mcopy/src/mscript/index.ts

1029 lines
25 KiB
TypeScript
Raw Normal View History

'use strict';
/** @module lib/mscript */
interface RGB extends Array<number>{
[index : number] : number;
}
const BLACK : string = '0,0,0';
const WHITE : string = '255,255,255';
const CMD : string[] = [
'CF',
'PF',
'BF',
'CB',
'PB',
'BB',
'C2F',
'C2B',
'CCF',
'CCB',
'P2F',
'P2B',
'PPF',
'PPB',
'CFCB',
'CBCF',
'PFPB',
'PBPF'
];
const CAMERA_SECONDARY : string[] = [
'C2F',
'C2B',
'CCF',
'CCB',
'CFCB',
'CBCF'
];
const PROJECTOR_SECONDARY : string[] = [
'P2F',
'P2B',
'PPF',
'PPB',
'PFPB',
'PBPF'
];
const ALTS : any = {
'CF' : ['CAMERA FORWARD', 'CAM FORWARD'],
'PF' : ['PROJECTOR FORWARD', 'PROJ FORWARD'],
'BF' : ['BLACK FORWARD', 'BLACK', 'BLANK FORWARD', 'BLANK'],
'CB' : ['CAMERA BACKWARD', 'CAM BACKWARD', 'CAMERA BACK', 'CAM BACK'],
'PB' : ['PROJECTOR FORWARD', 'PROJ FORWARD', 'PROJECTOR BACK', 'PROJ BACK'],
'BB' : ['BLACK BACKWARD', 'BLACK BACK', 'BLANK BACK'],
'L ' : ['LIGHT', 'COLOR', 'LAMP'],
'F ' : ['FADE'],
'C2F' : ['CAMERA2 FORWARD', 'CAM2 FORWARD'],
'C2B' : ['CAMERA2 BACKWARD', 'CAM2 BACKWARD', 'CAMERA2 BACK', 'CAM2 BACK'],
'CCF' : ['CAMERAS FORWARD', 'CAMS FORWARD'],
'CCB' : ['CAMERAS BACKWARD', 'CAMS BACKWARD', 'CAMERAS BACK', 'CAMS BACK'],
'P2F' : ['PROJECTOR2 FORWARD', 'PROJ2 FORWARD'],
'P2B' : ['PROJECTOR2 BACKWARD', 'PROJ2 BACKWARD', 'PROJECTOR2 BACK', 'PROJ2 BACK'],
'PPF' : ['PROJECTORS FORWARD', 'PROJS FORWARD'],
'PPB' : ['PROJECTORS BACKWARD', 'PROJS BACKWARD', 'PROJECTORS BACK', 'PROJS BACK'],
'CFCB' : [ ],
'CBCF' : [ ],
'PFPB' : [ ],
'PBPF' : [ ]
};
const DELAY : string = 'DELAY';
const PAUSE : string = 'PAUSE';
const ALERT : string = 'ALERT';
/** helper functions */
/** startswith function from lodash, do not want the entire lib for this
* @param str {string} Text to evaluate
* @param target {string} Text to compare string against
* @param position {integer} Position in the string to make comparison at
*
* @returns {boolean} True for match, false for no match
**/
function startsWith (str : string, target : string, position? : number) : boolean {
const { length } = str;
position = position == null ? 0 : position;
if (position < 0) {
position = 0;
} else if (position > length) {
position = length;
}
target = `${target}`;
return str.slice(position, position + target.length) == target;
}
/** class Mscript */
export default class Mscript {
output : any;
lines : string[];
cam : number;
cam2 : number;
proj : number;
proj2 : number;
color : string;
loops : any[];
rec : number;
two : string;
three : string;
four : string;
arr : any[];
meta : string[];
target : number;
dist : number;
variables : any;
/**
* @constructor
* Create new Mscript interpreter
**/
constructor () {
this.output = {};
}
/**
* Clear the state of the script
*/
clear () {
this.lines = [];
this.cam = 0;
this.cam2 = 0;
this.proj = 0;
this.proj2 = 0;
this.color = '';
this.loops = [];
this.rec = -1;
this.two = '';
this.three = '';
this.four = '';
this.arr = [];
this.meta = [];
this.target = 0; //move to target using CAM # or PROJ #
this.dist = 0;
this.variables = {};
this.output = {};
}
/**
* Main function, accepts multi-line string, parses into lines
* and interprets the instructions from the text. Returns an array
* of steps to be fed into the mcopy sequence.
*
* @param {string} text Mscript text to interpret
* @param {function} callback Function to call when string is interpreted
*
* @returns {object} if callback is not provided
*/
interpret (text : string, callback : Function = null) {
this.clear()
if (typeof text === 'undefined') {
return this.fail('No input');
}
//split string into lines, each containing a command
this.lines = text.split('\n');
this.lines = this.lines.map(line => {
line = line.replace(/\t+/g, ''); //strip tabs
line = line.trim(); //remove excess whitespace before and after command
line = line.toUpperCase();
return line;
})
for (let line of this.lines) {
this.two = line.substring(0, 2);
this.three = line.substring(0, 3);
this.four = line.substring(0, 4);
if (CMD.indexOf(this.four) !== -1) {
this.basic_cmd(line, this.four);
} else if (CMD.indexOf(this.three) !== -1) {
this.basic_cmd(line, this.three);
} else if (CMD.indexOf(this.two) !== -1) {
this.basic_cmd(line, this.two);
} else if (startsWith(line, DELAY)) {
this.delay(line);
} else if (startsWith(line, PAUSE)) {
this.pause(line);
} else if (startsWith(line, ALERT)) {
this.alert(line);
} else if (startsWith(line, '@') || line.indexOf('@') !== -1) {
this.variable(line);
} else if (startsWith(line, 'LOOP')) {
this.new_loop(line);
} else if (startsWith(line, 'L ')) {
this.light_state(line);
} else if (startsWith(line, 'F ')) {
this.new_loop(line, true);
} else if (startsWith(line, 'END')) {
this.end_loop(line);
} else if (startsWith(line, 'CAM2')) { //directly go to that frame
this.move_cam2(line);
} else if (startsWith(line, 'CAM')) { //directly go to that frame
this.move_cam(line);
} else if (startsWith(line, 'PROJ2')) { //directly go to that frame
this.move_proj2(line);
} else if (startsWith(line, 'PROJ')) { //directly go to that frame
this.move_proj(line);
} else if (startsWith(line, 'SET')) { //set that state
this.set_state(line);
} else if (startsWith(line, '#') || startsWith(line, '//')) {
//comments
//ignore while parsing
}
}
this.output.success = true;
this.output.arr = this.arr; //all instructions
this.output.meta = this.meta; //all metadata for instructions
this.output.cam = this.cam;
this.output.proj = this.proj;
if (this.contains(this.arr, CAMERA_SECONDARY)) {
this.output.cam2 = this.cam2;
}
if (this.contains(this.arr, PROJECTOR_SECONDARY)) {
this.output.proj2 = this.proj2;
}
if (typeof callback !== 'undefined' && callback != null) {
//should only be invoked by running mscript.tests()
callback(this.output);
} else {
return this.output;
}
}
/**
* Interprets variables for complex sequence behavior.
* TODO: Fully implement, add test coverage
*
* @param {string} line Line containing a variable assignment
*
**/
variable (line : string) {
let parts : string[] = line.split('=');
let key : string = parts[0];
let value : any = parts[1];
let update : boolean = false;
if (value && value.indexOf('#') !== -1) {
value = value.split('#')[0];
}
if (value && value.indexOf('//') !== -1) {
value = value.split('//')[0];
}
if (value && value.indexOf('+') !== -1) {
if (value)
update = true;
}
if (line.indexOf('-') !== -1) {
update = true;
}
if (line.indexOf(',') === -1) { //if not color string
try {
value = parseInt(value);
} catch (err) {
//supress parsing error
}
}
//console.dir(parts)
if (!this.variables[key] || update) {
this.variables[key] = value;
}
//console.dir(this.variables)
}
/**
* Replace variable with value at time of interpretation
* TODO: Implement this please
*
* @param {string} line Line containing variable to be replaced with value
*
* @returns {string} New string to be interpreted
**/
variable_replace(line : string) : string {
return line;
}
/**
* Interpret a basic two character command
*
* @param {string} line Line of script to interpret
* @param {string} short The short command to use
*/
basic_cmd (line : string, short : string) {
if (this.rec !== -1) {
//hold generated arr in state loop array
this.loops[this.rec].arr
.push.apply(this.loops[this.rec].arr,
this.str_to_arr(line,
short));
this.loops[this.rec].meta
.push.apply(this.loops[this.rec].meta,
this.light_to_arr(line,
short));
} else {
this.arr.push.apply(this.arr, this.str_to_arr(line, short));
this.meta.push.apply(this.meta, this.light_to_arr(line, short));
}
}
/**
* Start a new loop
*
* @param {string} line Line to evaluate as either loop or fade
* @param {boolean} fade Flag as true if fade
*/
new_loop (line : string, fade? : boolean) {
this.rec++;
this.loops[this.rec] = {
arr : [],
meta : [],
cam : 0,
proj : 0,
cam2 : 0,
proj2 : 0,
cmd : line + ''
};
if (fade) {
this.fade(line);
}
}
/**
* Close the most recent loop
*
* @param {string} line Line to interpret
*/
end_loop (line : string) {
let meta_arr : string[];
let start : RGB;
let end : RGB;
let len : number;
for (let x = 0; x < this.loop_count(this.loops[this.rec].cmd); x++) {
meta_arr = this.loops[this.rec].meta;
if (this.loops[this.rec].fade) {
start = this.loops[this.rec].start;
end = this.loops[this.rec].end;
len = this.loops[this.rec].fade_len;
meta_arr = meta_arr.map(l => {
return this.fade_rgb(start, end, len, x);
})
}
if (this.rec === 0) {
this.arr.push.apply(this.arr, this.loops[this.rec].arr);
this.meta.push.apply(this.meta, meta_arr);
} else if (this.rec >= 1) {
this.loops[this.rec - 1].arr
.push.apply(this.loops[this.rec - 1].arr,
this.loops[this.rec].arr);
this.loops[this.rec - 1].meta
.push.apply(this.loops[this.rec - 1].meta,
meta_arr);
}
}
this.update('END', this.loop_count(this.loops[this.rec].cmd));
delete this.loops[this.rec];
this.rec--;
}
/**
* Move camera to explicitly-defined frame
*
* @param {string} line Line to interpret with camera move statement
*/
move_cam (line : string) {
this.target = parseInt(line.split('CAM ')[1]);
if (this.rec !== -1) {
if (this.target > this.cam) {
this.dist = this.target - this.cam;
for (let x = 0; x < this.dist; x++) {
this.loops[this.rec].arr.push('BF');
this.loops[this.rec].meta.push(BLACK);
this.update('BF');
}
} else {
this.dist = this.cam - this.target;
for (let x = 0; x < this.dist; x++) {
this.loops[this.rec].arr.push('BB');
this.loops[this.rec].meta.push(BLACK);
this.update('BB');
}
}
} else {
if (this.target > this.cam) {
this.dist = this.target - this.cam;
for (let x = 0; x < this.dist; x++) {
this.arr.push('BF');
this.meta.push(BLACK);
this.update('BF');
}
} else {
this.dist = this.cam - this.target;
for (let x = 0; x < this.dist; x++) {
this.arr.push('BB');
this.meta.push(BLACK);
this.update('BB');
}
}
}
}
/**
* Move secondary camera to explicitly-defined frame
*
* @param {string} line Line to interpret with camera move statement
*/
move_cam2 (line : string) {
this.target = parseInt(line.split('CAM2 ')[1]);
if (this.rec !== -1) {
if (this.target > this.cam2) {
this.dist = this.target - this.cam2;
for (let x = 0; x < this.dist; x++) {
this.loops[this.rec].arr.push('C2F');
this.loops[this.rec].meta.push(BLACK);
this.update('C2F');
}
} else {
this.dist = this.cam2 - this.target;
for (let x = 0; x < this.dist; x++) {
this.loops[this.rec].arr.push('C2B');
this.loops[this.rec].meta.push(BLACK);
this.update('C2B');
}
}
} else {
if (this.target > this.cam2) {
this.dist = this.target - this.cam2;
for (let x = 0; x < this.dist; x++) {
this.arr.push('C2F');
this.meta.push(BLACK);
this.update('C2F');
}
} else {
this.dist = this.cam2 - this.target;
for (let x = 0; x < this.dist; x++) {
this.arr.push('C2B');
this.meta.push(BLACK);
this.update('C2B');
}
}
}
}
/**
* Move projector to explicitly-defined frame
*
* @param {string} line Line containing `move` statement to interpret
*/
move_proj (line : string) {
this.target = parseInt(line.split('PROJ ')[1]);
if (this.rec !== -1) {
if (this.target > this.proj) {
this.dist = this.target - this.proj;
for (let x = 0; x < this.dist; x++) {
this.loops[this.rec].arr.push('PF');
this.loops[this.rec].meta.push('');
this.update('PF');
}
} else {
this.dist = this.proj - this.target;
for (let x = 0; x < this.dist; x++) {
this.loops[this.rec].arr.push('PB');
this.loops[this.rec].meta.push('');
this.update('PB');
}
}
} else {
if (this.target > this.proj) {
this.dist = this.target - this.proj;
for (let x = 0; x < this.dist; x++) {
this.arr.push('PF');
this.meta.push('');
this.update('PF');
}
} else {
this.dist = this.proj - this.target;
for (let x = 0; x < this.dist; x++) {
this.arr.push('PB');
this.meta.push('');
this.update('PB');
}
}
}
}
/**
* Move projector to explicitly-defined frame
*
* @param {string} line Line containing `move` statement to interpret
*/
move_proj2 (line : string) {
this.target = parseInt(line.split('PROJ2 ')[1]);
if (this.rec !== -1) {
if (this.target > this.proj2) {
this.dist = this.target - this.proj2;
for (let x = 0; x < this.dist; x++) {
this.loops[this.rec].arr.push('P2F');
this.loops[this.rec].meta.push('');
this.update('P2F');
}
} else {
this.dist = this.proj2 - this.target;
for (let x = 0; x < this.dist; x++) {
this.loops[this.rec].arr.push('P2B');
this.loops[this.rec].meta.push('');
this.update('P2B');
}
}
} else {
if (this.target > this.proj2) {
this.dist = this.target - this.proj2;
for (let x = 0; x < this.dist; x++) {
this.arr.push('P2F');
this.meta.push('');
this.update('P2F');
}
} else {
this.dist = this.proj2 - this.target;
for (let x = 0; x < this.dist; x++) {
this.arr.push('P2B');
this.meta.push('');
this.update('P2B');
}
}
}
}
/**
* Set the state of either the cam or projector
*
* @param line {string} String containing set statement
*/
set_state (line : string) {
if (startsWith(line, 'SET CAM2')) {
parseInt(line.split('SET CAM2')[1]);
} else if (startsWith(line, 'SET PROJ2')) {
this.cam2 = parseInt(line.split('SET PROJ2')[1]);
} else if (startsWith(line, 'SET CAM')) {
this.cam = parseInt(line.split('SET CAM')[1]);
} else if (startsWith(line, 'SET PROJ')) {
this.proj = parseInt(line.split('SET PROJ')[1]);
}
}
/**
* Return the last loop
*
* @returns {object}
*/
last_loop () : any {
return this.loops[this.loops.length - 1];
}
/**
* Return the second-last loop
*
* @returns {object} Loop array
*/
parent_loop () : any {
return this.loops[this.loops.length - 2];
}
/**
* Extract the loop count integer from a LOOP cmd
*
* @returns {integer} Loop count in string parsed into integer
*/
loop_count (str : string) : number {
return parseInt(str.split(' ')[1]);
}
/**
* Execute a fade of frame length, from color to another color
*
* @param {string} line Line containing a fade initiator
*/
fade (line : string) {
let len = this.fade_count(line);
let start = this.fade_start(line);
let end = this.fade_end(line);
this.loops[this.rec].start = start;
this.loops[this.rec].end = end;
this.loops[this.rec].fade = true;
this.loops[this.rec].fade_count = 0;
this.loops[this.rec].fade_len = len;
}
/**
* Extract the fade length integer from a FADE cmd
*
* @param {string} str Line containing the length of fade in frames
*/
fade_count (str : string) {
return parseInt(str.split(' ')[1]);
}
/**
* Extract the start color from a string
*
* @param {string} str Line containing the start color value in a fade initiator
*
* @returns {array} Array containing RGB color values
*/
fade_start (str : string) : RGB {
let color : string = str.split(' ')[2];
return this.rgb(color.trim())
}
/**
* Extract the end color from a string
*
* @param {string} str Line containing the end color value in a fade initiator
*
* @returns {array} Array containing RGB color values
*/
fade_end (str : string) : RGB {
let color : string = str.split(' ')[3];
return this.rgb(color.trim())
}
/**
* Determine the state of a fade at a particular frame in the sequence, x
*
* @param {array} start Color the fade starts at
* @param {array} end Color the fade finishes at
* @param {integer} len Total length of the fade in frames
* @param {integer} x Position of the fade to get color value of
*
* @returns {array} Array containing RGB color values
*/
fade_rgb (start : RGB, end : RGB, len : number, x : number) {
let cur = [];
let diff;
for (let i : number = 0; i < 3; i++) {
if (x === len - 1) {
cur[i] = end[i];
} else if (start[i] >= end[i]) {
diff = start[i] - end[i];
cur[i] = start[i] - Math.round((diff / (len - 1)) * x);
} else {
diff = end[i] - start[i];
cur[i] = start[i] + Math.round((diff / (len - 1)) * x);
}
}
return this.rgb_str(cur);
}
/**
* Parse string into array of RGB color values. 0-255 octet.
*
* @param {string} str String containing only color values as `#,#,#`
**/
rgb (str : string) : RGB {
let rgb = str.split(',');
return rgb.map( (char : string) => {
return parseInt(char);
})
}
/**
* Cast RGB color values as string
*
* @param {array} arr Array to join into string
*
* @returns {string} String of RGB values
**/
rgb_str (arr : RGB) : string {
return arr.join(',');
}
/**
* Increase the state of a specific object, such as the camera/projector,
* by the value defined in val.
*
* @param {string} cmd String representing command to interpret and update state
*/
update (cmd : string, val : number = 1) {
if (cmd === 'END') {
//I don't understand this loop
for (let i = 0; i < val; i++) {
if (this.rec === 0) {
this.cam += this.loops[this.rec].cam;
this.proj += this.loops[this.rec].proj;
} else if (this.rec >= 1) {
this.loops[this.rec - 1].cam += this.loops[this.rec].cam;
this.loops[this.rec - 1].proj += this.loops[this.rec].proj;
}
}
} else if (cmd === 'CF') {
if (this.rec === -1) {
this.cam += val;
} else {
this.loops[this.rec].cam += val;
}
} else if (cmd === 'CB') {
if (this.rec === -1) {
this.cam -= val;
} else {
this.loops[this.rec].cam -= val;
}
} else if (cmd === 'PF') {
if (this.rec === -1) {
this.proj += val;
} else {
this.loops[this.rec].proj += val;
}
} else if (cmd === 'PB') {
if (this.rec === -1) {
this.proj -= val;
} else {
this.loops[this.rec].proj -= val;
}
} else if (cmd === 'BF') {
if (this.rec === -1) {
this.cam += val;
} else {
this.loops[this.rec].cam += val;
}
} else if (cmd === 'BB') {
if (this.rec === -1) {
this.cam -= val;
} else {
this.loops[this.rec].cam -= val;
}
} else if (cmd === 'C2F') {
if (this.rec === -1) {
this.cam2 += val;
} else {
this.loops[this.rec].cam2 += val;
}
} else if (cmd === 'C2B') {
if (this.rec === -1) {
this.cam2 -= val;
} else {
this.loops[this.rec].cam2 -= val;
}
} else if (cmd === 'CCF') {
if (this.rec === -1) {
this.cam += val;
this.cam2 += val;
} else {
this.loops[this.rec].cam2 += val;
this.loops[this.rec].cam2 += val;
}
} else if (cmd === 'CCB') {
if (this.rec === -1) {
this.cam -= val;
this.cam2 -= val;
} else {
this.loops[this.rec].cam2 -= val;
this.loops[this.rec].cam2 -= val;
}
} else if (cmd === 'P2F') {
if (this.rec === -1) {
this.proj2 += val;
} else {
this.loops[this.rec].proj2 += val;
}
} else if (cmd === 'P2B') {
if (this.rec === -1) {
this.proj2 -= val;
} else {
this.loops[this.rec].proj2 -= val;
}
} else if (cmd === 'PPF') {
if (this.rec === -1) {
this.proj += val;
this.proj2 += val;
} else {
this.loops[this.rec].proj += val
this.loops[this.rec].proj2 += val;
}
} else if (cmd === 'PPB') {
if (this.rec === -1) {
this.proj -= val;
this.proj2 -= val;
} else {
this.loops[this.rec].proj -= val
this.loops[this.rec].proj2 -= val;
}
} else if (cmd === 'CFCB') {
if (this.rec === -1) {
this.cam += val;
this.cam2 -= val;
} else {
this.loops[this.rec].cam += val;
this.loops[this.rec].cam2 -= val;
}
} else if (cmd === 'CBCF') {
if (this.rec === -1) {
this.cam -= val;
this.cam2 += val;
} else {
this.loops[this.rec].cam -= val;
this.loops[this.rec].cam2 += val;
}
} else if (cmd === 'PFPB') {
if (this.rec === -1) {
this.proj += val;
this.proj2 -= val;
} else {
this.loops[this.rec].proj += val;
this.loops[this.rec].proj2 -= val;
}
} else if (cmd === 'PBPF') {
if (this.rec === -1) {
this.proj -= val;
this.proj2 += val;
} else {
this.loops[this.rec].proj -= val;
this.loops[this.rec].proj2 += val;
}
} else if (cmd === 'L ') {
}
}
/**
* Split string on command, turn into array of commands
* as long as count variable. Default 1.
*
* @param {string} str String to split
* @param {string} cmd String representing command to split at
*
* @returns {array} Array containing commands
*/
str_to_arr (str : string, cmd : string) : string[] {
const cnt : string[] = str.split(cmd);
let c : number = parseInt(cnt[1]);
let arr : any[] = [];
if (cnt[1] === '') {
c = 1;
} else {
c = parseInt(cnt[1]);
}
arr = new Array(c).fill(cmd);
this.update(cmd, c);
return arr;
}
/**
* Split a string on a command to extract data for light array
*
* @param {string} str String containing light command
* @param {string} cmd String representing command
*
* @returns {array} An RGB array containing the color values
*/
light_to_arr (str : string, cmd : string) : RGB {
const cnt : string[] = str.split(cmd);
let c : number = parseInt(cnt[1]);
let arr : any[] = [];
if (cnt[1] === '') {
c = 1;
} else {
c = parseInt(cnt[1]);
}
for (let i : number = 0; i < c; i++) {
if (cmd === 'CF'
|| cmd === 'CB') {
arr.push(this.color);
} else if (cmd === 'BF'
|| cmd === 'BB') {
arr.push(BLACK);
} else {
arr.push('');
}
}
return arr;
}
/**
* Split a string to extract an rgb color value
*
* @param {string} Color string assign to color property
*/
light_state (str : string) {
//add parsers for other color spaces
const color : string = str.replace('L ', '').trim();
this.color = color;
}
/**
* Interpret a delay command
*
* @param {string} line String containing delay command
**/
delay (line : string) {
let lenStr : string = line.split(' ')[1] || ''
let len : number;
lenStr = lenStr.trim();
try {
len = parseInt(lenStr, 10); //clean up string or fail
} catch (err) {
len = 0;
}
if (isNaN(len)) {
len = 0;
}
lenStr = String(len);
if (this.rec !== -1) {
//hold generated arr in state loop array
this.loops[this.rec].arr
.push('DE');
this.loops[this.rec].meta
.push(lenStr);
} else {
this.arr.push('DE');
this.meta.push(lenStr);
}
}
/**
* Interpret an alert command
*
* @param {string} line String containing alert message
**/
alert (line : string) {
let msg : string = line.split(' ')[1] || ''
msg = msg.trim();
if (this.rec !== -1) {
//hold generated arr in state loop array
this.loops[this.rec].arr
.push('AL');
this.loops[this.rec].meta
.push(line);
} else {
this.arr.push('AL');
this.meta.push(line);
}
}
/**
* Interpret an pause command
*
* @param {string} line String containing alert message
**/
pause (line : string) {
const msg : string = "Paused script. Click OK to continue."
if (this.rec !== -1) {
//hold generated arr in state loop array
this.loops[this.rec].arr
.push('AL');
this.loops[this.rec].meta
.push(msg);
} else {
this.arr.push('AL');
this.meta.push(msg);
}
}
/**
* Throw an error with specific message
*
* @param {string} msg Error message to print
*/
fail (msg : string) {
throw new Error(msg);
}
/**
* Determine if array contains matching elements of
* another array
*
* @param {Array} arr Original array to compare
* @param {Array} arr2 Array to compare elements from
*
* @returns {boolean} Whether arr contains elements in arr2
**/
contains (arr : string[], arr2 : string[]) {
return arr.some(r => arr2.includes(r));
}
}
module.exports = Mscript;
/*
CAM # - go to camera frame #
PROJ # - go to projector frame #
CAM2 # - go to camera 2 frame #
PROJ # - go to projector 2 frame #
SET CAM # - sets camera count to #
SET PROJ # - sets projector count to #
SET CAM2 # - sets camera 2 count to #
SET PROJ2 # - sets projector 2 count to #
LOOP # - begin loop, can nest recursively, # times
END LOOP - (or END) closes loop
L #RGB - sets light to rgb value
FADE 24 0,0,0 255,255,255
END FADE
CF - Camera forwards
PF - Projector forwards
BF - Black forwards
CB - Camera backwards
PB - Projector backwards
BB - Black backwards
C2F - Camera 2 forwards
C2B - Camera 2 backwards
CCF - Both cameras forwards
CCB - Both cameras backwards
P2F - Projector 2 forwards
P2B - Projector 2 backwards
PPF - Both projectors forwards
PPB - Both projectors backwards
ALERT {MESSAGE} - Stop the sequence and requiure user interaction to complete
*/