// Copyright 2018-2020 the Deno authors. All rights reserved. MIT license. import { copyBytes } from "../io/util.ts"; /** Find first index of binary pattern from a. If not found, then return -1 * @param source soruce array * @param pat pattern to find in source array */ export function findIndex(source: Uint8Array, pat: Uint8Array): number { const s = pat[0]; for (let i = 0; i < source.length; i++) { if (source[i] !== s) continue; const pin = i; let matched = 1; let j = i; while (matched < pat.length) { j++; if (source[j] !== pat[j - pin]) { break; } matched++; } if (matched === pat.length) { return pin; } } return -1; } /** Find last index of binary pattern from a. If not found, then return -1. * @param source soruce array * @param pat pattern to find in source array */ export function findLastIndex(source: Uint8Array, pat: Uint8Array): number { const e = pat[pat.length - 1]; for (let i = source.length - 1; i >= 0; i--) { if (source[i] !== e) continue; const pin = i; let matched = 1; let j = i; while (matched < pat.length) { j--; if (source[j] !== pat[pat.length - 1 - (pin - j)]) { break; } matched++; } if (matched === pat.length) { return pin - pat.length + 1; } } return -1; } /** Check whether binary arrays are equal to each other. * @param source first array to check equality * @param match second array to check equality */ export function equal(source: Uint8Array, match: Uint8Array): boolean { if (source.length !== match.length) return false; for (let i = 0; i < match.length; i++) { if (source[i] !== match[i]) return false; } return true; } /** Check whether binary array starts with prefix. * @param source srouce array * @param prefix prefix array to check in source */ export function hasPrefix(source: Uint8Array, prefix: Uint8Array): boolean { for (let i = 0, max = prefix.length; i < max; i++) { if (source[i] !== prefix[i]) return false; } return true; } /** Check whether binary array ends with suffix. * @param source srouce array * @param suffix suffix array to check in source */ export function hasSuffix(source: Uint8Array, suffix: Uint8Array): boolean { for ( let srci = source.length - 1, sfxi = suffix.length - 1; sfxi >= 0; srci--, sfxi-- ) { if (source[srci] !== suffix[sfxi]) return false; } return true; } /** Repeat bytes. returns a new byte slice consisting of `count` copies of `b`. * @param origin The origin bytes * @param count The count you want to repeat. */ export function repeat(origin: Uint8Array, count: number): Uint8Array { if (count === 0) { return new Uint8Array(); } if (count < 0) { throw new Error("bytes: negative repeat count"); } else if ((origin.length * count) / count !== origin.length) { throw new Error("bytes: repeat count causes overflow"); } const int = Math.floor(count); if (int !== count) { throw new Error("bytes: repeat count must be an integer"); } const nb = new Uint8Array(origin.length * count); let bp = copyBytes(origin, nb); for (; bp < nb.length; bp *= 2) { copyBytes(nb.slice(0, bp), nb, bp); } return nb; } /** Concatenate two binary arrays and return new one. * @param origin origin array to concatenate * @param b array to concatenate with origin */ export function concat(origin: Uint8Array, b: Uint8Array): Uint8Array { const output = new Uint8Array(origin.length + b.length); output.set(origin, 0); output.set(b, origin.length); return output; } /** Check srouce array contains pattern array. * @param source srouce array * @param pat patter array */ export function contains(source: Uint8Array, pat: Uint8Array): boolean { return findIndex(source, pat) != -1; }