16 KiB
Sequence
Run the sequence
seq.run = function () { 'use strict'; var c = mcopy.state.sequence.arr[seq.i], timeEnd = 0, rgb, action = function () { setTimeout(function () { seq.i++; seq.run(); }, mcopy.cfg.arduino.sequenceDelay); } if (seq.i == 0) { $('#loop_current').text(gui.fmtZero(mcopy.loopCount + 1, 6)); ipcRenderer.send('seq', { action : 'loop' }); } if (seq.stop()) { $('.row input').removeClass('h'); $('#numbers div').removeClass('h'); log.info('Sequence stopped', 'SERIAL', true); return false; } if (seq.i <= mcopy.state.sequence.arr.length && c !== undefined) { log.info('Step ' + seq.i + ' command ' + c, 'SEQUENCE', true); //gui action $('.row input').removeClass('h'); $('#numbers div').removeClass('h'); $('.row input[x=' + seq.i + ']').addClass('h'); $('#numbers div[x=' + seq.i + ']').addClass('h'); if (c === 'CF'){ rgb = mcopy.state.sequence.light[seq.i].split(','); cmd.cam_forward(rgb, action); } else if (c === 'CB') { rgb = mcopy.state.sequence.light[seq.i].split(','); cmd.cam_backward(rgb, action); } else if (c === 'PF') { cmd.proj_forward(action); } else if (c === 'PB') { cmd.proj_backward(action); } else if (c === 'BF') { cmd.black_forward(action); } else if (c === 'BB') { cmd.black_backward(action); } } else { mcopy.loopCount++; $('#loop_current').text(gui.fmtZero(mcopy.loopCount + 1, 6)); if (mcopy.loopCount < mcopy.loop) { log.info('Loop ' + mcopy.loopCount + ' completed', 'SEQUENCE', true); $('.row input').removeClass('h'); $('#numbers div').removeClass('h'); seq.i = 0; seq.run(); } else { timeEnd = +new Date(); timeEnd = timeEnd - seq.time; if (timeEnd < 2000) { log.info('Sequence completed in ' + timeEnd + 'ms', 'SEQUENCE', true); } else { log.info('Sequence completed in ' + humanizeDuration(timeEnd), 'SEQUENCE', true); } ipcRenderer.send('seq', { action : 'stop' }); gui.notify('Sequence done!', (mcopy.state.sequence.arr.length * mcopy.loop) + ' actions completed in ' + humanizeDuration(timeEnd)); //clear gui $('.row input').removeClass('h'); $('#numbers div').removeClass('h'); $('#loop_current').text(''); seq.stats(); } } }; seq.stop = function (state) { 'use strict'; if (typeof state === 'undefined') { if (seq.stopState === true) { ipcRenderer.send('seq', { action : 'stop' }); } return seq.stopState; } else { seq.stopState = state; } if (state === false) { mcopy.loopCount = 0 $('#loop_current').text(''); } else { ipcRenderer.send('seq', { action : 'stop' }); } return state }; seq.init = function (start) { 'use strict'; if (typeof start === 'undefined') { start = 0; mcopy.loopCount = 0; seq.time = +new Date(); } seq.stop(false); seq.i = start;
ipcRenderer.send('seq', { action : 'start' });
seq.run();
}; //!!! redo seq.stats = function () { 'use strict'; var ms = 0, c = '', cam_total = 0, proj_total = 0, real_total = mcopy.state.sequence.arr.filter(function (elem) { if (elem === undefined) { return false; } return true; });
//timing
for (var i = 0; i < mcopy.state.sequence.arr.length; i++) {
c = mcopy.state.sequence.arr[i];
if (c === 'CF' || c === 'CB'){
ms += mcopy.cfg.arduino.cam.time;
ms += mcopy.cfg.arduino.cam.delay;
ms += mcopy.cfg.arduino.serialDelay;
}
if (c === 'PF' || c === 'PB'){
ms += mcopy.cfg.arduino.proj.time;
ms += mcopy.cfg.arduino.proj.delay;
ms += mcopy.cfg.arduino.serialDelay;
}
if (c === 'BF' || c === 'BB'){
ms += mcopy.cfg.arduino.black.before;
ms += mcopy.cfg.arduino.black.after;
ms += mcopy.cfg.arduino.cam.time;
ms += mcopy.cfg.arduino.cam.delay;
ms += mcopy.cfg.arduino.serialDelay;
}
ms += mcopy.cfg.arduino.sequenceDelay;
if (c === 'CF' || c === 'BF') {
cam_total++;
}
if (c === 'CB' || c === 'BB') {
cam_total--;
}
if (c === 'PF') {
proj_total++;
}
if (c === 'PB') {
proj_total--;
}
}
//timing
ms = ms * mcopy.loop;
if (ms < 2000) {
$('#seq_stats .timing span').text(ms + 'ms');
} else {
$('#seq_stats .timing span').text(humanizeDuration(ms));
}
//ending frames
cam_total = cam_total * mcopy.loop;
proj_total = proj_total * mcopy.loop;
$('#seq_stats .cam_end span').text(gui.fmtZero(mcopy.state.camera.pos + cam_total, 6));
$('#seq_stats .proj_end span').text(gui.fmtZero(mcopy.state.projector.pos + proj_total, 6));
//count
$('#seq_stats .seq_count span').text(real_total.length * mcopy.loop);
return ms;
};
seq.clear = function () {
'use strict';
mcopy.state.sequence.size = 24;
mcopy.state.sequence.arr = [];
};
seq.exec = function (arr) {
'use strict';
seq.running = true;
seq.state.len = arr.length;
//setup queue
seq.queue = arr;
//console.dir(arr);
gui.overlay(true);
gui.spinner(true, Running sequence of ${arr.length} frame${(arr.length === 1 ? '' : 's')}
, 0);
log.info(Sequence started
, 'SEQUENCE', true);
seq.step();
};
seq.execStop = function (msg) {
'use strict';
gui.overlay(false);
gui.spinner(false);
log.info(Sequence ${msg}
, 'SEQUENCE', true);
return false;
};
seq.step = function () { 'use strict'; let elem; let c; let rgb; let current; let max;
if (!seq.running) {
return seq.execStop('stopped');
}
return setTimeout(() => {
elem = seq.queue.shift();
if (typeof elem !== 'undefined') {
c = elem.cmd;
if (typeof elem.light !== 'undefined') {
rgb = elem.light.split(',');
} else {
rgb = light.color;
}
} else {
return seq.execStop('completed');
}
if (typeof elem !== 'undefined') {
current = seq.state.len - seq.queue.length;
max = seq.state.len;
gui.spinner(true, `Sequence: step ${c} ${current}/${max}`, (current / max) * 100);
log.info(`Sequence: step ${c} ${current}/${max}`, 'SEQUENCE', true);
if (c === 'CF'){
cmd.cam_forward(rgb, seq.step);
} else if (c === 'CB') {
cmd.cam_backward(rgb, seq.step);
} else if (c === 'PF') {
cmd.proj_forward(seq.step);
} else if (c === 'PB') {
cmd.proj_backward(seq.step);
} else if (c === 'BF') {
cmd.black_forward(seq.step);
} else if (c === 'BB') {
cmd.black_backward(seq.step);
}
}
}, mcopy.cfg.arduino.sequenceDelay);
};
// FROM SERVER SIDE proj.state = { dir : true, //default dir digital : false } proj.init = function () { proj.listen() } proj.set = async function (dir, id) { let cmd let ms if (dir) { cmd = mcopy.cfg.arduino.cmd.proj_forward } else { cmd = mcopy.cfg.arduino.cmd.proj_backward } proj.state.dir = dir if (proj.state.digital) { dig.set(dir) } else { try { ms = await arduino.send('projector', cmd) } catch (err) { console.error(err) } } return await proj.end(cmd, id, ms) } proj.move = async function (frame, id) { const cmd = mcopy.cfg.arduino.cmd.projector let ms if (proj.digital) { try { ms = await dig.move() } catch (err) { console.error(err) } } else { try { ms = await arduino.send('projector', cmd) } catch (err) { console.error(err) } } return await proj.end(mcopy.cfg.arduino.cmd.projector, id, ms) } proj.listen = function () { ipcMain.on('proj', async (event, arg) => { if (typeof arg.dir !== 'undefined') { try { await proj.set(arg.dir, arg.id) } catch (err) { console.error(err) } } else if (typeof arg.frame !== 'undefined') { try { await proj.move(arg.frame, arg.id) } catch (err) { console.error(err) } } else if (typeof arg.val !== 'undefined') { dig.state.frame = arg.val } event.returnValue = true }) ipcMain.on('digital', proj.connectDigital) } proj.end = async function (cmd, id, ms) { let message = '' if (cmd === mcopy.cfg.arduino.cmd.proj_forward) { message = 'Projector set to FORWARD' } else if (cmd === mcopy.cfg.arduino.cmd.proj_backward) { message = 'Projector set to BACKWARD' } else if (cmd === mcopy.cfg.arduino.cmd.projector) { message = 'Projector ' if (proj.state.dir) { message += 'ADVANCED' } else { message += 'REWOUND' } message += ' 1 frame' } log.info(message, 'PROJECTOR', true, true) return await mainWindow.webContents.send('proj', {cmd: cmd, id : id, ms: ms}) } proj.connectDigital = async function (evt, arg) { let info; let frames = 0;
try {
info = await ffprobe.info(arg.path);
} catch (err) {
log.error(err, 'DIGITAL', true, true);
proj.digital = false;
await mainWindow.webContents.send('digital', { valid : false });
return false;
}
try {
frames = await ffprobe.frames(arg.path);
} catch (err) {
log.error(err, 'DIGITAL', true, true);
proj.digital = false;
await mainWindow.webContents.send('digital', { valid : false });
return false;
}
dig.state.frame = 0;
dig.state.path = arg.path;
dig.state.fileName = arg.fileName;
dig.state.frames = frames;
dig.state.info = info;
//console.dir(dig.state);
log.info(`Opened ${dig.state.fileName}`, 'DIGITAL', true, true);
log.info(`Frames : ${frames}`, 'DIGITAL', true, true);
proj.digital = true;
return await mainWindow.webContents.send('digital', { valid : true, state : JSON.stringify(dig.state) });
}
const dig = {}; dig.state = { frame : 0, frames : 0, path : null, fileName : null, info : {}, dir : true };
dig.set = function (dir) { dig.state.dir = dir; }
dig.move = async function () { let start = +new Date() let last = dig.state.dir + 0; if (dig.state.dir) { dig.state.frame++ } else { dig.state.frame-- } if (dig.state.frame < 1) { dig.state.frame = 1 } return (+new Date()) - start }
dig.start = async function () { try { await ffmpeg.clearAll() } catch (err) { console.error(err) }
try {
await ffmpeg.frame(dig.state, light.state)
} catch (err) {
console.error(err)
}
display.start(dig.state.frame)
await delay(20)
}
dig.end = async function () { await delay(20) display.end() }
cam.intval = null cam.state = { dir : true //default dir } cam.init = function () { cam.listen() } cam.set = async function (dir, id) { let cmd let ms if (dir) { cmd = mcopy.cfg.arduino.cmd.cam_forward } else { cmd = mcopy.cfg.arduino.cmd.cam_backward } cam.state.dir = dir
if (cam.intval) {
try {
ms = await cam.intval.setDir(dir)
} catch (err) {
console.error(err)
}
} else {
try {
ms = await arduino.send('camera', cmd)
} catch (err) {
console.error(err)
}
}
return await cam.end(cmd, id, ms)
}
cam.move = async function (frame, id) { const cmd = mcopy.cfg.arduino.cmd.camera let ms if (proj.digital) { await dig.start() } if (cam.intval) { try { ms = await cam.intval.move() } catch (err) { console.error(err) } } else { try { ms = await arduino.send('camera', cmd) } catch (err) { console.error(err) } } if (proj.digital) { await dig.end() } log.info('Camera move time', { ms }) return cam.end(cmd, id, ms) }
cam.exposure = function (exposure, id) { let cmd = 'E' cam.intval.setExposure('camera', exposure, ms => { cam.end(cmd, id, ms) }) }
cam.connectIntval = async function (event, arg) {
return new Promise((resolve, reject) => {
if (arg.connect) {
cam.intval = new Intval(arg.url)
cam.intval.connect((err, ms, state) => {
if (err) {
mainWindow.webContents.send('intval', { connected : false })
log.info(Cannot connect to ${arg.url}
, 'INTVAL', true, true)
cam.intval = null
delete cam.intval
} else {
mainWindow.webContents.send('intval', { connected : true, url : arg.url, state : state })
log.info(Connected to INTVAL3 @ ${arg.url}
, 'INTVAL', true, true)
settings.update('camera', { intval : arg.url })
settings.save()
dev.remember('intval', arg.url, 'camera')
}
return resolve(true)
})
} else if (arg.disconnect) {
cam.intval = null
return resolve(false)
}
})
}
cam.listen = function () { ipcMain.on('cam', async (event, arg) => { if (typeof arg.dir !== 'undefined') { try { await cam.set(arg.dir, arg.id) } catch (err) { console.error(err) } } else if (typeof arg.frame !== 'undefined') { try { await cam.move(arg.frame, arg.id) } catch (err) { console.error(err) } } event.returnValue = true }) ipcMain.on('intval', cam.connectIntval) } cam.end = async function (cmd, id, ms) { var message = '' if (cmd === mcopy.cfg.arduino.cmd.cam_forward) { message = 'Camera set to FORWARD' } else if (cmd === mcopy.cfg.arduino.cmd.cam_backward) { message = 'Camera set to BACKWARD' } else if (cmd === mcopy.cfg.arduino.cmd.camera) { message = 'Camera ' if (cam.state.dir) { message += 'ADVANCED' } else { message += 'REWOUND' } message += ' 1 frame' } log.info(message, 'CAMERA', true, true) mainWindow.webContents.send('cam', {cmd: cmd, id : id, ms: ms}) };
const seq = {}; seq.init = function () { seq.listen(); }
seq.listen = function () { ipcMain.on('seq', async (evt, arg) => { if (arg.action === 'stop' && proj.digital) { display.end() } }) }
sequence.stop()
Stop the sequence
Kind: instance method of Sequence