import { memory } from 'js/types'; export function skipGap(track: memory, start: number = 0): number { const end = start + 0x100; // no gap is this big let i = start; while (i < end && track[i] === 0xFF) { i++; } if (i === end) { fail(`found more than 0x100 0xFF bytes after ${start}`); } return i; } export function compareSequences(track: memory, bytes: number[], pos: number): boolean { for (let i = 0; i < bytes.length; i++) { if (track[i + pos] !== bytes[i]) { return false; } } return true; } export function expectSequence(track: memory, pos: number, bytes: number[]): number { if (!compareSequences(track, bytes, pos)) { const track_slice = track.slice(pos, Math.min(track.length, pos + bytes.length)); fail(`expected ${bytes} got ${track_slice}`); } return pos + bytes.length; } export function findBytes(track: memory, bytes: number[], start: number = 0): number { if (start + bytes.length > track.length) { return -1; } for (let i = start; i < track.length; i++) { if (compareSequences(track, bytes, i)) { return i + bytes.length; } } return -1; } /** * Convert an ASCII character string into an array of bytes, with optional * padding. * * @param val ASCII character string * @param pad ASCII character to fill reach padded length * @param padLength padded length * @returns an array of bytes */ export const stringToBytes = (val: string, pad: string = '\0', padLength: number = 0) => { const result = []; let idx = 0; while (idx < val.length) { result.push(val.charCodeAt(idx) & 0x7f); idx++; } while (idx++ < padLength) { result.push(pad.charCodeAt(0) & 0x7f); } return result; }; /** * Convert a number into a little endian array of bytes. * * @param val a number * @param count number of bytes in result * @returns an array of bytes */ export const numberToBytes = (val: number, count: number) => { const result = []; let idx = 0; while (idx < count) { result.push(val & 0xff); val >>= 8; idx++; } return result; };