namespace pxsim { enum AnalogOff { InPin1 = 0, // int16[4] InPin6 = 8, // int16[4] OutPin5 = 16, // int16[4] BatteryTemp = 24, // int16 MotorCurrent = 26, // int16 BatteryCurrent = 28, // int16 Cell123456 = 30, // int16 Pin1 = 32, // int16[300][4] Pin6 = 2432, // int16[300][4] Actual = 4832, // uint16[4] LogIn = 4840, // uint16[4] LogOut = 4848, // uint16[4] NxtCol = 4856, // uint16[36][4] - NxtColor*4 OutPin5Low = 5144, // int16[4] Updated = 5152, // int8[4] InDcm = 5156, // int8[4] InConn = 5160, // int8[4] OutDcm = 5164, // int8[4] OutConn = 5168, // int8[4] Size = 5172 } export class EV3AnalogState { constructor() { let data = new Uint8Array(5172) MMapMethods.register("/dev/lms_analog", { data, beforeMemRead: () => { //console.log("analog before read"); const inputNodes = ev3board().getInputNodes(); for (let port = 0; port < DAL.NUM_INPUTS; port++) { const node = inputNodes[port]; if (node) { data[AnalogOff.InConn + port] = node.isUart() ? DAL.CONN_INPUT_UART : DAL.CONN_INPUT_DUMB; if (node.isAnalog() && node.hasData()) { //data[AnalogOff.InPin6 + 2 * port] = node.getValue(); util.map16Bit(data, AnalogOff.InPin6 + 2 * port, Math.floor(node.getValue())); } } } }, read: buf => { let v = "vSIM" for (let i = 0; i < buf.data.length; ++i) buf.data[i] = v.charCodeAt(i) || 0 console.log("analog read"); console.log(buf.data); return buf.data.length }, write: buf => { console.log("analog write"); console.log(buf); return 2 }, ioctl: (id, buf) => { console.log("analog ioctl"); console.log(id); console.log(buf); return 2; } }) } } }