frameloom/frameloom

#!/usr/bin/env node
'use strict';
const execRaw = require('child_process').exec;
const os = require('os');
const path = require('path');
const program = require('commander');
const fs = require('fs-extra');
const pkg = require('./package.json');
const OUTPUT_RE = new RegExp('{{o}}', 'g');
const INPUT_RE = new RegExp('{{i}}', 'g');
let QUIET = false;
let TMPDIR = os.tmpdir() || '/tmp';
let TMPPATH;
/**
 * 	Shells out to execute a command with async/await.
 * 	Async wrapper to exec module.
 *
 *	@param	{string} 	cmd 	Command to execute
 *
 *	@returns {Promise} 	Promise containing the complete stdio
 **/
async function exec(cmd) {
    return new Promise((resolve, reject) => {
        return execRaw(cmd, (err, stdio, stderr) => {
            if (err)
                return reject(err);
            return resolve(stdio);
        });
    });
}
/**
 * 	Delays process for specified amount of time in milliseconds.
 *
 *	@param	{integer} 	ms 	Milliseconds to delay for
 *
 *	@returns {Promise} 	Promise that resolves after set time
 **/
async function delay(ms) {
    return new Promise((resolve, reject) => {
        return setTimeout(resolve, ms);
    });
}
/**
 * Log function wrapper that can silences logs when
 * QUIET == true
 */
function log(msg, err = false) {
    if (QUIET)
        return false;
    if (err) {
        console.error(msg, err);
    }
    else {
        console.log(msg);
    }
    return true;
}
/**
 * 	Pads a numerical value with preceding zeros to make strings same length.
 *
 *	@param 	{integer} 	i 		Number to pad
 * 	@param 	{integer} 	max 	(optional) Maximum length of string to pad to
 *
 * 	@returns {string} 	Padded number as a string
 **/
function zeroPad(i, max = 5) {
    let str = i + '';
    let len = str.length;
    for (let x = 0; x < max - len; x++) {
        str = '0' + str;
    }
    return str;
}
/**
 * 	Shuffles an array into a random state.
 *
 * 	@param 	{array} 	a 	Array to randomize
 **/
function shuffle(array) {
    let j;
    let temp;
    for (let i = array.length - 1; i > 0; i--) {
        j = Math.floor(Math.random() * (i + 1));
        temp = array[i];
        array[i] = array[j];
        array[j] = temp;
    }
}
/**
 * 	Clears the temporary directory of all files.
 * 	Establishes a directory if none exists.
 **/
async function clear() {
    let cmd = `rm -r "${TMPPATH}"`;
    let exists;
    try {
        exists = await fs.exists(TMPPATH);
    }
    catch (err) {
        log('Error checking if file exists', err);
    }
    if (exists) {
        log(`Clearing temp directory "${TMPPATH}"`);
        try {
            await exec(cmd);
        }
        catch (err) {
            //suppress error
            console.dir(err);
        }
    }
    try {
        await fs.mkdir(TMPPATH);
    }
    catch (err) {
        if (err.code !== 'EEXIST') {
            log('Error making directory', err);
        }
    }
    return true;
}
/**
 * 	Exports all frames from video. Appends number to the string
 * 	to keep frames in alternating order to be quickly stitched together
 *  or re-sorted.
 *
 * 	@param 	{string} 	video 	String representing path to video
 * 	@param 	{integer} 	order 	Integer to be appended to pathname of file
 *  @param  {boolean}   avconv	Whether or not to use avconv instead of ffmpeg
 *
 * 	@returns 	{string} 	String with the export order, not sure why I did this
 **/
async function frames(video, order, avconv) {
    let ext = 'tif';
    let exe = avconv ? 'avconv' : 'ffmpeg';
    let tmpoutput;
    let cmd;
    tmpoutput = path.join(TMPPATH, `export-%05d_${order}.${ext}`);
    cmd = `${exe} -i "${video}" -compression_algo raw -pix_fmt rgb24 "${tmpoutput}"`;
    log(`Exporting ${video} as single frames...`);
    try {
        await exec(cmd);
    }
    catch (err) {
        log('Error exporting video', err);
        return process.exit(3);
    }
    return path.join(TMPPATH, `export-%05d_${order}`);
}
/**
 * Shells out to run a sub command on every frame to perform effects
 *
 *  @param  {string}	cmd 	Command to execute on every frame
 *
 **/
async function subExec(cmd) {
    let frames;
    let frameCmd;
    let framePath;
    try {
        frames = await fs.readdir(TMPPATH);
    }
    catch (err) {
        log('Error reading tmp directory', err);
    }
    frames = frames.filter(file => {
        if (file.indexOf('.tif') !== -1)
            return true;
    });
    for (let frame of frames) {
        framePath = path.join(TMPPATH, frame);
        if (cmd.indexOf('{{i}}') !== -1 || cmd.indexOf('{{o}}')) {
            frameCmd = cmd.replace(INPUT_RE, framePath)
                .replace(OUTPUT_RE, framePath);
        }
        else {
            frameCmd = `${cmd} ${framePath}`;
        }
        try {
            await exec(frameCmd);
        }
        catch (err) {
            log('Error executing sub command on frame', err);
            return process.exit(10);
        }
    }
}
/**
 *	Re-arranges the frames into the order specified in the pattern.
 *	Calls `patternSort()` to perform the rename and unlink actions
 *
 * 	@param 	{array} 	pattern 	Pattern of the frames per input
 * 	@param 	{boolean}	realtime 	Flag to turn on or off realtime behavior (drop frames / number of vids)
 *  @param  {boolean}   random 		Whether or not to randomize frames
 **/
async function weave(pattern, realtime, random) {
    let frames;
    let seq;
    let alt = false;
    log('Weaving frames...');
    try {
        frames = await fs.readdir(TMPPATH);
    }
    catch (err) {
        log('Error reading tmp directory', err);
    }
    //console.dir(frames)
    frames = frames.filter(file => {
        if (file.indexOf('.tif') !== -1)
            return true;
    });
    for (let el of pattern) {
        if (el !== 1)
            alt = true;
    }
    if (random) {
        try {
            seq = await randomSort(frames, pattern, realtime);
        }
        catch (err) {
            log('Error sorting frames', err);
        }
    }
    else if (!alt) {
        try {
            seq = await standardSort(frames, pattern, realtime);
        }
        catch (err) {
            log('Error sorting frames', err);
        }
    }
    else if (alt) {
        log('This feature is not ready, please check https://github.com/sixteenmillimeter/frameloom.git', {});
        process.exit(10);
        try {
            seq = await altSort(frames, pattern, realtime);
        }
        catch (err) {
            log('Error sorting frames', err);
        }
    }
    //console.dir(seq)
}
/**
 * 	Alternate frame sorting method.
 *
 *	@param	{array}		list 		List of frames to group
 * 	@param 	{array} 	pattern 	Array representing pattern
 *	@param 	{boolean}	realtime 	Flag to group with "realtime" behavior
 **/
async function altSort(list, pattern, realtime) {
    let groups = [];
    let newList = [];
    let frameCount = 0;
    let oldPath;
    let newName;
    let newPath;
    let ext = path.extname(list[0]);
    for (let g of pattern) {
        groups.push([]);
    }
    for (let i = 0; i < list.length; i++) {
        groups[i % pattern.length].push(list[i]);
    }
    for (let x = 0; x < list.length; x++) {
        for (let g of pattern) {
            for (let i = 0; i < g; i++) {
                /*oldPath = path.join(TMPPATH, list[i]);
                newName = `./render_${zeroPad(frameCount)}${ext}`;
                newPath = path.join(TMPPATH, newName);

                log(`Renaming ${list[i]} -> ${newName}`);

                try {
                    //await fs.move(oldPath, newPath, { overwrite: true })
                    newList.push(newName);
                } catch (err) {
                    log(err);
                }*/
                frameCount++;
            }
        }
    }
    return newList;
}
/**
 * 	Standard frame sorting method.
 *
 *	@param	{array}		list 		List of frames to group
 * 	@param 	{array} 	pattern 	Array representing pattern
 *	@param 	{boolean}	realtime 	Flag to group with "realtime" behavior
 **/
async function standardSort(list, pattern, realtime) {
    let frameCount = 0;
    let stepCount;
    let step;
    let skipCount;
    let skip;
    let ext = path.extname(list[0]);
    let oldPath;
    let newName;
    let newPath;
    let newList = [];
    if (realtime) {
        skip = false;
        skipCount = pattern.length + 1;
    }
    for (let i = 0; i < list.length; i++) {
        if (realtime) {
            skipCount--;
            if (skipCount === 0) {
                skip = !skip;
                skipCount = pattern.length;
            }
        }
        oldPath = path.join(TMPPATH, list[i]);
        if (skip) {
            log(`Skipping ${list[i]}`);
            try {
                await fs.unlink(oldPath);
            }
            catch (err) {
                log('Error deleting frame', err);
            }
            continue;
        }
        newName = `./render_${zeroPad(frameCount)}${ext}`;
        newPath = path.join(TMPPATH, newName);
        log(`Renaming ${list[i]} -> ${newName}`);
        try {
            await fs.move(oldPath, newPath);
            newList.push(newName);
            frameCount++;
        }
        catch (err) {
            log('Error renaming frame', err);
            return process.exit(10);
        }
    }
    return newList;
}
/**
 *	Ramdomly sort frames for re-stitching.
 *
 *	@param	{array}		list 		List of frames to group
 * 	@param 	{array} 	pattern 	Array representing pattern
 *	@param 	{boolean}	realtime 	Flag to group with "realtime" behavior
 **/
async function randomSort(list, pattern, realtime) {
    let frameCount = 0;
    let ext = path.extname(list[0]);
    let oldPath;
    let newName;
    let newPath;
    let newList = [];
    let removeLen = 0;
    let remove = [];
    shuffle(list);
    if (realtime) {
        removeLen = Math.floor(list.length / pattern.length);
        remove = list.slice(removeLen, list.length);
        list = list.slice(0, removeLen);
        log(`Skipping extra frames...`);
        for (let i = 0; i < remove.length; i++) {
            oldPath = path.join(TMPPATH, remove[i]);
            log(`Skipping ${list[i]}`);
            try {
                await fs.unlink(oldPath);
            }
            catch (err) {
                log('Error deleting frame', err);
            }
        }
    }
    for (let i = 0; i < list.length; i++) {
        oldPath = path.join(TMPPATH, list[i]);
        newName = `./render_${zeroPad(frameCount)}${ext}`;
        newPath = path.join(TMPPATH, newName);
        log(`Renaming ${list[i]} -> ${newName}`);
        try {
            await fs.move(oldPath, newPath);
            newList.push(newName);
        }
        catch (err) {
            log('Error moving frame', err);
        }
        frameCount++;
    }
    return newList;
}
/**
 *	Render the frames into a video using ffmpeg.
 *
 * 	@param 	{string} 	output 	Path to export the video to
 *  @param  {boolean}   avconv  Whether or not to use avconv in place of ffmpeg
 **/
async function render(output, avconv) {
    //process.exit()
    let frames = path.join(TMPPATH, `render_%05d.tif`);
    let exe = avconv ? 'avconv' : 'ffmpeg';
    let resolution = '1920x1080'; //TODO: make variable/argument
    //TODO: make object configurable with shorthand names
    let h264 = `-vcodec libx264 -g 1 -crf 25 -pix_fmt yuv420p`;
    let prores = `-c:v prores_ks -profile:v 3`;
    //
    let format = (output.indexOf('.mov') !== -1) ? prores : h264;
    let framerate = `24`;
    const cmd = `${exe} -r ${framerate} -f image2 -s ${resolution} -i ${frames} ${format} -y ${output}`;
    log(`Exporting video ${output}`);
    log(cmd);
    /*try {
        await exec(`ls "${TMPPATH}"`)
    } catch (err) {
        log(err)
    }*/
    try {
        await exec(cmd);
    }
    catch (err) {
        log('Error rendering video with ffmpeg', err);
    }
}
/**
 * 	Parses the arguments and runs the process of exporting, sorting and then
 * 	"weaving" the frames back into a video
 *
 * @param {object} 	arg 	Object containing all arguments
 **/
async function main(arg) {
    let input = arg.input.split(':');
    let output = arg.output;
    let pattern = [];
    let realtime = false;
    let avconv = false;
    let random = false;
    let e = false;
    console.time('frameloom');
    if (input.length < 2) {
        log('Must provide more than 1 input', {});
        return process.exit(1);
    }
    if (!output) {
        log('Must provide video output path', {});
        return process.exit(2);
    }
    if (arg.random) {
        random = true;
    }
    if (arg.avconv) {
        avconv = true;
    }
    if (arg.tmp) {
        TMPDIR = arg.tmp;
    }
    if (arg.exec) {
        e = arg.exec;
    }
    if (arg.quiet) {
        QUIET = true;
    }
    if (arg.pattern) {
        pattern = arg.pattern.split(':');
        pattern = pattern.map(el => {
            return parseInt(el);
        });
    }
    else {
        for (let i = 0; i < input.length; i++) {
            pattern.push(1);
        }
    }
    if (arg.realtime)
        realtime = true;
    TMPPATH = path.join(TMPDIR, 'frameloom');
    try {
        await clear();
    }
    catch (err) {
        log('Error clearing temp directory', err);
        return process.exit(3);
    }
    log(`Processing video files ${input.join(', ')} into ${output} with pattern ${pattern.join(':')}`);
    for (let i = 0; i < input.length; i++) {
        try {
            await frames(input[i], i, avconv);
        }
        catch (err) {
            log('Error exporting video fie to image sequence', err);
            return process.exit(4);
        }
    }
    log('Weaving frames');
    try {
        await weave(pattern, realtime, random);
    }
    catch (err) {
        log('Error weaving', err);
        return process.exit(5);
    }
    if (e) {
        try {
            await subExec(e);
        }
        catch (err) {
            log('Error performing subcommand', err);
            return process.exit(7);
        }
    }
    try {
        await render(output, avconv);
    }
    catch (err) {
        log('Error rendering', err);
        return process.exit(6);
    }
    try {
        await clear();
    }
    catch (err) {
        log('Error clearing files', err);
        return process.exit(7);
    }
    console.timeEnd('frameloom');
}
program
    .version(pkg.version)
    .option('-i, --input [files]', 'Specify input videos with paths seperated by colon')
    .option('-o, --output [file]', 'Specify output path of video')
    .option('-p, --pattern [pattern]', 'Specify a pattern for the flicker 1:1 is standard')
    .option('-r, --realtime', 'Specify if videos should preserve realtime speed')
    .option('-t, --tmp [dir]', 'Specify tmp directory for exporting frames')
    .option('-a, --avconv', 'Specify avconv if preferred to ffmpeg')
    .option('-R, --random', 'Randomize frames. Ignores pattern if included')
    .option('-e, --exec', 'Command to execute on every frame. Specify {{i}} and {{o}} if the command requires it, otherwise frame path will be appended to command')
    .option('-q, --quiet', 'Suppresses all log messages')
    .parse(process.argv);
main(program);