/** * @fileoverview Rule to replace assignment expressions with operator assignment * @author Brandon Mills */ "use strict"; //------------------------------------------------------------------------------ // Requirements //------------------------------------------------------------------------------ const astUtils = require("../ast-utils"); //------------------------------------------------------------------------------ // Helpers //------------------------------------------------------------------------------ /** * Checks whether an operator is commutative and has an operator assignment * shorthand form. * @param {string} operator Operator to check. * @returns {boolean} True if the operator is commutative and has a * shorthand form. */ function isCommutativeOperatorWithShorthand(operator) { return ["*", "&", "^", "|"].indexOf(operator) >= 0; } /** * Checks whether an operator is not commuatative and has an operator assignment * shorthand form. * @param {string} operator Operator to check. * @returns {boolean} True if the operator is not commuatative and has * a shorthand form. */ function isNonCommutativeOperatorWithShorthand(operator) { return ["+", "-", "/", "%", "<<", ">>", ">>>", "**"].indexOf(operator) >= 0; } //------------------------------------------------------------------------------ // Rule Definition //------------------------------------------------------------------------------ /** * Checks whether two expressions reference the same value. For example: * a = a * a.b = a.b * a[0] = a[0] * a['b'] = a['b'] * @param {ASTNode} a Left side of the comparison. * @param {ASTNode} b Right side of the comparison. * @returns {boolean} True if both sides match and reference the same value. */ function same(a, b) { if (a.type !== b.type) { return false; } switch (a.type) { case "Identifier": return a.name === b.name; case "Literal": return a.value === b.value; case "MemberExpression": /* * x[0] = x[0] * x[y] = x[y] * x.y = x.y */ return same(a.object, b.object) && same(a.property, b.property); default: return false; } } /** * Determines if the left side of a node can be safely fixed (i.e. if it activates the same getters/setters and) * toString calls regardless of whether assignment shorthand is used) * @param {ASTNode} node The node on the left side of the expression * @returns {boolean} `true` if the node can be fixed */ function canBeFixed(node) { return node.type === "Identifier" || node.type === "MemberExpression" && node.object.type === "Identifier" && (!node.computed || node.property.type === "Literal"); } module.exports = { meta: { docs: { description: "require or disallow assignment operator shorthand where possible", category: "Stylistic Issues", recommended: false, url: "https://eslint.org/docs/rules/operator-assignment" }, schema: [ { enum: ["always", "never"] } ], fixable: "code" }, create(context) { const sourceCode = context.getSourceCode(); /** * Returns the operator token of an AssignmentExpression or BinaryExpression * @param {ASTNode} node An AssignmentExpression or BinaryExpression node * @returns {Token} The operator token in the node */ function getOperatorToken(node) { return sourceCode.getFirstTokenBetween(node.left, node.right, token => token.value === node.operator); } /** * Ensures that an assignment uses the shorthand form where possible. * @param {ASTNode} node An AssignmentExpression node. * @returns {void} */ function verify(node) { if (node.operator !== "=" || node.right.type !== "BinaryExpression") { return; } const left = node.left; const expr = node.right; const operator = expr.operator; if (isCommutativeOperatorWithShorthand(operator) || isNonCommutativeOperatorWithShorthand(operator)) { if (same(left, expr.left)) { context.report({ node, message: "Assignment can be replaced with operator assignment.", fix(fixer) { if (canBeFixed(left)) { const equalsToken = getOperatorToken(node); const operatorToken = getOperatorToken(expr); const leftText = sourceCode.getText().slice(node.range[0], equalsToken.range[0]); const rightText = sourceCode.getText().slice(operatorToken.range[1], node.right.range[1]); return fixer.replaceText(node, `${leftText}${expr.operator}=${rightText}`); } return null; } }); } else if (same(left, expr.right) && isCommutativeOperatorWithShorthand(operator)) { /* * This case can't be fixed safely. * If `a` and `b` both have custom valueOf() behavior, then fixing `a = b * a` to `a *= b` would * change the execution order of the valueOf() functions. */ context.report({ node, message: "Assignment can be replaced with operator assignment." }); } } } /** * Warns if an assignment expression uses operator assignment shorthand. * @param {ASTNode} node An AssignmentExpression node. * @returns {void} */ function prohibit(node) { if (node.operator !== "=") { context.report({ node, message: "Unexpected operator assignment shorthand.", fix(fixer) { if (canBeFixed(node.left)) { const operatorToken = getOperatorToken(node); const leftText = sourceCode.getText().slice(node.range[0], operatorToken.range[0]); const newOperator = node.operator.slice(0, -1); let rightText; // If this change would modify precedence (e.g. `foo *= bar + 1` => `foo = foo * (bar + 1)`), parenthesize the right side. if ( astUtils.getPrecedence(node.right) <= astUtils.getPrecedence({ type: "BinaryExpression", operator: newOperator }) && !astUtils.isParenthesised(sourceCode, node.right) ) { rightText = `${sourceCode.text.slice(operatorToken.range[1], node.right.range[0])}(${sourceCode.getText(node.right)})`; } else { rightText = sourceCode.text.slice(operatorToken.range[1], node.range[1]); } return fixer.replaceText(node, `${leftText}= ${leftText}${newOperator}${rightText}`); } return null; } }); } } return { AssignmentExpression: context.options[0] !== "never" ? verify : prohibit }; } };