namespace pxsim { const SERIAL_BUFFER_LENGTH = 16; export class SerialState { serialIn: string[] = []; public receiveData(data: string) { this.serialIn.push(); } readSerial() { let v = this.serialIn.shift() || ""; return v; } serialOutBuffer: string = ""; writeSerial(s: string) { this.serialOutBuffer += s; if (/\n/.test(this.serialOutBuffer) || this.serialOutBuffer.length > SERIAL_BUFFER_LENGTH) { Runtime.postMessage({ type: 'serial', data: this.serialOutBuffer, id: runtime.id, sim: true }) this.serialOutBuffer = ''; } } } } namespace pxsim.control { export function __log(s: string) { board().writeSerial(s + "\r\n"); } } namespace pxsim.serial { export function writeString(s: string) { board().writeSerial(s); } export function writeBuffer(buf: RefBuffer) { // TODO } export function readUntil(del: string): string { return readString(); } export function readString(): string { return board().serialState.readSerial(); } export function onDataReceived(delimiters: string, handler: RefAction) { let b = board(); b.bus.listen(DAL.MICROBIT_ID_SERIAL, DAL.MICROBIT_SERIAL_EVT_DELIM_MATCH, handler); } export function redirect(tx: number, rx: number, rate: number) { // TODO? } export function redirectToUSB() { // TODO } export function setRxBufferSize(size: number) { // TODO } export function setTxBufferSize(size: number) { // TODO } export function readBuffer(length: number) { length |= 0; if (length <= 0) length = 64; return pins.createBuffer(length); } export function setBaudRate(rate: number) { // TODO } }