/// namespace pxsim { export class DalBoard extends CoreBoard { // state & update logic for component services ledMatrixState: LedMatrixState; edgeConnectorState: EdgeConnectorState; serialState: SerialState; accelerometerState: AccelerometerState; compassState: CompassState; thermometerState: ThermometerState; lightSensorState: LightSensorState; buttonPairState: ButtonPairState; radioState: RadioState; // TODO: not singletons neopixelState: NeoPixelState; rgbLedState: number; speakerState: SpeakerState; fileSystem: FileSystemState; // visual viewHost: visuals.BoardHost; view: SVGElement; constructor() { super() // components this.fileSystem = new FileSystemState(); this.builtinParts["ledmatrix"] = this.ledMatrixState = new LedMatrixState(runtime); this.builtinParts["buttonpair"] = this.buttonPairState = new ButtonPairState({ ID_BUTTON_A: DAL.MICROBIT_ID_BUTTON_A, ID_BUTTON_B: DAL.MICROBIT_ID_BUTTON_B, ID_BUTTON_AB: DAL.MICROBIT_ID_BUTTON_AB, BUTTON_EVT_UP: DAL.MICROBIT_BUTTON_EVT_UP, BUTTON_EVT_CLICK: DAL.MICROBIT_BUTTON_EVT_CLICK }); this.builtinParts["edgeconnector"] = this.edgeConnectorState = new EdgeConnectorState({ pins: [ DAL.MICROBIT_ID_IO_P0, DAL.MICROBIT_ID_IO_P1, DAL.MICROBIT_ID_IO_P2, DAL.MICROBIT_ID_IO_P3, DAL.MICROBIT_ID_IO_P4, DAL.MICROBIT_ID_IO_P5, DAL.MICROBIT_ID_IO_P6, DAL.MICROBIT_ID_IO_P7, DAL.MICROBIT_ID_IO_P8, DAL.MICROBIT_ID_IO_P9, DAL.MICROBIT_ID_IO_P10, DAL.MICROBIT_ID_IO_P11, DAL.MICROBIT_ID_IO_P12, DAL.MICROBIT_ID_IO_P13, DAL.MICROBIT_ID_IO_P14, DAL.MICROBIT_ID_IO_P15, DAL.MICROBIT_ID_IO_P16, 0, 0, DAL.MICROBIT_ID_IO_P19, DAL.MICROBIT_ID_IO_P20, DAL.MICROBIT_ID_IO_P21 ], servos: { "P0": DAL.MICROBIT_ID_IO_P12, "P1": DAL.MICROBIT_ID_IO_P0, "P2": DAL.MICROBIT_ID_IO_P1, "P3": DAL.MICROBIT_ID_IO_P16 } }); this.builtinParts["radio"] = this.radioState = new RadioState(runtime); this.builtinParts["accelerometer"] = this.accelerometerState = new AccelerometerState(runtime); this.builtinParts["serial"] = this.serialState = new SerialState(); this.builtinParts["thermometer"] = this.thermometerState = new ThermometerState(); this.builtinParts["lightsensor"] = this.lightSensorState = new LightSensorState(); this.builtinParts["compass"] = this.compassState = new CompassState(); this.builtinParts["neopixel"] = this.neopixelState = new NeoPixelState(); this.builtinParts["speaker"] = this.speakerState = new SpeakerState(); this.builtinParts["microservo"] = this.edgeConnectorState; this.builtinVisuals["buttonpair"] = () => new visuals.ButtonPairView(); this.builtinVisuals["ledmatrix"] = () => new visuals.LedMatrixView(); this.builtinVisuals["neopixel"] = () => new visuals.NeoPixelView(); this.builtinVisuals["microservo"] = () => new visuals.MicroServoView(); this.builtinPartVisuals["buttonpair"] = (xy: visuals.Coord) => visuals.mkBtnSvg(xy); this.builtinPartVisuals["ledmatrix"] = (xy: visuals.Coord) => visuals.mkLedMatrixSvg(xy, 8, 8); this.builtinPartVisuals["neopixel"] = (xy: visuals.Coord) => visuals.mkNeoPixelPart(xy); this.builtinPartVisuals["microservo"] = (xy: visuals.Coord) => visuals.mkMicroServoPart(xy); } receiveMessage(msg: SimulatorMessage) { if (!runtime || runtime.dead) return; switch (msg.type || "") { case "eventbus": const ev = msg; this.bus.queue(ev.id, ev.eventid, ev.value); break; case "serial": const data = (msg).data || ""; this.serialState.receiveData(data); break; case "radiopacket": const packet = msg; this.radioState.receivePacket(packet); break; } } initAsync(msg: SimulatorRunMessage): Promise { super.initAsync(msg); const options = (msg.options || {}) as RuntimeOptions; const boardDef = msg.boardDefinition; const cmpsList = msg.parts; const cmpDefs = msg.partDefinitions || {}; const fnArgs = msg.fnArgs; const opts: visuals.BoardHostOpts = { state: this, boardDef: boardDef, partsList: cmpsList, partDefs: cmpDefs, fnArgs: fnArgs, maxWidth: "100%", maxHeight: "100%", highContrast: msg.highContrast }; this.viewHost = new visuals.BoardHost(pxsim.visuals.mkBoardView({ visual: boardDef.visual, boardDef: boardDef, highContrast: msg.highContrast }), opts); document.body.innerHTML = ""; // clear children document.body.appendChild(this.view = this.viewHost.getView()); return Promise.resolve(); } screenshotAsync(width?: number): Promise { return this.viewHost.screenshotAsync(width); } } export function initRuntimeWithDalBoard() { U.assert(!runtime.board); let b = new DalBoard(); runtime.board = b; runtime.postError = (e) => { led.setBrightness(255); let img = board().ledMatrixState.image; img.clear(); img.set(0, 4, 255); img.set(1, 3, 255); img.set(2, 3, 255); img.set(3, 3, 255); img.set(4, 4, 255); img.set(0, 0, 255); img.set(1, 0, 255); img.set(0, 1, 255); img.set(1, 1, 255); img.set(3, 0, 255); img.set(4, 0, 255); img.set(3, 1, 255); img.set(4, 1, 255); runtime.updateDisplay(); } } if (!pxsim.initCurrentRuntime) { pxsim.initCurrentRuntime = initRuntimeWithDalBoard; } export function board() { return runtime.board as DalBoard; } }