Av1an/av1an.py

#!/usr/bin/env python3

import sys
import json
import time
import subprocess
import concurrent
import concurrent.futures
from pathlib import Path

from utils import *


class Av1an:
    """Av1an - Python framework for AV1, VP9, VP8 encodes."""
    def __init__(self):
        self.__dict__.update(arg_parsing())

    def conf(self):
        """Creation and reading of config files with saved settings"""
        if self.config:
            if self.config.exists():
                with open(self.config) as f:
                    c: dict = dict(json.load(f))
                    self.__dict__.update(c)

            else:
                with open(self.config, 'w') as f:
                    c = dict()
                    c['video_params'] = self.video_params
                    c['encoder'] = self.encoder
                    c['ffmpeg'] = self.ffmpeg
                    c['audio_params'] = self.audio_params
                    json.dump(c, f)

        # Changing pixel format, bit format
        self.pix_format = f'-strict -1 -pix_fmt {self.pix_format}'
        self.ffmpeg_pipe = f' {self.ffmpeg} {self.pix_format} -f yuv4mpegpipe - |'

        # Make sure that vmaf calculated after encoding
        if self.vmaf_target:
            self.vmaf = True

        if self.vmaf_path:
            if not Path(self.vmaf_path).exists():
                print(f'No such model: {Path(self.vmaf_path).as_posix()}')
                terminate()

        if self.reuse_first_pass and self.encoder != 'aom' and self.split_method != 'aom_keyframes':
            print('Reusing the first pass is only supported with the aom encoder and aom_keyframes split method.')
            terminate()

        if self.video_params is None:
            self.video_params = get_default_params_for_encoder(self.encoder)

    def target_vmaf(self, source):
        # TODO speed up for vmaf stuff
        # TODO reduce complexity

        if self.vmaf_steps < 4:
            print('Target vmaf require more than 3 probes/steps')
            terminate()
        frames = frame_probe(source)
        probe = source.with_suffix(".mp4")

        try:
            # Making 4 fps probing file
            x264_probes(source, self.ffmpeg)

            # Making encoding fork
            fork = encoding_fork(self.min_cq, self.max_cq, self.vmaf_steps)

            # Making encoding commands
            cmd = vmaf_probes(probe, fork, self.ffmpeg_pipe)

            # Encoding probe and getting vmaf
            vmaf_cq = []
            for count, i in enumerate(cmd):
                subprocess.run(i[0], shell=True)

                v = call_vmaf(i[1], i[2], model=self.vmaf_path, return_file=True)
                # Trying 25 percentile
                mean = read_vmaf_xml(v , 25)

                vmaf_cq.append((mean, i[3]))

                # Early Skip on big CQ
                if count == 0 and round(mean) > self.vmaf_target:
                    log(f"File: {source.stem}, Fr: {frames}\n" \
                        f"Probes: {sorted([x[1] for x in vmaf_cq])}, Early Skip High CQ\n" \
                        f"Vmaf: {sorted([x[0] for x in vmaf_cq], reverse=True)}\n" \
                        f"Target CQ: {self.max_cq} Vmaf: {mean}\n\n")

                    return self.max_cq

                # Early Skip on small CQ
                if count == 1 and round(mean) < self.vmaf_target:
                    log(f"File: {source.stem}, Fr: {frames}\n" \
                        f"Probes: {sorted([x[1] for x in vmaf_cq])}, Early Skip Low CQ\n" \
                        f"Vmaf: {sorted([x[0] for x in vmaf_cq], reverse=True)}\n" \
                        f"Target CQ: {self.min_cq} Vmaf: {mean}\n\n")
                    return self.min_cq

            x = [x[1] for x in sorted(vmaf_cq)]
            y = [float(x[0]) for x in sorted(vmaf_cq)]

            # Interpolate data
            cq, tl, f, xnew = interpolate_data(vmaf_cq, self.vmaf_target)

            if self.vmaf_plots:
                plot_probes(x, y, f, tl, self.min_cq, self.max_cq, probe, xnew, cq, frames, self.temp)

            log(f'File: {source.stem}, Fr: {frames}\n' \
                f'Probes: {sorted([x[1] for x in vmaf_cq])}\n' \
                f'Vmaf: {sorted([x[0] for x in vmaf_cq])}\n' \
                f'Target CQ: {int(cq[0])} Vmaf: {round(float(cq[1]), 2)}\n\n')

            return int(cq[0])

        except Exception as e:
            _, _, exc_tb = sys.exc_info()
            print(f'Error in vmaf_target {e} \nAt line {exc_tb.tb_lineno}')
            terminate()

    def encode(self, commands):
        """Single encoder command queue and logging output."""
        commands, counter  = commands[0], commands[1]
        try:
            st_time = time.time()
            source, target = Path(commands[-1][0]), Path(commands[-1][1])
            frame_probe_source = frame_probe(source)

            # Target Vmaf Mode
            if self.vmaf_target:
                tg_cq = self.target_vmaf(source)
                cm1 = man_cq(commands[0], tg_cq)

                if self.passes == 2:
                    cm2 = man_cq(commands[1], tg_cq)
                    commands = (cm1, cm2) + commands[2:]
                else:
                    commands = (cm1,) + commands[1:]

            # Boost
            if self.boost:
                commands = boosting(self.boost_limit, self.boost_range, source, commands, self.passes)

            # first pass reuse
            if self.reuse_first_pass:
                commands = remove_first_pass_from_commands(commands, self.passes)

            log(f'Enc: {source.name}, {frame_probe_source} fr\n\n')

            # Queue execution
            for i in commands[:-1]:
                    tqdm_bar(i, self.encoder, counter, frame_probe_source, self.passes)

            frame_check(source, target, self.temp, self.no_check)

            frame_probe_fr = frame_probe(target)

            enc_time = round(time.time() - st_time, 2)

            log(f'Done: {source.name} Fr: {frame_probe_fr}\n'
                f'Fps: {round(frame_probe_fr / enc_time, 4)} Time: {enc_time} sec.\n\n')
        except Exception as e:
            _, _, exc_tb = sys.exc_info()
            print(f'Error in encoding loop {e}\nAt line {exc_tb.tb_lineno}')

    def encoding_loop(self, commands):
        """Creating process pool for encoders, creating progress bar."""
        try:
            enc_path = self.temp / 'split'
            done_path = self.temp / 'done.json'

            if self.resume and done_path.exists():
                log('Resuming...\n')

                with open(done_path) as f:
                    data = json.load(f)

                total = data['total']
                done = len(data['done'])
                initial = sum(data['done'].values())

                log(f'Resumed with {done} encoded clips done\n\n')
            else:
                initial = 0
                total = frame_probe_fast(self.input)

                if total < 1:
                    total = frame_probe(self.input)

                d = {'total': total, 'done': {}}
                with open(done_path, 'w') as f:
                    json.dump(d, f)

            clips = len([x for x in enc_path.iterdir() if x.suffix == ".mkv"])
            self.workers = min(self.workers, clips)

            print(f'\rQueue: {clips} Workers: {self.workers} Passes: {self.passes}\n'
                  f'Params: {self.video_params.strip()}')

            with concurrent.futures.ThreadPoolExecutor(max_workers=self.workers) as executor:
                counter = Manager().Counter(total, initial)
                future_cmd = {executor.submit(self.encode, (cmd, counter)): cmd for cmd in commands}
                for future in concurrent.futures.as_completed(future_cmd):
                    future_cmd[future]
                    try:
                        future.result()
                    except Exception as exc:
                        _, _, exc_tb = sys.exc_info()
                        print(f'Encoding error {exc}\nAt line {exc_tb.tb_lineno}')
                        terminate()
        except KeyboardInterrupt:
            terminate()

    def video_encoding(self):
        """Encoding video on local machine."""
        self.output_file = outputs_filenames(self.input, self.output_file)

        if self.resume and (self.temp / 'done.json').exists():
            set_log(self.logging, self.temp)
        else:
            setup(self.temp, self.resume)
            set_log(self.logging, self.temp)

            # inherit video params from aom encode unless we are using a different encoder, then use defaults
            aom_keyframes_params = self.video_params if (self.encoder == 'aom') else AOM_KEYFRAMES_DEFAULT_PARAMS
            framenums = split_routine(self.input, self.scenes, self.split_method, self.temp, self.min_scene_len, self.queue, self.threshold, self.ffmpeg_pipe, aom_keyframes_params)

            if self.extra_split:
                framenums = extra_splits(self.input, framenums, self.extra_split)

            if self.reuse_first_pass:
                segment_first_pass(self.temp, framenums)

            segment(self.input, self.temp, framenums)
            extract_audio(self.input, self.temp,  self.audio_params)

        chunk = get_video_queue(self.temp,  self.resume)

        # Make encode queue
        commands = compose_encoding_queue(chunk, self.temp, self.encoder, self.video_params, self.ffmpeg_pipe, self.passes)
        log(f'Encoding Queue Composed\n'
            f'Encoder: {self.encoder.upper()} Queue Size: {len(commands)} Passes: {self.passes}\n'
            f'Params: {self.video_params}\n\n')

        self.workers = determine_resources(self.encoder, self.workers)

        self.encoding_loop(commands)

        try:
            concatenate_video(self.temp, self.output_file, keep=self.keep)

        except Exception as e:
            _, _, exc_tb = sys.exc_info()
            print(f'Concatenation failed, FFmpeg error\nAt line: {exc_tb.tb_lineno}\nError:{str(e)}')
            log(f'Concatenation failed, aborting, error: {e}\n')
            terminate()

        if self.vmaf:
            plot_vmaf(self.input, self.output_file, model=self.vmaf_path)

    def main_queue(self):
        # Todo: Redo Queue
        tm = time.time()
        self.queue, self.input = process_inputs(self.input)

        if self.queue:
            for file in self.queue:
                tm = time.time()
                self.input = file
                print(f'Encoding: {file}')
                self.output_file = None
                self.video_encoding()
                print(f'Finished: {round(time.time() - tm, 1)}s\n')
        else:
            self.video_encoding()
            print(f'Finished: {round(time.time() - tm, 1)}s')

    def main_thread(self):
        """Main."""
        startup_check()
        self.conf()
        check_executables(self.encoder)
        self.main_queue()


def main():
    try:
        Av1an().main_thread()
    except KeyboardInterrupt:
        print('Encoding stopped')
        sys.exit()


if __name__ == '__main__':
    main()