dcc/dcc/concat.py

import av
import copy
import dcc.doom_base
import fractions
import io
import logging
import math
import numpy as np
import wand.image

class Concat(dcc.doom_base.Wad):
    def get_parser(self, prog_name):
        parser = super().get_parser(prog_name)
        parser.add_argument("start_map")
        parser.add_argument("end_map")
        parser.add_argument("-n", "--nooverlay", action="store_true")
        return parser

    def take_action(self, parsed_args):
        logging.basicConfig()
        av.logging.set_level(av.logging.VERBOSE)
        av.logging.restore_default_callback()
        videos = self.fabricate.joinpath(parsed_args.wad).glob(f"{parsed_args.wad}_map*.mp4")
        output = av.open(self.fabricate.joinpath(parsed_args.wad).joinpath(f"{parsed_args.wad}_maps{parsed_args.start_map}to{parsed_args.end_map}.mp4"), "w")
        offset = 0
        # We'd like to use the concat filter here and connect everything into a
        # single filter graph... but it produces a "Resource temporarily
        # unavailable" error when switching to inputs after the first.  Presumably
        # fixable, but it's easier to just make one graph per video and mux
        # everything together at the end.
        for v in sorted(videos):
            # TODO: Support UDoom in literally any way.
            if not (v.name >= f"{parsed_args.wad}_map{parsed_args.start_map}.mp4" and
                v.name <= f"{parsed_args.wad}_map{parsed_args.end_map}.mp4"):
                continue

            chunk = av.open(v)
            if not (len(chunk.streams.video) == 1 and len(chunk.streams.audio) == 1):
                raise Exception(f"irregular chunk {v}: streams {chunk.streams} (expected 1 video & 1 audio)")

            ograph = av.filter.Graph()
            sink = ograph.add("buffersink")
            asink = ograph.add("abuffersink")

            if not parsed_args.nooverlay:
                img = wand.image.Image(height=chunk.streams[0].height,width=chunk.streams[0].width)
                mapstring = v.name[-6:-4]
                text = self._config["map_names"][f"map{mapstring}"]
                dcc.text.draw_text(img, f"MAP{mapstring}: {text}", font_size=120)
                img.trim(reset_coords=True)
                img.border("graya(25%, 25%)", 10, 10)
                img.border(dcc.config.TEXT_STROKE_COLOR, 16, 16)
                # for this to work... the image needs to have a width that's a multiple
                # of 8.  dude whyyyyyyy
                padfactor=8
                img.border("transparent", padfactor, 0)
                img.crop(width=img.width-img.width%padfactor, height=img.height)

            if len(output.streams.get()) == 0:
                # We can't use the input stream as a template here; it doesn't
                # have everything needed to do encoding and will fail
                # mysteriously later.
                vs = chunk.streams.video[0]
                output.add_stream("h264", rate=int(vs.time_base.denominator/vs.time_base.numerator))
                output.streams[0].extradata = copy.deepcopy(vs.extradata)
                output.streams[0].height=vs.height
                output.streams[0].width=vs.width
                output.streams[0].qmax = vs.qmax
                output.streams[0].qmin = vs.qmin
                output.streams[0].codec_context.bit_rate = vs.codec_context.bit_rate
                output.streams[0].codec_context.framerate = vs.base_rate
                output.streams[0].codec_context.pix_fmt = vs.codec_context.pix_fmt
                # The following are only used for encoding and have no equivalent on the input stream.
                output.streams[0].profile="High"
                output.streams[0].codec_context.gop_size=30
                output.streams[0].codec_context.max_b_frames=2

                astr = chunk.streams.audio[0]
                output.add_stream("aac", rate=astr.rate)
                output.streams[1].extradata = copy.deepcopy(astr.extradata)
                output.streams[1].bit_rate=astr.bit_rate

            src = ograph.add_buffer(template=chunk.streams.video[0], time_base=chunk.streams.video[0].time_base)
            asrc = ograph.add_abuffer(template=chunk.streams.audio[0], time_base=chunk.streams.audio[0].time_base)
            # TODO: video fades are absolute relative to the input video; audio
            # fades need to have their timestamps offset by the position in the
            # final video.  Clarify if this is really necessary.
            frame_rate = chunk.streams.video[0].base_rate
            sample_rate = chunk.streams.audio[0].rate
            ifade = ograph.add("fade", args="in:0:{}".format(frame_rate))
            ofade = ograph.add("fade", args="out:{}:{}".format((chunk.duration*frame_rate/1000000)-frame_rate, frame_rate))
            iafade = ograph.add("afade", args="in:{}:{}".format(offset*sample_rate/1000000, sample_rate))
            oafade = ograph.add("afade", args="out:{}:{}".format(((offset+chunk.duration)*sample_rate/1000000)-sample_rate, sample_rate))
            if not parsed_args.nooverlay:
                overlay = ograph.add_buffer(width=img.width, height=img.height, format="rgba", time_base=chunk.streams[0].time_base)
                overlay_fo = ograph.add("fade", args="out:{}:{}".format(4*frame_rate, frame_rate))
                overlay.link_to(overlay_fo, 0, 0)
                composite = ograph.add("overlay", args="x=4:y=4")
                src.link_to(composite, 0, 0)
                overlay_fo.link_to(composite, 0, 1)
                composite.link_to(ifade, 0, 0)
            else:
                src.link_to(ifade, 0, 0)

            asrc.link_to(iafade, 0, 0)
            ifade.link_to(ofade, 0, 0)
            iafade.link_to(oafade, 0, 0)
            ofade.link_to(sink, 0, 0)
            oafade.link_to(asink, 0, 0)
            ograph.configure()

            for packet in chunk.demux():
                if packet.dts is None:
                    continue
                packet.dts += (offset * packet.time_base.denominator) / (packet.time_base.numerator * 1000000)
                packet.pts += (offset * packet.time_base.denominator) / (packet.time_base.numerator * 1000000)
                if packet.stream == chunk.streams.video[0]:
                    for ifr in packet.decode():
                        if not parsed_args.nooverlay:
                            text_frame = av.video.frame.VideoFrame(img.width, img.height, format="rgba")
                            text_frame.planes[0].update(img.make_blob(format="rgba"))
                            text_frame.pts = ifr.pts
                            text_frame.dts = ifr.dts
                            text_frame.time_base = ifr.time_base
                            overlay.push(text_frame)
                        src.push(ifr)
                        ofr = sink.pull()
                        for p in output.streams[packet.stream_index].encode(ofr):
                            output.mux(p)
                else:
                    for ifr in packet.decode():
                        asrc.push(ifr)
                        ofr = asink.pull()
                        for p in output.streams[packet.stream_index].encode(ofr):
                            output.mux(p)
            offset += chunk.duration
            chunk.close()
        output.close()