"use strict"; var __importDefault = (this && this.__importDefault) || function (mod) { return (mod && mod.__esModule) ? mod : { "default": mod }; }; Object.defineProperty(exports, "__esModule", { value: true }); exports.generate = exports.compile = void 0; var boolbase_1 = __importDefault(require("boolbase")); /** * Returns a function that checks if an elements index matches the given rule * highly optimized to return the fastest solution. * * @param parsed A tuple [a, b], as returned by `parse`. * @returns A highly optimized function that returns whether an index matches the nth-check. * @example * * ```js * const check = nthCheck.compile([2, 3]); * * check(0); // `false` * check(1); // `false` * check(2); // `true` * check(3); // `false` * check(4); // `true` * check(5); // `false` * check(6); // `true` * ``` */ function compile(parsed) { var a = parsed[0]; // Subtract 1 from `b`, to convert from one- to zero-indexed. var b = parsed[1] - 1; /* * When `b <= 0`, `a * n` won't be lead to any matches for `a < 0`. * Besides, the specification states that no elements are * matched when `a` and `b` are 0. * * `b < 0` here as we subtracted 1 from `b` above. */ if (b < 0 && a <= 0) return boolbase_1.default.falseFunc; // When `a` is in the range -1..1, it matches any element (so only `b` is checked). if (a === -1) return function (index) { return index <= b; }; if (a === 0) return function (index) { return index === b; }; // When `b <= 0` and `a === 1`, they match any element. if (a === 1) return b < 0 ? boolbase_1.default.trueFunc : function (index) { return index >= b; }; /* * Otherwise, modulo can be used to check if there is a match. * * Modulo doesn't care about the sign, so let's use `a`s absolute value. */ var absA = Math.abs(a); // Get `b mod a`, + a if this is negative. var bMod = ((b % absA) + absA) % absA; return a > 1 ? function (index) { return index >= b && index % absA === bMod; } : function (index) { return index <= b && index % absA === bMod; }; } exports.compile = compile; /** * Returns a function that produces a monotonously increasing sequence of indices. * * If the sequence has an end, the returned function will return `null` after * the last index in the sequence. * * @param parsed A tuple [a, b], as returned by `parse`. * @returns A function that produces a sequence of indices. * @example