = this.evaluateExpression(expr.argument);
if (!argument) return;
const bool = argument.asBool();
if (typeof bool !== "boolean") return;
return new BasicEvaluatedExpression()
.setBoolean(!bool)
.setSideEffects(argument.couldHaveSideEffects())
.setRange(expr.range);
} else if (expr.operator === "~") {
return handleConstOperation(v => ~v);
} else if (expr.operator === "+") {
return handleConstOperation(v => +v);
} else if (expr.operator === "-") {
return handleConstOperation(v => -v);
}
});
this.hooks.evaluateTypeof.for("undefined").tap("JavascriptParser", expr => {
return new BasicEvaluatedExpression()
.setString("undefined")
.setRange(expr.range);
});
/**
* @param {string} exprType expression type name
* @param {function(ExpressionNode): GetInfoResult | undefined} getInfo get info
* @returns {void}
*/
const tapEvaluateWithVariableInfo = (exprType, getInfo) => {
/** @type {ExpressionNode | undefined} */
let cachedExpression = undefined;
/** @type {GetInfoResult | undefined} */
let cachedInfo = undefined;
this.hooks.evaluate.for(exprType).tap("JavascriptParser", expr => {
const expression = /** @type {MemberExpressionNode} */ (expr);
const info = getInfo(expr);
if (info !== undefined) {
return this.callHooksForInfoWithFallback(
this.hooks.evaluateIdentifier,
info.name,
name => {
cachedExpression = expression;
cachedInfo = info;
},
name => {
const hook = this.hooks.evaluateDefinedIdentifier.get(name);
if (hook !== undefined) {
return hook.call(expression);
}
},
expression
);
}
});
this.hooks.evaluate
.for(exprType)
.tap({ name: "JavascriptParser", stage: 100 }, expr => {
const info = cachedExpression === expr ? cachedInfo : getInfo(expr);
if (info !== undefined) {
return new BasicEvaluatedExpression()
.setIdentifier(info.name, info.rootInfo, info.getMembers)
.setRange(expr.range);
}
});
this.hooks.finish.tap("JavascriptParser", () => {
// Cleanup for GC
cachedExpression = cachedInfo = undefined;
});
};
tapEvaluateWithVariableInfo("Identifier", expr => {
const info = this.getVariableInfo(
/** @type {IdentifierNode} */ (expr).name
);
if (
typeof info === "string" ||
(info instanceof VariableInfo && typeof info.freeName === "string")
) {
return { name: info, rootInfo: info, getMembers: () => [] };
}
});
tapEvaluateWithVariableInfo("ThisExpression", expr => {
const info = this.getVariableInfo("this");
if (
typeof info === "string" ||
(info instanceof VariableInfo && typeof info.freeName === "string")
) {
return { name: info, rootInfo: info, getMembers: () => [] };
}
});
this.hooks.evaluate.for("MetaProperty").tap("JavascriptParser", expr => {
const metaProperty = /** @type {MetaPropertyNode} */ (expr);
return this.callHooksForName(
this.hooks.evaluateIdentifier,
getRootName(expr),
metaProperty
);
});
tapEvaluateWithVariableInfo("MemberExpression", expr =>
this.getMemberExpressionInfo(
/** @type {MemberExpressionNode} */ (expr),
ALLOWED_MEMBER_TYPES_EXPRESSION
)
);
this.hooks.evaluate.for("CallExpression").tap("JavascriptParser", _expr => {
const expr = /** @type {CallExpressionNode} */ (_expr);
if (
expr.callee.type !== "MemberExpression" ||
expr.callee.property.type !==
(expr.callee.computed ? "Literal" : "Identifier")
) {
return;
}
// type Super also possible here
const param = this.evaluateExpression(
/** @type {ExpressionNode} */ (expr.callee.object)
);
if (!param) return;
const property =
expr.callee.property.type === "Literal"
? `${expr.callee.property.value}`
: expr.callee.property.name;
const hook = this.hooks.evaluateCallExpressionMember.get(property);
if (hook !== undefined) {
return hook.call(expr, param);
}
});
this.hooks.evaluateCallExpressionMember
.for("indexOf")
.tap("JavascriptParser", (expr, param) => {
if (!param.isString()) return;
if (expr.arguments.length === 0) return;
const [arg1, arg2] = expr.arguments;
if (arg1.type === "SpreadElement") return;
const arg1Eval = this.evaluateExpression(arg1);
if (!arg1Eval.isString()) return;
const arg1Value = arg1Eval.string;
let result;
if (arg2) {
if (arg2.type === "SpreadElement") return;
const arg2Eval = this.evaluateExpression(arg2);
if (!arg2Eval.isNumber()) return;
result = param.string.indexOf(arg1Value, arg2Eval.number);
} else {
result = param.string.indexOf(arg1Value);
}
return new BasicEvaluatedExpression()
.setNumber(result)
.setSideEffects(param.couldHaveSideEffects())
.setRange(expr.range);
});
this.hooks.evaluateCallExpressionMember
.for("replace")
.tap("JavascriptParser", (expr, param) => {
if (!param.isString()) return;
if (expr.arguments.length !== 2) return;
if (expr.arguments[0].type === "SpreadElement") return;
if (expr.arguments[1].type === "SpreadElement") return;
let arg1 = this.evaluateExpression(expr.arguments[0]);
let arg2 = this.evaluateExpression(expr.arguments[1]);
if (!arg1.isString() && !arg1.isRegExp()) return;
const arg1Value = arg1.regExp || arg1.string;
if (!arg2.isString()) return;
const arg2Value = arg2.string;
return new BasicEvaluatedExpression()
.setString(param.string.replace(arg1Value, arg2Value))
.setSideEffects(param.couldHaveSideEffects())
.setRange(expr.range);
});
["substr", "substring", "slice"].forEach(fn => {
this.hooks.evaluateCallExpressionMember
.for(fn)
.tap("JavascriptParser", (expr, param) => {
if (!param.isString()) return;
let arg1;
let result,
str = param.string;
switch (expr.arguments.length) {
case 1:
if (expr.arguments[0].type === "SpreadElement") return;
arg1 = this.evaluateExpression(expr.arguments[0]);
if (!arg1.isNumber()) return;
result = str[fn](arg1.number);
break;
case 2: {
if (expr.arguments[0].type === "SpreadElement") return;
if (expr.arguments[1].type === "SpreadElement") return;
arg1 = this.evaluateExpression(expr.arguments[0]);
const arg2 = this.evaluateExpression(expr.arguments[1]);
if (!arg1.isNumber()) return;
if (!arg2.isNumber()) return;
result = str[fn](arg1.number, arg2.number);
break;
}
default:
return;
}
return new BasicEvaluatedExpression()
.setString(result)
.setSideEffects(param.couldHaveSideEffects())
.setRange(expr.range);
});
});
/**
* @param {"cooked" | "raw"} kind kind of values to get
* @param {TemplateLiteralNode} templateLiteralExpr TemplateLiteral expr
* @returns {{quasis: BasicEvaluatedExpression[], parts: BasicEvaluatedExpression[]}} Simplified template
*/
const getSimplifiedTemplateResult = (kind, templateLiteralExpr) => {
/** @type {BasicEvaluatedExpression[]} */
const quasis = [];
/** @type {BasicEvaluatedExpression[]} */
const parts = [];
for (let i = 0; i < templateLiteralExpr.quasis.length; i++) {
const quasiExpr = templateLiteralExpr.quasis[i];
const quasi = quasiExpr.value[kind];
if (i > 0) {
const prevExpr = parts[parts.length - 1];
const expr = this.evaluateExpression(
templateLiteralExpr.expressions[i - 1]
);
const exprAsString = expr.asString();
if (
typeof exprAsString === "string" &&
!expr.couldHaveSideEffects()
) {
// We can merge quasi + expr + quasi when expr
// is a const string
prevExpr.setString(prevExpr.string + exprAsString + quasi);
prevExpr.setRange([prevExpr.range[0], quasiExpr.range[1]]);
// We unset the expression as it doesn't match to a single expression
prevExpr.setExpression(undefined);
continue;
}
parts.push(expr);
}
const part = new BasicEvaluatedExpression()
.setString(quasi)
.setRange(quasiExpr.range)
.setExpression(quasiExpr);
quasis.push(part);
parts.push(part);
}
return {
quasis,
parts
};
};
this.hooks.evaluate
.for("TemplateLiteral")
.tap("JavascriptParser", _node => {
const node = /** @type {TemplateLiteralNode} */ (_node);
const { quasis, parts } = getSimplifiedTemplateResult("cooked", node);
if (parts.length === 1) {
return parts[0].setRange(node.range);
}
return new BasicEvaluatedExpression()
.setTemplateString(quasis, parts, "cooked")
.setRange(node.range);
});
this.hooks.evaluate
.for("TaggedTemplateExpression")
.tap("JavascriptParser", _node => {
const node = /** @type {TaggedTemplateExpressionNode} */ (_node);
const tag = this.evaluateExpression(node.tag);
if (tag.isIdentifier() && tag.identifier !== "String.raw") return;
const { quasis, parts } = getSimplifiedTemplateResult(
"raw",
node.quasi
);
return new BasicEvaluatedExpression()
.setTemplateString(quasis, parts, "raw")
.setRange(node.range);
});
this.hooks.evaluateCallExpressionMember
.for("concat")
.tap("JavascriptParser", (expr, param) => {
if (!param.isString() && !param.isWrapped()) return;
let stringSuffix = null;
let hasUnknownParams = false;
const innerExpressions = [];
for (let i = expr.arguments.length - 1; i >= 0; i--) {
const arg = expr.arguments[i];
if (arg.type === "SpreadElement") return;
const argExpr = this.evaluateExpression(arg);
if (
hasUnknownParams ||
(!argExpr.isString() && !argExpr.isNumber())
) {
hasUnknownParams = true;
innerExpressions.push(argExpr);
continue;
}
const value = argExpr.isString()
? argExpr.string
: "" + argExpr.number;
const newString = value + (stringSuffix ? stringSuffix.string : "");
const newRange = [
argExpr.range[0],
(stringSuffix || argExpr).range[1]
];
stringSuffix = new BasicEvaluatedExpression()
.setString(newString)
.setSideEffects(
(stringSuffix && stringSuffix.couldHaveSideEffects()) ||
argExpr.couldHaveSideEffects()
)
.setRange(newRange);
}
if (hasUnknownParams) {
const prefix = param.isString() ? param : param.prefix;
const inner =
param.isWrapped() && param.wrappedInnerExpressions
? param.wrappedInnerExpressions.concat(innerExpressions.reverse())
: innerExpressions.reverse();
return new BasicEvaluatedExpression()
.setWrapped(prefix, stringSuffix, inner)
.setRange(expr.range);
} else if (param.isWrapped()) {
const postfix = stringSuffix || param.postfix;
const inner = param.wrappedInnerExpressions
? param.wrappedInnerExpressions.concat(innerExpressions.reverse())
: innerExpressions.reverse();
return new BasicEvaluatedExpression()
.setWrapped(param.prefix, postfix, inner)
.setRange(expr.range);
} else {
const newString =
param.string + (stringSuffix ? stringSuffix.string : "");
return new BasicEvaluatedExpression()
.setString(newString)
.setSideEffects(
(stringSuffix && stringSuffix.couldHaveSideEffects()) ||
param.couldHaveSideEffects()
)
.setRange(expr.range);
}
});
this.hooks.evaluateCallExpressionMember
.for("split")
.tap("JavascriptParser", (expr, param) => {
if (!param.isString()) return;
if (expr.arguments.length !== 1) return;
if (expr.arguments[0].type === "SpreadElement") return;
let result;
const arg = this.evaluateExpression(expr.arguments[0]);
if (arg.isString()) {
result = param.string.split(arg.string);
} else if (arg.isRegExp()) {
result = param.string.split(arg.regExp);
} else {
return;
}
return new BasicEvaluatedExpression()
.setArray(result)
.setSideEffects(param.couldHaveSideEffects())
.setRange(expr.range);
});
this.hooks.evaluate
.for("ConditionalExpression")
.tap("JavascriptParser", _expr => {
const expr = /** @type {ConditionalExpressionNode} */ (_expr);
const condition = this.evaluateExpression(expr.test);
const conditionValue = condition.asBool();
let res;
if (conditionValue === undefined) {
const consequent = this.evaluateExpression(expr.consequent);
const alternate = this.evaluateExpression(expr.alternate);
if (!consequent || !alternate) return;
res = new BasicEvaluatedExpression();
if (consequent.isConditional()) {
res.setOptions(consequent.options);
} else {
res.setOptions([consequent]);
}
if (alternate.isConditional()) {
res.addOptions(alternate.options);
} else {
res.addOptions([alternate]);
}
} else {
res = this.evaluateExpression(
conditionValue ? expr.consequent : expr.alternate
);
if (condition.couldHaveSideEffects()) res.setSideEffects();
}
res.setRange(expr.range);
return res;
});
this.hooks.evaluate
.for("ArrayExpression")
.tap("JavascriptParser", _expr => {
const expr = /** @type {ArrayExpressionNode} */ (_expr);
const items = expr.elements.map(element => {
return (
element !== null &&
element.type !== "SpreadElement" &&
this.evaluateExpression(element)
);
});
if (!items.every(Boolean)) return;
return new BasicEvaluatedExpression()
.setItems(items)
.setRange(expr.range);
});
this.hooks.evaluate
.for("ChainExpression")
.tap("JavascriptParser", _expr => {
const expr = /** @type {ChainExpressionNode} */ (_expr);
/** @type {ExpressionNode[]} */
const optionalExpressionsStack = [];
/** @type {ExpressionNode|SuperNode} */
let next = expr.expression;
while (
next.type === "MemberExpression" ||
next.type === "CallExpression"
) {
if (next.type === "MemberExpression") {
if (next.optional) {
// SuperNode can not be optional
optionalExpressionsStack.push(
/** @type {ExpressionNode} */ (next.object)
);
}
next = next.object;
} else {
if (next.optional) {
// SuperNode can not be optional
optionalExpressionsStack.push(
/** @type {ExpressionNode} */ (next.callee)
);
}
next = next.callee;
}
}
while (optionalExpressionsStack.length > 0) {
const expression = optionalExpressionsStack.pop();
const evaluated = this.evaluateExpression(expression);
if (evaluated && evaluated.asNullish()) {
return evaluated.setRange(_expr.range);
}
}
return this.evaluateExpression(expr.expression);
});
}
getRenameIdentifier(expr) {
const result = this.evaluateExpression(expr);
if (result && result.isIdentifier()) {
return result.identifier;
}
}
/**
* @param {ClassExpressionNode | ClassDeclarationNode} classy a class node
* @returns {void}
*/
walkClass(classy) {
if (classy.superClass) {
if (!this.hooks.classExtendsExpression.call(classy.superClass, classy)) {
this.walkExpression(classy.superClass);
}
}
if (classy.body && classy.body.type === "ClassBody") {
for (const classElement of /** @type {TODO} */ (classy.body.body)) {
if (!this.hooks.classBodyElement.call(classElement, classy)) {
if (classElement.computed && classElement.key) {
this.walkExpression(classElement.key);
}
if (classElement.value) {
if (
!this.hooks.classBodyValue.call(
classElement.value,
classElement,
classy
)
) {
const wasTopLevel = this.scope.topLevelScope;
this.scope.topLevelScope = false;
this.walkExpression(classElement.value);
this.scope.topLevelScope = wasTopLevel;
}
}
}
}
}
}
// Pre walking iterates the scope for variable declarations
preWalkStatements(statements) {
for (let index = 0, len = statements.length; index < len; index++) {
const statement = statements[index];
this.preWalkStatement(statement);
}
}
// Block pre walking iterates the scope for block variable declarations
blockPreWalkStatements(statements) {
for (let index = 0, len = statements.length; index < len; index++) {
const statement = statements[index];
this.blockPreWalkStatement(statement);
}
}
// Walking iterates the statements and expressions and processes them
walkStatements(statements) {
for (let index = 0, len = statements.length; index < len; index++) {
const statement = statements[index];
this.walkStatement(statement);
}
}
preWalkStatement(statement) {
this.statementPath.push(statement);
if (this.hooks.preStatement.call(statement)) {
this.prevStatement = this.statementPath.pop();
return;
}
switch (statement.type) {
case "BlockStatement":
this.preWalkBlockStatement(statement);
break;
case "DoWhileStatement":
this.preWalkDoWhileStatement(statement);
break;
case "ForInStatement":
this.preWalkForInStatement(statement);
break;
case "ForOfStatement":
this.preWalkForOfStatement(statement);
break;
case "ForStatement":
this.preWalkForStatement(statement);
break;
case "FunctionDeclaration":
this.preWalkFunctionDeclaration(statement);
break;
case "IfStatement":
this.preWalkIfStatement(statement);
break;
case "LabeledStatement":
this.preWalkLabeledStatement(statement);
break;
case "SwitchStatement":
this.preWalkSwitchStatement(statement);
break;
case "TryStatement":
this.preWalkTryStatement(statement);
break;
case "VariableDeclaration":
this.preWalkVariableDeclaration(statement);
break;
case "WhileStatement":
this.preWalkWhileStatement(statement);
break;
case "WithStatement":
this.preWalkWithStatement(statement);
break;
}
this.prevStatement = this.statementPath.pop();
}
blockPreWalkStatement(statement) {
this.statementPath.push(statement);
if (this.hooks.blockPreStatement.call(statement)) {
this.prevStatement = this.statementPath.pop();
return;
}
switch (statement.type) {
case "ImportDeclaration":
this.blockPreWalkImportDeclaration(statement);
break;
case "ExportAllDeclaration":
this.blockPreWalkExportAllDeclaration(statement);
break;
case "ExportDefaultDeclaration":
this.blockPreWalkExportDefaultDeclaration(statement);
break;
case "ExportNamedDeclaration":
this.blockPreWalkExportNamedDeclaration(statement);
break;
case "VariableDeclaration":
this.blockPreWalkVariableDeclaration(statement);
break;
case "ClassDeclaration":
this.blockPreWalkClassDeclaration(statement);
break;
}
this.prevStatement = this.statementPath.pop();
}
walkStatement(statement) {
this.statementPath.push(statement);
if (this.hooks.statement.call(statement) !== undefined) {
this.prevStatement = this.statementPath.pop();
return;
}
switch (statement.type) {
case "BlockStatement":
this.walkBlockStatement(statement);
break;
case "ClassDeclaration":
this.walkClassDeclaration(statement);
break;
case "DoWhileStatement":
this.walkDoWhileStatement(statement);
break;
case "ExportDefaultDeclaration":
this.walkExportDefaultDeclaration(statement);
break;
case "ExportNamedDeclaration":
this.walkExportNamedDeclaration(statement);
break;
case "ExpressionStatement":
this.walkExpressionStatement(statement);
break;
case "ForInStatement":
this.walkForInStatement(statement);
break;
case "ForOfStatement":
this.walkForOfStatement(statement);
break;
case "ForStatement":
this.walkForStatement(statement);
break;
case "FunctionDeclaration":
this.walkFunctionDeclaration(statement);
break;
case "IfStatement":
this.walkIfStatement(statement);
break;
case "LabeledStatement":
this.walkLabeledStatement(statement);
break;
case "ReturnStatement":
this.walkReturnStatement(statement);
break;
case "SwitchStatement":
this.walkSwitchStatement(statement);
break;
case "ThrowStatement":
this.walkThrowStatement(statement);
break;
case "TryStatement":
this.walkTryStatement(statement);
break;
case "VariableDeclaration":
this.walkVariableDeclaration(statement);
break;
case "WhileStatement":
this.walkWhileStatement(statement);
break;
case "WithStatement":
this.walkWithStatement(statement);
break;
}
this.prevStatement = this.statementPath.pop();
}
/**
* Walks a statements that is nested within a parent statement
* and can potentially be a non-block statement.
* This enforces the nested statement to never be in ASI position.
* @param {StatementNode} statement the nested statement
* @returns {void}
*/
walkNestedStatement(statement) {
this.prevStatement = undefined;
this.walkStatement(statement);
}
// Real Statements
preWalkBlockStatement(statement) {
this.preWalkStatements(statement.body);
}
walkBlockStatement(statement) {
this.inBlockScope(() => {
const body = statement.body;
const prev = this.prevStatement;
this.blockPreWalkStatements(body);
this.prevStatement = prev;
this.walkStatements(body);
});
}
walkExpressionStatement(statement) {
this.walkExpression(statement.expression);
}
preWalkIfStatement(statement) {
this.preWalkStatement(statement.consequent);
if (statement.alternate) {
this.preWalkStatement(statement.alternate);
}
}
walkIfStatement(statement) {
const result = this.hooks.statementIf.call(statement);
if (result === undefined) {
this.walkExpression(statement.test);
this.walkNestedStatement(statement.consequent);
if (statement.alternate) {
this.walkNestedStatement(statement.alternate);
}
} else {
if (result) {
this.walkNestedStatement(statement.consequent);
} else if (statement.alternate) {
this.walkNestedStatement(statement.alternate);
}
}
}
preWalkLabeledStatement(statement) {
this.preWalkStatement(statement.body);
}
walkLabeledStatement(statement) {
const hook = this.hooks.label.get(statement.label.name);
if (hook !== undefined) {
const result = hook.call(statement);
if (result === true) return;
}
this.walkNestedStatement(statement.body);
}
preWalkWithStatement(statement) {
this.preWalkStatement(statement.body);
}
walkWithStatement(statement) {
this.walkExpression(statement.object);
this.walkNestedStatement(statement.body);
}
preWalkSwitchStatement(statement) {
this.preWalkSwitchCases(statement.cases);
}
walkSwitchStatement(statement) {
this.walkExpression(statement.discriminant);
this.walkSwitchCases(statement.cases);
}
walkTerminatingStatement(statement) {
if (statement.argument) this.walkExpression(statement.argument);
}
walkReturnStatement(statement) {
this.walkTerminatingStatement(statement);
}
walkThrowStatement(statement) {
this.walkTerminatingStatement(statement);
}
preWalkTryStatement(statement) {
this.preWalkStatement(statement.block);
if (statement.handler) this.preWalkCatchClause(statement.handler);
if (statement.finializer) this.preWalkStatement(statement.finializer);
}
walkTryStatement(statement) {
if (this.scope.inTry) {
this.walkStatement(statement.block);
} else {
this.scope.inTry = true;
this.walkStatement(statement.block);
this.scope.inTry = false;
}
if (statement.handler) this.walkCatchClause(statement.handler);
if (statement.finalizer) this.walkStatement(statement.finalizer);
}
preWalkWhileStatement(statement) {
this.preWalkStatement(statement.body);
}
walkWhileStatement(statement) {
this.walkExpression(statement.test);
this.walkNestedStatement(statement.body);
}
preWalkDoWhileStatement(statement) {
this.preWalkStatement(statement.body);
}
walkDoWhileStatement(statement) {
this.walkNestedStatement(statement.body);
this.walkExpression(statement.test);
}
preWalkForStatement(statement) {
if (statement.init) {
if (statement.init.type === "VariableDeclaration") {
this.preWalkStatement(statement.init);
}
}
this.preWalkStatement(statement.body);
}
walkForStatement(statement) {
this.inBlockScope(() => {
if (statement.init) {
if (statement.init.type === "VariableDeclaration") {
this.blockPreWalkVariableDeclaration(statement.init);
this.prevStatement = undefined;
this.walkStatement(statement.init);
} else {
this.walkExpression(statement.init);
}
}
if (statement.test) {
this.walkExpression(statement.test);
}
if (statement.update) {
this.walkExpression(statement.update);
}
const body = statement.body;
if (body.type === "BlockStatement") {
// no need to add additional scope
const prev = this.prevStatement;
this.blockPreWalkStatements(body.body);
this.prevStatement = prev;
this.walkStatements(body.body);
} else {
this.walkNestedStatement(body);
}
});
}
preWalkForInStatement(statement) {
if (statement.left.type === "VariableDeclaration") {
this.preWalkVariableDeclaration(statement.left);
}
this.preWalkStatement(statement.body);
}
walkForInStatement(statement) {
this.inBlockScope(() => {
if (statement.left.type === "VariableDeclaration") {
this.blockPreWalkVariableDeclaration(statement.left);
this.walkVariableDeclaration(statement.left);
} else {
this.walkPattern(statement.left);
}
this.walkExpression(statement.right);
const body = statement.body;
if (body.type === "BlockStatement") {
// no need to add additional scope
const prev = this.prevStatement;
this.blockPreWalkStatements(body.body);
this.prevStatement = prev;
this.walkStatements(body.body);
} else {
this.walkNestedStatement(body);
}
});
}
preWalkForOfStatement(statement) {
if (statement.await && this.scope.topLevelScope === true) {
this.hooks.topLevelAwait.call(statement);
}
if (statement.left.type === "VariableDeclaration") {
this.preWalkVariableDeclaration(statement.left);
}
this.preWalkStatement(statement.body);
}
walkForOfStatement(statement) {
this.inBlockScope(() => {
if (statement.left.type === "VariableDeclaration") {
this.blockPreWalkVariableDeclaration(statement.left);
this.walkVariableDeclaration(statement.left);
} else {
this.walkPattern(statement.left);
}
this.walkExpression(statement.right);
const body = statement.body;
if (body.type === "BlockStatement") {
// no need to add additional scope
const prev = this.prevStatement;
this.blockPreWalkStatements(body.body);
this.prevStatement = prev;
this.walkStatements(body.body);
} else {
this.walkNestedStatement(body);
}
});
}
// Declarations
preWalkFunctionDeclaration(statement) {
if (statement.id) {
this.defineVariable(statement.id.name);
}
}
walkFunctionDeclaration(statement) {
const wasTopLevel = this.scope.topLevelScope;
this.scope.topLevelScope = false;
this.inFunctionScope(true, statement.params, () => {
for (const param of statement.params) {
this.walkPattern(param);
}
if (statement.body.type === "BlockStatement") {
this.detectMode(statement.body.body);
const prev = this.prevStatement;
this.preWalkStatement(statement.body);
this.prevStatement = prev;
this.walkStatement(statement.body);
} else {
this.walkExpression(statement.body);
}
});
this.scope.topLevelScope = wasTopLevel;
}
blockPreWalkImportDeclaration(statement) {
const source = statement.source.value;
this.hooks.import.call(statement, source);
for (const specifier of statement.specifiers) {
const name = specifier.local.name;
switch (specifier.type) {
case "ImportDefaultSpecifier":
if (
!this.hooks.importSpecifier.call(statement, source, "default", name)
) {
this.defineVariable(name);
}
break;
case "ImportSpecifier":
if (
!this.hooks.importSpecifier.call(
statement,
source,
specifier.imported.name,
name
)
) {
this.defineVariable(name);
}
break;
case "ImportNamespaceSpecifier":
if (!this.hooks.importSpecifier.call(statement, source, null, name)) {
this.defineVariable(name);
}
break;
default:
this.defineVariable(name);
}
}
}
enterDeclaration(declaration, onIdent) {
switch (declaration.type) {
case "VariableDeclaration":
for (const declarator of declaration.declarations) {
switch (declarator.type) {
case "VariableDeclarator": {
this.enterPattern(declarator.id, onIdent);
break;
}
}
}
break;
case "FunctionDeclaration":
this.enterPattern(declaration.id, onIdent);
break;
case "ClassDeclaration":
this.enterPattern(declaration.id, onIdent);
break;
}
}
blockPreWalkExportNamedDeclaration(statement) {
let source;
if (statement.source) {
source = statement.source.value;
this.hooks.exportImport.call(statement, source);
} else {
this.hooks.export.call(statement);
}
if (statement.declaration) {
if (
!this.hooks.exportDeclaration.call(statement, statement.declaration)
) {
const prev = this.prevStatement;
this.preWalkStatement(statement.declaration);
this.prevStatement = prev;
this.blockPreWalkStatement(statement.declaration);
let index = 0;
this.enterDeclaration(statement.declaration, def => {
this.hooks.exportSpecifier.call(statement, def, def, index++);
});
}
}
if (statement.specifiers) {
for (
let specifierIndex = 0;
specifierIndex < statement.specifiers.length;
specifierIndex++
) {
const specifier = statement.specifiers[specifierIndex];
switch (specifier.type) {
case "ExportSpecifier": {
const name = specifier.exported.name;
if (source) {
this.hooks.exportImportSpecifier.call(
statement,
source,
specifier.local.name,
name,
specifierIndex
);
} else {
this.hooks.exportSpecifier.call(
statement,
specifier.local.name,
name,
specifierIndex
);
}
break;
}
}
}
}
}
walkExportNamedDeclaration(statement) {
if (statement.declaration) {
this.walkStatement(statement.declaration);
}
}
blockPreWalkExportDefaultDeclaration(statement) {
const prev = this.prevStatement;
this.preWalkStatement(statement.declaration);
this.prevStatement = prev;
this.blockPreWalkStatement(statement.declaration);
if (
statement.declaration.id &&
statement.declaration.type !== "FunctionExpression" &&
statement.declaration.type !== "ClassExpression"
) {
this.hooks.exportSpecifier.call(
statement,
statement.declaration.id.name,
"default",
undefined
);
}
}
walkExportDefaultDeclaration(statement) {
this.hooks.export.call(statement);
if (
statement.declaration.id &&
statement.declaration.type !== "FunctionExpression" &&
statement.declaration.type !== "ClassExpression"
) {
if (
!this.hooks.exportDeclaration.call(statement, statement.declaration)
) {
this.walkStatement(statement.declaration);
}
} else {
// Acorn parses `export default function() {}` as `FunctionDeclaration` and
// `export default class {}` as `ClassDeclaration`, both with `id = null`.
// These nodes must be treated as expressions.
if (
statement.declaration.type === "FunctionDeclaration" ||
statement.declaration.type === "ClassDeclaration"
) {
this.walkStatement(statement.declaration);
} else {
this.walkExpression(statement.declaration);
}
if (!this.hooks.exportExpression.call(statement, statement.declaration)) {
this.hooks.exportSpecifier.call(
statement,
statement.declaration,
"default",
undefined
);
}
}
}
blockPreWalkExportAllDeclaration(statement) {
const source = statement.source.value;
const name = statement.exported ? statement.exported.name : null;
this.hooks.exportImport.call(statement, source);
this.hooks.exportImportSpecifier.call(statement, source, null, name, 0);
}
preWalkVariableDeclaration(statement) {
if (statement.kind !== "var") return;
this._preWalkVariableDeclaration(statement, this.hooks.varDeclarationVar);
}
blockPreWalkVariableDeclaration(statement) {
if (statement.kind === "var") return;
const hookMap =
statement.kind === "const"
? this.hooks.varDeclarationConst
: this.hooks.varDeclarationLet;
this._preWalkVariableDeclaration(statement, hookMap);
}
_preWalkVariableDeclaration(statement, hookMap) {
for (const declarator of statement.declarations) {
switch (declarator.type) {
case "VariableDeclarator": {
if (!this.hooks.preDeclarator.call(declarator, statement)) {
this.enterPattern(declarator.id, (name, decl) => {
let hook = hookMap.get(name);
if (hook === undefined || !hook.call(decl)) {
hook = this.hooks.varDeclaration.get(name);
if (hook === undefined || !hook.call(decl)) {
this.defineVariable(name);
}
}
});
}
break;
}
}
}
}
walkVariableDeclaration(statement) {
for (const declarator of statement.declarations) {
switch (declarator.type) {
case "VariableDeclarator": {
const renameIdentifier =
declarator.init && this.getRenameIdentifier(declarator.init);
if (renameIdentifier && declarator.id.type === "Identifier") {
const hook = this.hooks.canRename.get(renameIdentifier);
if (hook !== undefined && hook.call(declarator.init)) {
// renaming with "var a = b;"
const hook = this.hooks.rename.get(renameIdentifier);
if (hook === undefined || !hook.call(declarator.init)) {
this.setVariable(declarator.id.name, renameIdentifier);
}
break;
}
}
if (!this.hooks.declarator.call(declarator, statement)) {
this.walkPattern(declarator.id);
if (declarator.init) this.walkExpression(declarator.init);
}
break;
}
}
}
}
blockPreWalkClassDeclaration(statement) {
if (statement.id) {
this.defineVariable(statement.id.name);
}
}
walkClassDeclaration(statement) {
this.walkClass(statement);
}
preWalkSwitchCases(switchCases) {
for (let index = 0, len = switchCases.length; index < len; index++) {
const switchCase = switchCases[index];
this.preWalkStatements(switchCase.consequent);
}
}
walkSwitchCases(switchCases) {
this.inBlockScope(() => {
const len = switchCases.length;
// we need to pre walk all statements first since we can have invalid code
// import A from "module";
// switch(1) {
// case 1:
// console.log(A); // should fail at runtime
// case 2:
// const A = 1;
// }
for (let index = 0; index < len; index++) {
const switchCase = switchCases[index];
if (switchCase.consequent.length > 0) {
const prev = this.prevStatement;
this.blockPreWalkStatements(switchCase.consequent);
this.prevStatement = prev;
}
}
for (let index = 0; index < len; index++) {
const switchCase = switchCases[index];
if (switchCase.test) {
this.walkExpression(switchCase.test);
}
if (switchCase.consequent.length > 0) {
this.walkStatements(switchCase.consequent);
}
}
});
}
preWalkCatchClause(catchClause) {
this.preWalkStatement(catchClause.body);
}
walkCatchClause(catchClause) {
this.inBlockScope(() => {
// Error binding is optional in catch clause since ECMAScript 2019
if (catchClause.param !== null) {
this.enterPattern(catchClause.param, ident => {
this.defineVariable(ident);
});
this.walkPattern(catchClause.param);
}
const prev = this.prevStatement;
this.blockPreWalkStatement(catchClause.body);
this.prevStatement = prev;
this.walkStatement(catchClause.body);
});
}
walkPattern(pattern) {
switch (pattern.type) {
case "ArrayPattern":
this.walkArrayPattern(pattern);
break;
case "AssignmentPattern":
this.walkAssignmentPattern(pattern);
break;
case "MemberExpression":
this.walkMemberExpression(pattern);
break;
case "ObjectPattern":
this.walkObjectPattern(pattern);
break;
case "RestElement":
this.walkRestElement(pattern);
break;
}
}
walkAssignmentPattern(pattern) {
this.walkExpression(pattern.right);
this.walkPattern(pattern.left);
}
walkObjectPattern(pattern) {
for (let i = 0, len = pattern.properties.length; i < len; i++) {
const prop = pattern.properties[i];
if (prop) {
if (prop.computed) this.walkExpression(prop.key);
if (prop.value) this.walkPattern(prop.value);
}
}
}
walkArrayPattern(pattern) {
for (let i = 0, len = pattern.elements.length; i < len; i++) {
const element = pattern.elements[i];
if (element) this.walkPattern(element);
}
}
walkRestElement(pattern) {
this.walkPattern(pattern.argument);
}
walkExpressions(expressions) {
for (const expression of expressions) {
if (expression) {
this.walkExpression(expression);
}
}
}
walkExpression(expression) {
switch (expression.type) {
case "ArrayExpression":
this.walkArrayExpression(expression);
break;
case "ArrowFunctionExpression":
this.walkArrowFunctionExpression(expression);
break;
case "AssignmentExpression":
this.walkAssignmentExpression(expression);
break;
case "AwaitExpression":
this.walkAwaitExpression(expression);
break;
case "BinaryExpression":
this.walkBinaryExpression(expression);
break;
case "CallExpression":
this.walkCallExpression(expression);
break;
case "ChainExpression":
this.walkChainExpression(expression);
break;
case "ClassExpression":
this.walkClassExpression(expression);
break;
case "ConditionalExpression":
this.walkConditionalExpression(expression);
break;
case "FunctionExpression":
this.walkFunctionExpression(expression);
break;
case "Identifier":
this.walkIdentifier(expression);
break;
case "ImportExpression":
this.walkImportExpression(expression);
break;
case "LogicalExpression":
this.walkLogicalExpression(expression);
break;
case "MetaProperty":
this.walkMetaProperty(expression);
break;
case "MemberExpression":
this.walkMemberExpression(expression);
break;
case "NewExpression":
this.walkNewExpression(expression);
break;
case "ObjectExpression":
this.walkObjectExpression(expression);
break;
case "SequenceExpression":
this.walkSequenceExpression(expression);
break;
case "SpreadElement":
this.walkSpreadElement(expression);
break;
case "TaggedTemplateExpression":
this.walkTaggedTemplateExpression(expression);
break;
case "TemplateLiteral":
this.walkTemplateLiteral(expression);
break;
case "ThisExpression":
this.walkThisExpression(expression);
break;
case "UnaryExpression":
this.walkUnaryExpression(expression);
break;
case "UpdateExpression":
this.walkUpdateExpression(expression);
break;
case "YieldExpression":
this.walkYieldExpression(expression);
break;
}
}
walkAwaitExpression(expression) {
if (this.scope.topLevelScope === true)
this.hooks.topLevelAwait.call(expression);
this.walkExpression(expression.argument);
}
walkArrayExpression(expression) {
if (expression.elements) {
this.walkExpressions(expression.elements);
}
}
walkSpreadElement(expression) {
if (expression.argument) {
this.walkExpression(expression.argument);
}
}
walkObjectExpression(expression) {
for (
let propIndex = 0, len = expression.properties.length;
propIndex < len;
propIndex++
) {
const prop = expression.properties[propIndex];
this.walkProperty(prop);
}
}
walkProperty(prop) {
if (prop.type === "SpreadElement") {
this.walkExpression(prop.argument);
return;
}
if (prop.computed) {
this.walkExpression(prop.key);
}
if (prop.shorthand && prop.value && prop.value.type === "Identifier") {
this.scope.inShorthand = prop.value.name;
this.walkIdentifier(prop.value);
this.scope.inShorthand = false;
} else {
this.walkExpression(prop.value);
}
}
walkFunctionExpression(expression) {
const wasTopLevel = this.scope.topLevelScope;
this.scope.topLevelScope = false;
const scopeParams = expression.params;
// Add function name in scope for recursive calls
if (expression.id) {
scopeParams.push(expression.id.name);
}
this.inFunctionScope(true, scopeParams, () => {
for (const param of expression.params) {
this.walkPattern(param);
}
if (expression.body.type === "BlockStatement") {
this.detectMode(expression.body.body);
const prev = this.prevStatement;
this.preWalkStatement(expression.body);
this.prevStatement = prev;
this.walkStatement(expression.body);
} else {
this.walkExpression(expression.body);
}
});
this.scope.topLevelScope = wasTopLevel;
}
walkArrowFunctionExpression(expression) {
const wasTopLevel = this.scope.topLevelScope;
this.scope.topLevelScope = wasTopLevel ? "arrow" : false;
this.inFunctionScope(false, expression.params, () => {
for (const param of expression.params) {
this.walkPattern(param);
}
if (expression.body.type === "BlockStatement") {
this.detectMode(expression.body.body);
const prev = this.prevStatement;
this.preWalkStatement(expression.body);
this.prevStatement = prev;
this.walkStatement(expression.body);
} else {
this.walkExpression(expression.body);
}
});
this.scope.topLevelScope = wasTopLevel;
}
/**
* @param {SequenceExpressionNode} expression the sequence
*/
walkSequenceExpression(expression) {
if (!expression.expressions) return;
// We treat sequence expressions like statements when they are one statement level
// This has some benefits for optimizations that only work on statement level
const currentStatement = this.statementPath[this.statementPath.length - 1];
if (
currentStatement === expression ||
(currentStatement.type === "ExpressionStatement" &&
currentStatement.expression === expression)
) {
const old = this.statementPath.pop();
for (const expr of expression.expressions) {
this.statementPath.push(expr);
this.walkExpression(expr);
this.statementPath.pop();
}
this.statementPath.push(old);
} else {
this.walkExpressions(expression.expressions);
}
}
walkUpdateExpression(expression) {
this.walkExpression(expression.argument);
}
walkUnaryExpression(expression) {
if (expression.operator === "typeof") {
const result = this.callHooksForExpression(
this.hooks.typeof,
expression.argument,
expression
);
if (result === true) return;
if (expression.argument.type === "ChainExpression") {
const result = this.callHooksForExpression(
this.hooks.typeof,
expression.argument.expression,
expression
);
if (result === true) return;
}
}
this.walkExpression(expression.argument);
}
walkLeftRightExpression(expression) {
this.walkExpression(expression.left);
this.walkExpression(expression.right);
}
walkBinaryExpression(expression) {
this.walkLeftRightExpression(expression);
}
walkLogicalExpression(expression) {
const result = this.hooks.expressionLogicalOperator.call(expression);
if (result === undefined) {
this.walkLeftRightExpression(expression);
} else {
if (result) {
this.walkExpression(expression.right);
}
}
}
walkAssignmentExpression(expression) {
if (expression.left.type === "Identifier") {
const renameIdentifier = this.getRenameIdentifier(expression.right);
if (renameIdentifier) {
if (
this.callHooksForInfo(
this.hooks.canRename,
renameIdentifier,
expression.right
)
) {
// renaming "a = b;"
if (
!this.callHooksForInfo(
this.hooks.rename,
renameIdentifier,
expression.right
)
) {
this.setVariable(
expression.left.name,
this.getVariableInfo(renameIdentifier)
);
}
return;
}
}
this.walkExpression(expression.right);
this.enterPattern(expression.left, (name, decl) => {
if (!this.callHooksForName(this.hooks.assign, name, expression)) {
this.walkExpression(expression.left);
}
});
return;
}
if (expression.left.type.endsWith("Pattern")) {
this.walkExpression(expression.right);
this.enterPattern(expression.left, (name, decl) => {
if (!this.callHooksForName(this.hooks.assign, name, expression)) {
this.defineVariable(name);
}
});
this.walkPattern(expression.left);
} else if (expression.left.type === "MemberExpression") {
const exprName = this.getMemberExpressionInfo(
expression.left,
ALLOWED_MEMBER_TYPES_EXPRESSION
);
if (exprName) {
if (
this.callHooksForInfo(
this.hooks.assignMemberChain,
exprName.rootInfo,
expression,
exprName.getMembers()
)
) {
return;
}
}
this.walkExpression(expression.right);
this.walkExpression(expression.left);
} else {
this.walkExpression(expression.right);
this.walkExpression(expression.left);
}
}
walkConditionalExpression(expression) {
const result = this.hooks.expressionConditionalOperator.call(expression);
if (result === undefined) {
this.walkExpression(expression.test);
this.walkExpression(expression.consequent);
if (expression.alternate) {
this.walkExpression(expression.alternate);
}
} else {
if (result) {
this.walkExpression(expression.consequent);
} else if (expression.alternate) {
this.walkExpression(expression.alternate);
}
}
}
walkNewExpression(expression) {
const result = this.callHooksForExpression(
this.hooks.new,
expression.callee,
expression
);
if (result === true) return;
this.walkExpression(expression.callee);
if (expression.arguments) {
this.walkExpressions(expression.arguments);
}
}
walkYieldExpression(expression) {
if (expression.argument) {
this.walkExpression(expression.argument);
}
}
walkTemplateLiteral(expression) {
if (expression.expressions) {
this.walkExpressions(expression.expressions);
}
}
walkTaggedTemplateExpression(expression) {
if (expression.tag) {
this.walkExpression(expression.tag);
}
if (expression.quasi && expression.quasi.expressions) {
this.walkExpressions(expression.quasi.expressions);
}
}
walkClassExpression(expression) {
this.walkClass(expression);
}
/**
* @param {ChainExpressionNode} expression expression
*/
walkChainExpression(expression) {
const result = this.hooks.optionalChaining.call(expression);
if (result === undefined) {
if (expression.expression.type === "CallExpression") {
this.walkCallExpression(expression.expression);
} else {
this.walkMemberExpression(expression.expression);
}
}
}
_walkIIFE(functionExpression, options, currentThis) {
const getVarInfo = argOrThis => {
const renameIdentifier = this.getRenameIdentifier(argOrThis);
if (renameIdentifier) {
if (
this.callHooksForInfo(
this.hooks.canRename,
renameIdentifier,
argOrThis
)
) {
if (
!this.callHooksForInfo(
this.hooks.rename,
renameIdentifier,
argOrThis
)
) {
return this.getVariableInfo(renameIdentifier);
}
}
}
this.walkExpression(argOrThis);
};
const { params, type } = functionExpression;
const arrow = type === "ArrowFunctionExpression";
const renameThis = currentThis ? getVarInfo(currentThis) : null;
const varInfoForArgs = options.map(getVarInfo);
const wasTopLevel = this.scope.topLevelScope;
this.scope.topLevelScope = wasTopLevel && arrow ? "arrow" : false;
const scopeParams = params.filter(
(identifier, idx) => !varInfoForArgs[idx]
);
// Add function name in scope for recursive calls
if (functionExpression.id) {
scopeParams.push(functionExpression.id.name);
}
this.inFunctionScope(true, scopeParams, () => {
if (renameThis && !arrow) {
this.setVariable("this", renameThis);
}
for (let i = 0; i < varInfoForArgs.length; i++) {
const varInfo = varInfoForArgs[i];
if (!varInfo) continue;
if (!params[i] || params[i].type !== "Identifier") continue;
this.setVariable(params[i].name, varInfo);
}
if (functionExpression.body.type === "BlockStatement") {
this.detectMode(functionExpression.body.body);
const prev = this.prevStatement;
this.preWalkStatement(functionExpression.body);
this.prevStatement = prev;
this.walkStatement(functionExpression.body);
} else {
this.walkExpression(functionExpression.body);
}
});
this.scope.topLevelScope = wasTopLevel;
}
walkImportExpression(expression) {
let result = this.hooks.importCall.call(expression);
if (result === true) return;
this.walkExpression(expression.source);
}
walkCallExpression(expression) {
const isSimpleFunction = fn => {
return fn.params.every(p => p.type === "Identifier");
};
if (
expression.callee.type === "MemberExpression" &&
expression.callee.object.type.endsWith("FunctionExpression") &&
!expression.callee.computed &&
(expression.callee.property.name === "call" ||
expression.callee.property.name === "bind") &&
expression.arguments.length > 0 &&
isSimpleFunction(expression.callee.object)
) {
// (function(…) { }.call/bind(?, …))
this._walkIIFE(
expression.callee.object,
expression.arguments.slice(1),
expression.arguments[0]
);
} else if (
expression.callee.type.endsWith("FunctionExpression") &&
isSimpleFunction(expression.callee)
) {
// (function(…) { }(…))
this._walkIIFE(expression.callee, expression.arguments, null);
} else {
if (expression.callee.type === "MemberExpression") {
const exprInfo = this.getMemberExpressionInfo(
expression.callee,
ALLOWED_MEMBER_TYPES_CALL_EXPRESSION
);
if (exprInfo && exprInfo.type === "call") {
const result = this.callHooksForInfo(
this.hooks.callMemberChainOfCallMemberChain,
exprInfo.rootInfo,
expression,
exprInfo.getCalleeMembers(),
exprInfo.call,
exprInfo.getMembers()
);
if (result === true) return;
}
}
const callee = this.evaluateExpression(expression.callee);
if (callee.isIdentifier()) {
const result1 = this.callHooksForInfo(
this.hooks.callMemberChain,
callee.rootInfo,
expression,
callee.getMembers()
);
if (result1 === true) return;
const result2 = this.callHooksForInfo(
this.hooks.call,
callee.identifier,
expression
);
if (result2 === true) return;
}
if (expression.callee) {
if (expression.callee.type === "MemberExpression") {
// because of call context we need to walk the call context as expression
this.walkExpression(expression.callee.object);
if (expression.callee.computed === true)
this.walkExpression(expression.callee.property);
} else {
this.walkExpression(expression.callee);
}
}
if (expression.arguments) this.walkExpressions(expression.arguments);
}
}
walkMemberExpression(expression) {
const exprInfo = this.getMemberExpressionInfo(
expression,
ALLOWED_MEMBER_TYPES_ALL
);
if (exprInfo) {
switch (exprInfo.type) {
case "expression": {
const result1 = this.callHooksForInfo(
this.hooks.expression,
exprInfo.name,
expression
);
if (result1 === true) return;
const members = exprInfo.getMembers();
const result2 = this.callHooksForInfo(
this.hooks.expressionMemberChain,
exprInfo.rootInfo,
expression,
members
);
if (result2 === true) return;
this.walkMemberExpressionWithExpressionName(
expression,
exprInfo.name,
exprInfo.rootInfo,
members.slice(),
() =>
this.callHooksForInfo(
this.hooks.unhandledExpressionMemberChain,
exprInfo.rootInfo,
expression,
members
)
);
return;
}
case "call": {
const result = this.callHooksForInfo(
this.hooks.memberChainOfCallMemberChain,
exprInfo.rootInfo,
expression,
exprInfo.getCalleeMembers(),
exprInfo.call,
exprInfo.getMembers()
);
if (result === true) return;
// Fast skip over the member chain as we already called memberChainOfCallMemberChain
// and call computed property are literals anyway
this.walkExpression(exprInfo.call);
return;
}
}
}
this.walkExpression(expression.object);
if (expression.computed === true) this.walkExpression(expression.property);
}
walkMemberExpressionWithExpressionName(
expression,
name,
rootInfo,
members,
onUnhandled
) {
if (expression.object.type === "MemberExpression") {
// optimize the case where expression.object is a MemberExpression too.
// we can keep info here when calling walkMemberExpression directly
const property =
expression.property.name || `${expression.property.value}`;
name = name.slice(0, -property.length - 1);
members.pop();
const result = this.callHooksForInfo(
this.hooks.expression,
name,
expression.object
);
if (result === true) return;
this.walkMemberExpressionWithExpressionName(
expression.object,
name,
rootInfo,
members,
onUnhandled
);
} else if (!onUnhandled || !onUnhandled()) {
this.walkExpression(expression.object);
}
if (expression.computed === true) this.walkExpression(expression.property);
}
walkThisExpression(expression) {
this.callHooksForName(this.hooks.expression, "this", expression);
}
walkIdentifier(expression) {
this.callHooksForName(this.hooks.expression, expression.name, expression);
}
/**
* @param {MetaPropertyNode} metaProperty meta property
*/
walkMetaProperty(metaProperty) {
this.hooks.expression.for(getRootName(metaProperty)).call(metaProperty);
}
callHooksForExpression(hookMap, expr, ...args) {
return this.callHooksForExpressionWithFallback(
hookMap,
expr,
undefined,
undefined,
...args
);
}
/**
* @template T
* @template R
* @param {HookMap<SyncBailHook<T, R>>} hookMap hooks the should be called
* @param {MemberExpressionNode} expr expression info
* @param {function(string, string | ScopeInfo | VariableInfo, function(): string[]): any} fallback callback when variable in not handled by hooks
* @param {function(string): any} defined callback when variable is defined
* @param {AsArray<T>} args args for the hook
* @returns {R} result of hook
*/
callHooksForExpressionWithFallback(
hookMap,
expr,
fallback,
defined,
...args
) {
const exprName = this.getMemberExpressionInfo(
expr,
ALLOWED_MEMBER_TYPES_EXPRESSION
);
if (exprName !== undefined) {
const members = exprName.getMembers();
return this.callHooksForInfoWithFallback(
hookMap,
members.length === 0 ? exprName.rootInfo : exprName.name,
fallback &&
(name => fallback(name, exprName.rootInfo, exprName.getMembers)),
defined && (() => defined(exprName.name)),
...args
);
}
}
/**
* @template T
* @template R
* @param {HookMap<SyncBailHook<T, R>>} hookMap hooks the should be called
* @param {string} name key in map
* @param {AsArray<T>} args args for the hook
* @returns {R} result of hook
*/
callHooksForName(hookMap, name, ...args) {
return this.callHooksForNameWithFallback(
hookMap,
name,
undefined,
undefined,
...args
);
}
/**
* @template T
* @template R
* @param {HookMap<SyncBailHook<T, R>>} hookMap hooks that should be called
* @param {ExportedVariableInfo} info variable info
* @param {AsArray<T>} args args for the hook
* @returns {R} result of hook
*/
callHooksForInfo(hookMap, info, ...args) {
return this.callHooksForInfoWithFallback(
hookMap,
info,
undefined,
undefined,
...args
);
}
/**
* @template T
* @template R
* @param {HookMap<SyncBailHook<T, R>>} hookMap hooks the should be called
* @param {ExportedVariableInfo} info variable info
* @param {function(string): any} fallback callback when variable in not handled by hooks
* @param {function(): any} defined callback when variable is defined
* @param {AsArray<T>} args args for the hook
* @returns {R} result of hook
*/
callHooksForInfoWithFallback(hookMap, info, fallback, defined, ...args) {
let name;
if (typeof info === "string") {
name = info;
} else {
if (!(info instanceof VariableInfo)) {
if (defined !== undefined) {
return defined();
}
return;
}
let tagInfo = info.tagInfo;
while (tagInfo !== undefined) {
const hook = hookMap.get(tagInfo.tag);
if (hook !== undefined) {
this.currentTagData = tagInfo.data;
const result = hook.call(...args);
this.currentTagData = undefined;
if (result !== undefined) return result;
}
tagInfo = tagInfo.next;
}
if (info.freeName === true) {
if (defined !== undefined) {
return defined();
}
return;
}
name = info.freeName;
}
const hook = hookMap.get(name);
if (hook !== undefined) {
const result = hook.call(...args);
if (result !== undefined) return result;
}
if (fallback !== undefined) {
return fallback(name);
}
}
/**
* @template T
* @template R
* @param {HookMap<SyncBailHook<T, R>>} hookMap hooks the should be called
* @param {string} name key in map
* @param {function(string): any} fallback callback when variable in not handled by hooks
* @param {function(): any} defined callback when variable is defined
* @param {AsArray<T>} args args for the hook
* @returns {R} result of hook
*/
callHooksForNameWithFallback(hookMap, name, fallback, defined, ...args) {
return this.callHooksForInfoWithFallback(
hookMap,
this.getVariableInfo(name),
fallback,
defined,
...args
);
}
/**
* @deprecated
* @param {any} params scope params
* @param {function(): void} fn inner function
* @returns {void}
*/
inScope(params, fn) {
const oldScope = this.scope;
this.scope = {
topLevelScope: oldScope.topLevelScope,
inTry: false,
inShorthand: false,
isStrict: oldScope.isStrict,
isAsmJs: oldScope.isAsmJs,
definitions: oldScope.definitions.createChild()
};
this.undefineVariable("this");
this.enterPatterns(params, (ident, pattern) => {
this.defineVariable(ident);
});
fn();
this.scope = oldScope;
}
inFunctionScope(hasThis, params, fn) {
const oldScope = this.scope;
this.scope = {
topLevelScope: oldScope.topLevelScope,
inTry: false,
inShorthand: false,
isStrict: oldScope.isStrict,
isAsmJs: oldScope.isAsmJs,
definitions: oldScope.definitions.createChild()
};
if (hasThis) {
this.undefineVariable("this");
}
this.enterPatterns(params, (ident, pattern) => {
this.defineVariable(ident);
});
fn();
this.scope = oldScope;
}
inBlockScope(fn) {
const oldScope = this.scope;
this.scope = {
topLevelScope: oldScope.topLevelScope,
inTry: oldScope.inTry,
inShorthand: false,
isStrict: oldScope.isStrict,
isAsmJs: oldScope.isAsmJs,
definitions: oldScope.definitions.createChild()
};
fn();
this.scope = oldScope;
}
detectMode(statements) {
const isLiteral =
statements.length >= 1 &&
statements[0].type === "ExpressionStatement" &&
statements[0].expression.type === "Literal";
if (isLiteral && statements[0].expression.value === "use strict") {
this.scope.isStrict = true;
}
if (isLiteral && statements[0].expression.value === "use asm") {
this.scope.isAsmJs = true;
}
}
enterPatterns(patterns, onIdent) {
for (const pattern of patterns) {
if (typeof pattern !== "string") {
this.enterPattern(pattern, onIdent);
} else if (pattern) {
onIdent(pattern);
}
}
}
enterPattern(pattern, onIdent) {
if (!pattern) return;
switch (pattern.type) {
case "ArrayPattern":
this.enterArrayPattern(pattern, onIdent);
break;
case "AssignmentPattern":
this.enterAssignmentPattern(pattern, onIdent);
break;
case "Identifier":
this.enterIdentifier(pattern, onIdent);
break;
case "ObjectPattern":
this.enterObjectPattern(pattern, onIdent);
break;
case "RestElement":
this.enterRestElement(pattern, onIdent);
break;
case "Property":
if (pattern.shorthand && pattern.value.type === "Identifier") {
this.scope.inShorthand = pattern.value.name;
this.enterIdentifier(pattern.value, onIdent);
this.scope.inShorthand = false;
} else {
this.enterPattern(pattern.value, onIdent);
}
break;
}
}
enterIdentifier(pattern, onIdent) {
if (!this.callHooksForName(this.hooks.pattern, pattern.name, pattern)) {
onIdent(pattern.name, pattern);
}
}
enterObjectPattern(pattern, onIdent) {
for (
let propIndex = 0, len = pattern.properties.length;
propIndex < len;
propIndex++
) {
const prop = pattern.properties[propIndex];
this.enterPattern(prop, onIdent);
}
}
enterArrayPattern(pattern, onIdent) {
for (
let elementIndex = 0, len = pattern.elements.length;
elementIndex < len;
elementIndex++
) {
const element = pattern.elements[elementIndex];
this.enterPattern(element, onIdent);
}
}
enterRestElement(pattern, onIdent) {
this.enterPattern(pattern.argument, onIdent);
}
enterAssignmentPattern(pattern, onIdent) {
this.enterPattern(pattern.left, onIdent);
}
/**
* @param {ExpressionNode} expression expression node
* @returns {BasicEvaluatedExpression | undefined} evaluation result
*/
evaluateExpression(expression) {
try {
const hook = this.hooks.evaluate.get(expression.type);
if (hook !== undefined) {
const result = hook.call(expression);
if (result !== undefined) {
if (result) {
result.setExpression(expression);
}
return result;
}
}
} catch (e) {
console.warn(e);
// ignore error
}
return new BasicEvaluatedExpression()
.setRange(expression.range)
.setExpression(expression);
}
parseString(expression) {
switch (expression.type) {
case "BinaryExpression":
if (expression.operator === "+") {
return (
this.parseString(expression.left) +
this.parseString(expression.right)
);
}
break;
case "Literal":
return expression.value + "";
}
throw new Error(
expression.type + " is not supported as parameter for require"
);
}
parseCalculatedString(expression) {
switch (expression.type) {
case "BinaryExpression":
if (expression.operator === "+") {
const left = this.parseCalculatedString(expression.left);
const right = this.parseCalculatedString(expression.right);
if (left.code) {
return {
range: left.range,
value: left.value,
code: true,
conditional: false
};
} else if (right.code) {
return {
range: [
left.range[0],
right.range ? right.range[1] : left.range[1]
],
value: left.value + right.value,
code: true,
conditional: false
};
} else {
return {
range: [left.range[0], right.range[1]],
value: left.value + right.value,
code: false,
conditional: false
};
}
}
break;
case "ConditionalExpression": {
const consequent = this.parseCalculatedString(expression.consequent);
const alternate = this.parseCalculatedString(expression.alternate);
const items = [];
if (consequent.conditional) {
items.push(...consequent.conditional);
} else if (!consequent.code) {
items.push(consequent);
} else {
break;
}
if (alternate.conditional) {
items.push(...alternate.conditional);
} else if (!alternate.code) {
items.push(alternate);
} else {
break;
}
return {
range: undefined,
value: "",
code: true,
conditional: items
};
}
case "Literal":
return {
range: expression.range,
value: expression.value + "",
code: false,
conditional: false
};
}
return {
range: undefined,
value: "",
code: true,
conditional: false
};
}
/**
* @param {string | Buffer | PreparsedAst} source the source to parse
* @param {ParserState} state the parser state
* @returns {ParserState} the parser state
*/
parse(source, state) {
let ast;
let comments;
const semicolons = new Set();
if (source === null) {
throw new Error("source must not be null");
}
if (Buffer.isBuffer(source)) {
source = source.toString("utf-8");
}
if (typeof source === "object") {
ast = /** @type {ProgramNode} */ (source);
comments = source.comments;
} else {
comments = [];
ast = JavascriptParser._parse(source, {
sourceType: this.sourceType,
onComment: comments,
onInsertedSemicolon: pos => semicolons.add(pos)
});
}
const oldScope = this.scope;
const oldState = this.state;
const oldComments = this.comments;
const oldSemicolons = this.semicolons;
const oldStatementPath = this.statementPath;
const oldPrevStatement = this.prevStatement;
this.scope = {
topLevelScope: true,
inTry: false,
inShorthand: false,
isStrict: false,
isAsmJs: false,
definitions: new StackedMap()
};
/** @type {ParserState} */
this.state = state;
this.comments = comments;
this.semicolons = semicolons;
this.statementPath = [];
this.prevStatement = undefined;
if (this.hooks.program.call(ast, comments) === undefined) {
this.detectMode(ast.body);
this.preWalkStatements(ast.body);
this.prevStatement = undefined;
this.blockPreWalkStatements(ast.body);
this.prevStatement = undefined;
this.walkStatements(ast.body);
}
this.hooks.finish.call(ast, comments);
this.scope = oldScope;
/** @type {ParserState} */
this.state = oldState;
this.comments = oldComments;
this.semicolons = oldSemicolons;
this.statementPath = oldStatementPath;
this.prevStatement = oldPrevStatement;
return state;
}
evaluate(source) {
const ast = JavascriptParser._parse("(" + source + ")", {
sourceType: this.sourceType,
locations: false
});
if (ast.body.length !== 1 || ast.body[0].type !== "ExpressionStatement") {
throw new Error("evaluate: Source is not a expression");
}
return this.evaluateExpression(ast.body[0].expression);
}
/**
* @param {ExpressionNode | DeclarationNode | PrivateIdentifierNode | null | undefined} expr an expression
* @param {number} commentsStartPos source position from which annotation comments are checked
* @returns {boolean} true, when the expression is pure
*/
isPure(expr, commentsStartPos) {
if (!expr) return true;
const result = this.hooks.isPure
.for(expr.type)
.call(expr, commentsStartPos);
if (typeof result === "boolean") return result;
switch (expr.type) {
case "ClassDeclaration":
case "ClassExpression": {
if (expr.body.type !== "ClassBody") return false;
if (expr.superClass && !this.isPure(expr.superClass, expr.range[0])) {
return false;
}
const items =
/** @type {(MethodDefinitionNode | PropertyDefinitionNode)[]} */ (
expr.body.body
);
return items.every(
item =>
(!item.computed ||
!item.key ||
this.isPure(item.key, item.range[0])) &&
(!item.static ||
!item.value ||
this.isPure(
item.value,
item.key ? item.key.range[1] : item.range[0]
))
);
}
case "FunctionDeclaration":
case "FunctionExpression":
case "ArrowFunctionExpression":
case "Literal":
case "PrivateIdentifier":
return true;
case "VariableDeclaration":
return expr.declarations.every(decl =>
this.isPure(decl.init, decl.range[0])
);
case "ConditionalExpression":
return (
this.isPure(expr.test, commentsStartPos) &&
this.isPure(expr.consequent, expr.test.range[1]) &&
this.isPure(expr.alternate, expr.consequent.range[1])
);
case "SequenceExpression":
return expr.expressions.every(expr => {
const pureFlag = this.isPure(expr, commentsStartPos);
commentsStartPos = expr.range[1];
return pureFlag;
});
case "CallExpression": {
const pureFlag =
expr.range[0] - commentsStartPos > 12 &&
this.getComments([commentsStartPos, expr.range[0]]).some(
comment =>
comment.type === "Block" &&
/^\s*(#|@)__PURE__\s*$/.test(comment.value)
);
if (!pureFlag) return false;
commentsStartPos = expr.callee.range[1];
return expr.arguments.every(arg => {
if (arg.type === "SpreadElement") return false;
const pureFlag = this.isPure(arg, commentsStartPos);
commentsStartPos = arg.range[1];
return pureFlag;
});
}
}
const evaluated = this.evaluateExpression(expr);
return !evaluated.couldHaveSideEffects();
}
getComments(range) {
const [rangeStart, rangeEnd] = range;
const compare = (comment, needle) => comment.range[0] - needle;
let idx = binarySearchBounds.ge(this.comments, rangeStart, compare);
let commentsInRange = [];
while (this.comments[idx] && this.comments[idx].range[1] <= rangeEnd) {
commentsInRange.push(this.comments[idx]);
idx++;
}
return commentsInRange;
}
/**
* @param {number} pos source code position
* @returns {boolean} true when a semicolon has been inserted before this position, false if not
*/
isAsiPosition(pos) {
const currentStatement = this.statementPath[this.statementPath.length - 1];
if (currentStatement === undefined) throw new Error("Not in statement");
return (
// Either asking directly for the end position of the current statement
(currentStatement.range[1] === pos && this.semicolons.has(pos)) ||
// Or asking for the start position of the current statement,
// here we have to check multiple things
(currentStatement.range[0] === pos &&
// is there a previous statement which might be relevant?
this.prevStatement !== undefined &&
// is the end position of the previous statement an ASI position?
this.semicolons.has(this.prevStatement.range[1]))
);
}
/**
* @param {number} pos source code position
* @returns {void}
*/
unsetAsiPosition(pos) {
this.semicolons.delete(pos);
}
isStatementLevelExpression(expr) {
const currentStatement = this.statementPath[this.statementPath.length - 1];
return (
expr === currentStatement ||
(currentStatement.type === "ExpressionStatement" &&
currentStatement.expression === expr)
);
}
getTagData(name, tag) {
const info = this.scope.definitions.get(name);
if (info instanceof VariableInfo) {
let tagInfo = info.tagInfo;
while (tagInfo !== undefined) {
if (tagInfo.tag === tag) return tagInfo.data;
tagInfo = tagInfo.next;
}
}
}
tagVariable(name, tag, data) {
const oldInfo = this.scope.definitions.get(name);
/** @type {VariableInfo} */
let newInfo;
if (oldInfo === undefined) {
newInfo = new VariableInfo(this.scope, name, {
tag,
data,
next: undefined
});
} else if (oldInfo instanceof VariableInfo) {
newInfo = new VariableInfo(oldInfo.declaredScope, oldInfo.freeName, {
tag,
data,
next: oldInfo.tagInfo
});
} else {
newInfo = new VariableInfo(oldInfo, true, {
tag,
data,
next: undefined
});
}
this.scope.definitions.set(name, newInfo);
}
defineVariable(name) {
const oldInfo = this.scope.definitions.get(name);
// Don't redefine variable in same scope to keep existing tags
if (oldInfo instanceof VariableInfo && oldInfo.declaredScope === this.scope)
return;
this.scope.definitions.set(name, this.scope);
}
undefineVariable(name) {
this.scope.definitions.delete(name);
}
isVariableDefined(name) {
const info = this.scope.definitions.get(name);
if (info === undefined) return false;
if (info instanceof VariableInfo) {
return info.freeName === true;
}
return true;
}
/**
* @param {string} name variable name
* @returns {ExportedVariableInfo} info for this variable
*/
getVariableInfo(name) {
const value = this.scope.definitions.get(name);
if (value === undefined) {
return name;
} else {
return value;
}
}
/**
* @param {string} name variable name
* @param {ExportedVariableInfo} variableInfo new info for this variable
* @returns {void}
*/
setVariable(name, variableInfo) {
if (typeof variableInfo === "string") {
if (variableInfo === name) {
this.scope.definitions.delete(name);
} else {
this.scope.definitions.set(
name,
new VariableInfo(this.scope, variableInfo, undefined)
);
}
} else {
this.scope.definitions.set(name, variableInfo);
}
}
parseCommentOptions(range) {
const comments = this.getComments(range);
if (comments.length === 0) {
return EMPTY_COMMENT_OPTIONS;
}
let options = {};
let errors = [];
for (const comment of comments) {
const { value } = comment;
if (value && webpackCommentRegExp.test(value)) {
// try compile only if webpack options comment is present
try {
const val = vm.runInNewContext(`(function(){return {${value}};})()`);
Object.assign(options, val);
} catch (e) {
e.comment = comment;
errors.push(e);
}
}
}
return { options, errors };
}
/**
* @param {MemberExpressionNode} expression a member expression
* @returns {{ members: string[], object: ExpressionNode | SuperNode }} member names (reverse order) and remaining object
*/
extractMemberExpressionChain(expression) {
/** @type {AnyNode} */
let expr = expression;
const members = [];
while (expr.type === "MemberExpression") {
if (expr.computed) {
if (expr.property.type !== "Literal") break;
members.push(`${expr.property.value}`);
} else {
if (expr.property.type !== "Identifier") break;
members.push(expr.property.name);
}
expr = expr.object;
}
return {
members,
object: expr
};
}
/**
* @param {string} varName variable name
* @returns {{name: string, info: VariableInfo | string}} name of the free variable and variable info for that
*/
getFreeInfoFromVariable(varName) {
const info = this.getVariableInfo(varName);
let name;
if (info instanceof VariableInfo) {
name = info.freeName;
if (typeof name !== "string") return undefined;
} else if (typeof info !== "string") {
return undefined;
} else {
name = info;
}
return { info, name };
}
/** @typedef {{ type: "call", call: CallExpressionNode, calleeName: string, rootInfo: string | VariableInfo, getCalleeMembers: () => string[], name: string, getMembers: () => string[]}} CallExpressionInfo */
/** @typedef {{ type: "expression", rootInfo: string | VariableInfo, name: string, getMembers: () => string[]}} ExpressionExpressionInfo */
/**
* @param {MemberExpressionNode} expression a member expression
* @param {number} allowedTypes which types should be returned, presented in bit mask
* @returns {CallExpressionInfo | ExpressionExpressionInfo | undefined} expression info
*/
getMemberExpressionInfo(expression, allowedTypes) {
const { object, members } = this.extractMemberExpressionChain(expression);
switch (object.type) {
case "CallExpression": {
if ((allowedTypes & ALLOWED_MEMBER_TYPES_CALL_EXPRESSION) === 0)
return undefined;
let callee = object.callee;
let rootMembers = EMPTY_ARRAY;
if (callee.type === "MemberExpression") {
({ object: callee, members: rootMembers } =
this.extractMemberExpressionChain(callee));
}
const rootName = getRootName(callee);
if (!rootName) return undefined;
const result = this.getFreeInfoFromVariable(rootName);
if (!result) return undefined;
const { info: rootInfo, name: resolvedRoot } = result;
const calleeName = objectAndMembersToName(resolvedRoot, rootMembers);
return {
type: "call",
call: object,
calleeName,
rootInfo,
getCalleeMembers: memoize(() => rootMembers.reverse()),
name: objectAndMembersToName(`${calleeName}()`, members),
getMembers: memoize(() => members.reverse())
};
}
case "Identifier":
case "MetaProperty":
case "ThisExpression": {
if ((allowedTypes & ALLOWED_MEMBER_TYPES_EXPRESSION) === 0)
return undefined;
const rootName = getRootName(object);
if (!rootName) return undefined;
const result = this.getFreeInfoFromVariable(rootName);
if (!result) return undefined;
const { info: rootInfo, name: resolvedRoot } = result;
return {
type: "expression",
name: objectAndMembersToName(resolvedRoot, members),
rootInfo,
getMembers: memoize(() => members.reverse())
};
}
}
}
/**
* @param {MemberExpressionNode} expression an expression
* @returns {{ name: string, rootInfo: ExportedVariableInfo, getMembers: () => string[]}} name info
*/
getNameForExpression(expression) {
return this.getMemberExpressionInfo(
expression,
ALLOWED_MEMBER_TYPES_EXPRESSION
);
}
/**
* @param {string} code source code
* @param {ParseOptions} options parsing options
* @returns {ProgramNode} parsed ast
*/
static _parse(code, options) {
const type = options ? options.sourceType : "module";
/** @type {AcornOptions} */
const parserOptions = {
...defaultParserOptions,
allowReturnOutsideFunction: type === "script",
...options,
sourceType: type === "auto" ? "module" : type
};
/** @type {AnyNode} */
let ast;
let error;
let threw = false;
try {
ast = /** @type {AnyNode} */ (parser.parse(code, parserOptions));
} catch (e) {
error = e;
threw = true;
}
if (threw && type === "auto") {
parserOptions.sourceType = "script";
if (!("allowReturnOutsideFunction" in options)) {
parserOptions.allowReturnOutsideFunction = true;
}
if (Array.isArray(parserOptions.onComment)) {
parserOptions.onComment.length = 0;
}
try {
ast = /** @type {AnyNode} */ (parser.parse(code, parserOptions));
threw = false;
} catch (e) {
// we use the error from first parse try
// so nothing to do here
}
}
if (threw) {
throw error;
}
return /** @type {ProgramNode} */ (ast);
}
}
module.exports = JavascriptParser;
module.exports.ALLOWED_MEMBER_TYPES_ALL = ALLOWED_MEMBER_TYPES_ALL;
module.exports.ALLOWED_MEMBER_TYPES_EXPRESSION =
ALLOWED_MEMBER_TYPES_EXPRESSION;
module.exports.ALLOWED_MEMBER_TYPES_CALL_EXPRESSION =
ALLOWED_MEMBER_TYPES_CALL_EXPRESSION;