Augcl
/
employ-front

/** * @fileoverview Rule to flag numbers that will lose significant figure precision at runtime * @author Jacob Moore */
"use strict";
//------------------------------------------------------------------------------
// Rule Definition
//------------------------------------------------------------------------------

/** @type {import('../shared/types').Rule} */module.exports = {    meta: {        type: "problem",
        docs: {            description: "Disallow literal numbers that lose precision",            recommended: true,            url: "https://eslint.org/docs/latest/rules/no-loss-of-precision"        },        schema: [],        messages: {            noLossOfPrecision: "This number literal will lose precision at runtime."        }    },
    create(context) {
        /**         * Returns whether the node is number literal         * @param {Node} node the node literal being evaluated         * @returns {boolean} true if the node is a number literal         */        function isNumber(node) {            return typeof node.value === "number";        }
        /**         * Gets the source code of the given number literal. Removes `_` numeric separators from the result.         * @param {Node} node the number `Literal` node         * @returns {string} raw source code of the literal, without numeric separators         */        function getRaw(node) {            return node.raw.replace(/_/gu, "");        }
        /**         * Checks whether the number is  base ten         * @param {ASTNode} node the node being evaluated         * @returns {boolean} true if the node is in base ten         */        function isBaseTen(node) {            const prefixes = ["0x", "0X", "0b", "0B", "0o", "0O"];
            return prefixes.every(prefix => !node.raw.startsWith(prefix)) &&            !/^0[0-7]+$/u.test(node.raw);        }
        /**         * Checks that the user-intended non-base ten number equals the actual number after is has been converted to the Number type         * @param {Node} node the node being evaluated         * @returns {boolean} true if they do not match         */        function notBaseTenLosesPrecision(node) {            const rawString = getRaw(node).toUpperCase();            let base = 0;
            if (rawString.startsWith("0B")) {                base = 2;            } else if (rawString.startsWith("0X")) {                base = 16;            } else {                base = 8;            }
            return !rawString.endsWith(node.value.toString(base).toUpperCase());        }
        /**         * Adds a decimal point to the numeric string at index 1         * @param {string} stringNumber the numeric string without any decimal point         * @returns {string} the numeric string with a decimal point in the proper place         */        function addDecimalPointToNumber(stringNumber) {            return `${stringNumber[0]}.${stringNumber.slice(1)}`;        }
        /**         * Returns the number stripped of leading zeros         * @param {string} numberAsString the string representation of the number         * @returns {string} the stripped string         */        function removeLeadingZeros(numberAsString) {            for (let i = 0; i < numberAsString.length; i++) {                if (numberAsString[i] !== "0") {                    return numberAsString.slice(i);                }            }            return numberAsString;        }
        /**         * Returns the number stripped of trailing zeros         * @param {string} numberAsString the string representation of the number         * @returns {string} the stripped string         */        function removeTrailingZeros(numberAsString) {            for (let i = numberAsString.length - 1; i >= 0; i--) {                if (numberAsString[i] !== "0") {                    return numberAsString.slice(0, i + 1);                }            }            return numberAsString;        }
        /**         * Converts an integer to an object containing the integer's coefficient and order of magnitude         * @param {string} stringInteger the string representation of the integer being converted         * @returns {Object} the object containing the integer's coefficient and order of magnitude         */        function normalizeInteger(stringInteger) {            const significantDigits = removeTrailingZeros(removeLeadingZeros(stringInteger));
            return {                magnitude: stringInteger.startsWith("0") ? stringInteger.length - 2 : stringInteger.length - 1,                coefficient: addDecimalPointToNumber(significantDigits)            };        }
        /**         *         * Converts a float to an object containing the floats's coefficient and order of magnitude         * @param {string} stringFloat the string representation of the float being converted         * @returns {Object} the object containing the integer's coefficient and order of magnitude         */        function normalizeFloat(stringFloat) {            const trimmedFloat = removeLeadingZeros(stringFloat);
            if (trimmedFloat.startsWith(".")) {                const decimalDigits = trimmedFloat.slice(1);                const significantDigits = removeLeadingZeros(decimalDigits);
                return {                    magnitude: significantDigits.length - decimalDigits.length - 1,                    coefficient: addDecimalPointToNumber(significantDigits)                };
            }            return {                magnitude: trimmedFloat.indexOf(".") - 1,                coefficient: addDecimalPointToNumber(trimmedFloat.replace(".", ""))
            };        }
        /**         * Converts a base ten number to proper scientific notation         * @param {string} stringNumber the string representation of the base ten number to be converted         * @returns {string} the number converted to scientific notation         */        function convertNumberToScientificNotation(stringNumber) {            const splitNumber = stringNumber.replace("E", "e").split("e");            const originalCoefficient = splitNumber[0];            const normalizedNumber = stringNumber.includes(".") ? normalizeFloat(originalCoefficient)                : normalizeInteger(originalCoefficient);            const normalizedCoefficient = normalizedNumber.coefficient;            const magnitude = splitNumber.length > 1 ? (parseInt(splitNumber[1], 10) + normalizedNumber.magnitude)                : normalizedNumber.magnitude;
            return `${normalizedCoefficient}e${magnitude}`;        }
        /**         * Checks that the user-intended base ten number equals the actual number after is has been converted to the Number type         * @param {Node} node the node being evaluated         * @returns {boolean} true if they do not match         */        function baseTenLosesPrecision(node) {            const normalizedRawNumber = convertNumberToScientificNotation(getRaw(node));            const requestedPrecision = normalizedRawNumber.split("e")[0].replace(".", "").length;
            if (requestedPrecision > 100) {                return true;            }            const storedNumber = node.value.toPrecision(requestedPrecision);            const normalizedStoredNumber = convertNumberToScientificNotation(storedNumber);
            return normalizedRawNumber !== normalizedStoredNumber;        }

        /**         * Checks that the user-intended number equals the actual number after is has been converted to the Number type         * @param {Node} node the node being evaluated         * @returns {boolean} true if they do not match         */        function losesPrecision(node) {            return isBaseTen(node) ? baseTenLosesPrecision(node) : notBaseTenLosesPrecision(node);        }

        return {            Literal(node) {                if (node.value && isNumber(node) && losesPrecision(node)) {                    context.report({                        messageId: "noLossOfPrecision",                        node                    });                }            }        };    }};