internet-programming/lab3/node_modules/eslint/lib/rules/no-unused-private-class-members.js

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2023-11-02 02:38:40 +04:00
/**
* @fileoverview Rule to flag declared but unused private class members
* @author Tim van der Lippe
*/
"use strict";
//------------------------------------------------------------------------------
// Rule Definition
//------------------------------------------------------------------------------
/** @type {import('../shared/types').Rule} */
module.exports = {
meta: {
type: "problem",
docs: {
description: "Disallow unused private class members",
recommended: false,
url: "https://eslint.org/docs/latest/rules/no-unused-private-class-members"
},
schema: [],
messages: {
unusedPrivateClassMember: "'{{classMemberName}}' is defined but never used."
}
},
create(context) {
const trackedClasses = [];
/**
* Check whether the current node is in a write only assignment.
* @param {ASTNode} privateIdentifierNode Node referring to a private identifier
* @returns {boolean} Whether the node is in a write only assignment
* @private
*/
function isWriteOnlyAssignment(privateIdentifierNode) {
const parentStatement = privateIdentifierNode.parent.parent;
const isAssignmentExpression = parentStatement.type === "AssignmentExpression";
if (!isAssignmentExpression &&
parentStatement.type !== "ForInStatement" &&
parentStatement.type !== "ForOfStatement" &&
parentStatement.type !== "AssignmentPattern") {
return false;
}
// It is a write-only usage, since we still allow usages on the right for reads
if (parentStatement.left !== privateIdentifierNode.parent) {
return false;
}
// For any other operator (such as '+=') we still consider it a read operation
if (isAssignmentExpression && parentStatement.operator !== "=") {
/*
* However, if the read operation is "discarded" in an empty statement, then
* we consider it write only.
*/
return parentStatement.parent.type === "ExpressionStatement";
}
return true;
}
//--------------------------------------------------------------------------
// Public
//--------------------------------------------------------------------------
return {
// Collect all declared members up front and assume they are all unused
ClassBody(classBodyNode) {
const privateMembers = new Map();
trackedClasses.unshift(privateMembers);
for (const bodyMember of classBodyNode.body) {
if (bodyMember.type === "PropertyDefinition" || bodyMember.type === "MethodDefinition") {
if (bodyMember.key.type === "PrivateIdentifier") {
privateMembers.set(bodyMember.key.name, {
declaredNode: bodyMember,
isAccessor: bodyMember.type === "MethodDefinition" &&
(bodyMember.kind === "set" || bodyMember.kind === "get")
});
}
}
}
},
/*
* Process all usages of the private identifier and remove a member from
* `declaredAndUnusedPrivateMembers` if we deem it used.
*/
PrivateIdentifier(privateIdentifierNode) {
const classBody = trackedClasses.find(classProperties => classProperties.has(privateIdentifierNode.name));
// Can't happen, as it is a parser to have a missing class body, but let's code defensively here.
if (!classBody) {
return;
}
// In case any other usage was already detected, we can short circuit the logic here.
const memberDefinition = classBody.get(privateIdentifierNode.name);
if (memberDefinition.isUsed) {
return;
}
// The definition of the class member itself
if (privateIdentifierNode.parent.type === "PropertyDefinition" ||
privateIdentifierNode.parent.type === "MethodDefinition") {
return;
}
/*
* Any usage of an accessor is considered a read, as the getter/setter can have
* side-effects in its definition.
*/
if (memberDefinition.isAccessor) {
memberDefinition.isUsed = true;
return;
}
// Any assignments to this member, except for assignments that also read
if (isWriteOnlyAssignment(privateIdentifierNode)) {
return;
}
const wrappingExpressionType = privateIdentifierNode.parent.parent.type;
const parentOfWrappingExpressionType = privateIdentifierNode.parent.parent.parent.type;
// A statement which only increments (`this.#x++;`)
if (wrappingExpressionType === "UpdateExpression" &&
parentOfWrappingExpressionType === "ExpressionStatement") {
return;
}
/*
* ({ x: this.#usedInDestructuring } = bar);
*
* But should treat the following as a read:
* ({ [this.#x]: a } = foo);
*/
if (wrappingExpressionType === "Property" &&
parentOfWrappingExpressionType === "ObjectPattern" &&
privateIdentifierNode.parent.parent.value === privateIdentifierNode.parent) {
return;
}
// [...this.#unusedInRestPattern] = bar;
if (wrappingExpressionType === "RestElement") {
return;
}
// [this.#unusedInAssignmentPattern] = bar;
if (wrappingExpressionType === "ArrayPattern") {
return;
}
/*
* We can't delete the memberDefinition, as we need to keep track of which member we are marking as used.
* In the case of nested classes, we only mark the first member we encounter as used. If you were to delete
* the member, then any subsequent usage could incorrectly mark the member of an encapsulating parent class
* as used, which is incorrect.
*/
memberDefinition.isUsed = true;
},
/*
* Post-process the class members and report any remaining members.
* Since private members can only be accessed in the current class context,
* we can safely assume that all usages are within the current class body.
*/
"ClassBody:exit"() {
const unusedPrivateMembers = trackedClasses.shift();
for (const [classMemberName, { declaredNode, isUsed }] of unusedPrivateMembers.entries()) {
if (isUsed) {
continue;
}
context.report({
node: declaredNode,
loc: declaredNode.key.loc,
messageId: "unusedPrivateClassMember",
data: {
classMemberName: `#${classMemberName}`
}
});
}
}
};
}
};