yt-dlp/yt_dlp/postprocessor/modify_chapters.py

import copy
import heapq
import os

from .common import PostProcessor
from .ffmpeg import FFmpegPostProcessor, FFmpegSubtitlesConvertorPP
from .sponsorblock import SponsorBlockPP
from ..utils import PostProcessingError, orderedSet, prepend_extension

_TINY_CHAPTER_DURATION = 1
DEFAULT_SPONSORBLOCK_CHAPTER_TITLE = '[SponsorBlock]: %(category_names)l'


class ModifyChaptersPP(FFmpegPostProcessor):
    def __init__(self, downloader, remove_chapters_patterns=None, remove_sponsor_segments=None, remove_ranges=None,
                 *, sponsorblock_chapter_title=DEFAULT_SPONSORBLOCK_CHAPTER_TITLE, force_keyframes=False):
        FFmpegPostProcessor.__init__(self, downloader)
        self._remove_chapters_patterns = set(remove_chapters_patterns or [])
        self._remove_sponsor_segments = set(remove_sponsor_segments or []) - set(SponsorBlockPP.POI_CATEGORIES.keys())
        self._ranges_to_remove = set(remove_ranges or [])
        self._sponsorblock_chapter_title = sponsorblock_chapter_title
        self._force_keyframes = force_keyframes

    @PostProcessor._restrict_to(images=False)
    def run(self, info):
        # Chapters must be preserved intact when downloading multiple formats of the same video.
        chapters, sponsor_chapters = self._mark_chapters_to_remove(
            copy.deepcopy(info.get('chapters')) or [],
            copy.deepcopy(info.get('sponsorblock_chapters')) or [])
        if not chapters and not sponsor_chapters:
            return [], info

        real_duration = self._get_real_video_duration(info['filepath'])
        if not chapters:
            chapters = [{'start_time': 0, 'end_time': real_duration, 'title': info['title']}]

        info['chapters'], cuts = self._remove_marked_arrange_sponsors(chapters + sponsor_chapters)
        if not cuts:
            return [], info

        if self._duration_mismatch(real_duration, info.get('duration')):
            if not self._duration_mismatch(real_duration, info['chapters'][-1]['end_time']):
                self.to_screen(f'Skipping {self.pp_key()} since the video appears to be already cut')
                return [], info
            if not info.get('__real_download'):
                raise PostProcessingError('Cannot cut video since the real and expected durations mismatch. '
                                          'Different chapters may have already been removed')
            else:
                self.write_debug('Expected and actual durations mismatch')

        concat_opts = self._make_concat_opts(cuts, real_duration)
        self.write_debug('Concat spec = %s' % ', '.join(f'{c.get("inpoint", 0.0)}-{c.get("outpoint", "inf")}' for c in concat_opts))

        def remove_chapters(file, is_sub):
            return file, self.remove_chapters(file, cuts, concat_opts, self._force_keyframes and not is_sub)

        in_out_files = [remove_chapters(info['filepath'], False)]
        in_out_files.extend(remove_chapters(in_file, True) for in_file in self._get_supported_subs(info))

        # Renaming should only happen after all files are processed
        files_to_remove = []
        for in_file, out_file in in_out_files:
            mtime = os.stat(in_file).st_mtime
            uncut_file = prepend_extension(in_file, 'uncut')
            os.replace(in_file, uncut_file)
            os.replace(out_file, in_file)
            self.try_utime(in_file, mtime, mtime)
            files_to_remove.append(uncut_file)

        return files_to_remove, info

    def _mark_chapters_to_remove(self, chapters, sponsor_chapters):
        if self._remove_chapters_patterns:
            warn_no_chapter_to_remove = True
            if not chapters:
                self.to_screen('Chapter information is unavailable')
                warn_no_chapter_to_remove = False
            for c in chapters:
                if any(regex.search(c['title']) for regex in self._remove_chapters_patterns):
                    c['remove'] = True
                    warn_no_chapter_to_remove = False
            if warn_no_chapter_to_remove:
                self.to_screen('There are no chapters matching the regex')

        if self._remove_sponsor_segments:
            warn_no_chapter_to_remove = True
            if not sponsor_chapters:
                self.to_screen('SponsorBlock information is unavailable')
                warn_no_chapter_to_remove = False
            for c in sponsor_chapters:
                if c['category'] in self._remove_sponsor_segments:
                    c['remove'] = True
                    warn_no_chapter_to_remove = False
            if warn_no_chapter_to_remove:
                self.to_screen('There are no matching SponsorBlock chapters')

        sponsor_chapters.extend({
            'start_time': start,
            'end_time': end,
            'category': 'manually_removed',
            '_categories': [('manually_removed', start, end)],
            'remove': True,
        } for start, end in self._ranges_to_remove)

        return chapters, sponsor_chapters

    def _get_supported_subs(self, info):
        for sub in (info.get('requested_subtitles') or {}).values():
            sub_file = sub.get('filepath')
            # The file might have been removed by --embed-subs
            if not sub_file or not os.path.exists(sub_file):
                continue
            ext = sub['ext']
            if ext not in FFmpegSubtitlesConvertorPP.SUPPORTED_EXTS:
                self.report_warning(f'Cannot remove chapters from external {ext} subtitles; "{sub_file}" is now out of sync')
                continue
            # TODO: create __real_download for subs?
            yield sub_file

    def _remove_marked_arrange_sponsors(self, chapters):
        # Store cuts separately, since adjacent and overlapping cuts must be merged.
        cuts = []

        def append_cut(c):
            assert 'remove' in c, 'Not a cut is appended to cuts'
            last_to_cut = cuts[-1] if cuts else None
            if last_to_cut and last_to_cut['end_time'] >= c['start_time']:
                last_to_cut['end_time'] = max(last_to_cut['end_time'], c['end_time'])
            else:
                cuts.append(c)
            return len(cuts) - 1

        def excess_duration(c):
            # Cuts that are completely within the chapter reduce chapters' duration.
            # Since cuts can overlap, excess duration may be less that the sum of cuts' durations.
            # To avoid that, chapter stores the index to the fist cut within the chapter,
            # instead of storing excess duration. append_cut ensures that subsequent cuts (if any)
            # will be merged with previous ones (if necessary).
            cut_idx, excess = c.pop('cut_idx', len(cuts)), 0
            while cut_idx < len(cuts):
                cut = cuts[cut_idx]
                if cut['start_time'] >= c['end_time']:
                    break
                if cut['end_time'] > c['start_time']:
                    excess += min(cut['end_time'], c['end_time'])
                    excess -= max(cut['start_time'], c['start_time'])
                cut_idx += 1
            return excess

        new_chapters = []

        def append_chapter(c):
            assert 'remove' not in c, 'Cut is appended to chapters'
            length = c['end_time'] - c['start_time'] - excess_duration(c)
            # Chapter is completely covered by cuts or sponsors.
            if length <= 0:
                return
            start = new_chapters[-1]['end_time'] if new_chapters else 0
            c.update(start_time=start, end_time=start + length)
            new_chapters.append(c)

        # Turn into a priority queue, index is a tie breaker.
        # Plain stack sorted by start_time is not enough: after splitting the chapter,
        # the part returned to the stack is not guaranteed to have start_time
        # less than or equal to the that of the stack's head.
        chapters = [(c['start_time'], i, c) for i, c in enumerate(chapters)]
        heapq.heapify(chapters)

        _, cur_i, cur_chapter = heapq.heappop(chapters)
        while chapters:
            _, i, c = heapq.heappop(chapters)
            # Non-overlapping chapters or cuts can be appended directly. However,
            # adjacent non-overlapping cuts must be merged, which is handled by append_cut.
            if cur_chapter['end_time'] <= c['start_time']:
                (append_chapter if 'remove' not in cur_chapter else append_cut)(cur_chapter)
                cur_i, cur_chapter = i, c
                continue

            # Eight possibilities for overlapping chapters: (cut, cut), (cut, sponsor),
            # (cut, normal), (sponsor, cut), (normal, cut), (sponsor, sponsor),
            # (sponsor, normal), and (normal, sponsor). There is no (normal, normal):
            # normal chapters are assumed not to overlap.
            if 'remove' in cur_chapter:
                # (cut, cut): adjust end_time.
                if 'remove' in c:
                    cur_chapter['end_time'] = max(cur_chapter['end_time'], c['end_time'])
                # (cut, sponsor/normal): chop the beginning of the later chapter
                # (if it's not completely hidden by the cut). Push to the priority queue
                # to restore sorting by start_time: with beginning chopped, c may actually
                # start later than the remaining chapters from the queue.
                elif cur_chapter['end_time'] < c['end_time']:
                    c['start_time'] = cur_chapter['end_time']
                    c['_was_cut'] = True
                    heapq.heappush(chapters, (c['start_time'], i, c))
            # (sponsor/normal, cut).
            elif 'remove' in c:
                cur_chapter['_was_cut'] = True
                # Chop the end of the current chapter if the cut is not contained within it.
                # Chopping the end doesn't break start_time sorting, no PQ push is necessary.
                if cur_chapter['end_time'] <= c['end_time']:
                    cur_chapter['end_time'] = c['start_time']
                    append_chapter(cur_chapter)
                    cur_i, cur_chapter = i, c
                    continue
                # Current chapter contains the cut within it. If the current chapter is
                # a sponsor chapter, check whether the categories before and after the cut differ.
                if '_categories' in cur_chapter:
                    after_c = dict(cur_chapter, start_time=c['end_time'], _categories=[])
                    cur_cats = []
                    for cat_start_end in cur_chapter['_categories']:
                        if cat_start_end[1] < c['start_time']:
                            cur_cats.append(cat_start_end)
                        if cat_start_end[2] > c['end_time']:
                            after_c['_categories'].append(cat_start_end)
                    cur_chapter['_categories'] = cur_cats
                    if cur_chapter['_categories'] != after_c['_categories']:
                        # Categories before and after the cut differ: push the after part to PQ.
                        heapq.heappush(chapters, (after_c['start_time'], cur_i, after_c))
                        cur_chapter['end_time'] = c['start_time']
                        append_chapter(cur_chapter)
                        cur_i, cur_chapter = i, c
                        continue
                # Either sponsor categories before and after the cut are the same or
                # we're dealing with a normal chapter. Just register an outstanding cut:
                # subsequent append_chapter will reduce the duration.
                cur_chapter.setdefault('cut_idx', append_cut(c))
            # (sponsor, normal): if a normal chapter is not completely overlapped,
            # chop the beginning of it and push it to PQ.
            elif '_categories' in cur_chapter and '_categories' not in c:
                if cur_chapter['end_time'] < c['end_time']:
                    c['start_time'] = cur_chapter['end_time']
                    c['_was_cut'] = True
                    heapq.heappush(chapters, (c['start_time'], i, c))
            # (normal, sponsor) and (sponsor, sponsor)
            else:
                assert '_categories' in c, 'Normal chapters overlap'
                cur_chapter['_was_cut'] = True
                c['_was_cut'] = True
                # Push the part after the sponsor to PQ.
                if cur_chapter['end_time'] > c['end_time']:
                    # deepcopy to make categories in after_c and cur_chapter/c refer to different lists.
                    after_c = dict(copy.deepcopy(cur_chapter), start_time=c['end_time'])
                    heapq.heappush(chapters, (after_c['start_time'], cur_i, after_c))
                # Push the part after the overlap to PQ.
                elif c['end_time'] > cur_chapter['end_time']:
                    after_cur = dict(copy.deepcopy(c), start_time=cur_chapter['end_time'])
                    heapq.heappush(chapters, (after_cur['start_time'], cur_i, after_cur))
                    c['end_time'] = cur_chapter['end_time']
                # (sponsor, sponsor): merge categories in the overlap.
                if '_categories' in cur_chapter:
                    c['_categories'] = cur_chapter['_categories'] + c['_categories']
                # Inherit the cuts that the current chapter has accumulated within it.
                if 'cut_idx' in cur_chapter:
                    c['cut_idx'] = cur_chapter['cut_idx']
                cur_chapter['end_time'] = c['start_time']
                append_chapter(cur_chapter)
                cur_i, cur_chapter = i, c
        (append_chapter if 'remove' not in cur_chapter else append_cut)(cur_chapter)
        return self._remove_tiny_rename_sponsors(new_chapters), cuts

    def _remove_tiny_rename_sponsors(self, chapters):
        new_chapters = []
        for i, c in enumerate(chapters):
            # Merge with the previous/next if the chapter is tiny.
            # Only tiny chapters resulting from a cut can be skipped.
            # Chapters that were already tiny in the original list will be preserved.
            if (('_was_cut' in c or '_categories' in c)
                    and c['end_time'] - c['start_time'] < _TINY_CHAPTER_DURATION):
                if not new_chapters:
                    # Prepend tiny chapter to the next one if possible.
                    if i < len(chapters) - 1:
                        chapters[i + 1]['start_time'] = c['start_time']
                        continue
                else:
                    old_c = new_chapters[-1]
                    if i < len(chapters) - 1:
                        next_c = chapters[i + 1]
                        # Not a typo: key names in old_c and next_c are really different.
                        prev_is_sponsor = 'categories' in old_c
                        next_is_sponsor = '_categories' in next_c
                        # Preferentially prepend tiny normals to normals and sponsors to sponsors.
                        if (('_categories' not in c and prev_is_sponsor and not next_is_sponsor)
                                or ('_categories' in c and not prev_is_sponsor and next_is_sponsor)):
                            next_c['start_time'] = c['start_time']
                            continue
                    old_c['end_time'] = c['end_time']
                    continue

            c.pop('_was_cut', None)
            cats = c.pop('_categories', None)
            if cats:
                category = min(cats, key=lambda c: c[2] - c[1])[0]
                cats = orderedSet(x[0] for x in cats)
                c.update({
                    'category': category,
                    'categories': cats,
                    'name': SponsorBlockPP.CATEGORIES[category],
                    'category_names': [SponsorBlockPP.CATEGORIES[c] for c in cats]
                })
                c['title'] = self._downloader.evaluate_outtmpl(self._sponsorblock_chapter_title, c.copy())
                # Merge identically named sponsors.
                if (new_chapters and 'categories' in new_chapters[-1]
                        and new_chapters[-1]['title'] == c['title']):
                    new_chapters[-1]['end_time'] = c['end_time']
                    continue
            new_chapters.append(c)
        return new_chapters

    def remove_chapters(self, filename, ranges_to_cut, concat_opts, force_keyframes=False):
        in_file = filename
        out_file = prepend_extension(in_file, 'temp')
        if force_keyframes:
            in_file = self.force_keyframes(in_file, (t for c in ranges_to_cut for t in (c['start_time'], c['end_time'])))
        self.to_screen(f'Removing chapters from {filename}')
        self.concat_files([in_file] * len(concat_opts), out_file, concat_opts)
        if in_file != filename:
            os.remove(in_file)
        return out_file

    @staticmethod
    def _make_concat_opts(chapters_to_remove, duration):
        opts = [{}]
        for s in chapters_to_remove:
            # Do not create 0 duration chunk at the beginning.
            if s['start_time'] == 0:
                opts[-1]['inpoint'] = f'{s["end_time"]:.6f}'
                continue
            opts[-1]['outpoint'] = f'{s["start_time"]:.6f}'
            # Do not create 0 duration chunk at the end.
            if s['end_time'] < duration:
                opts.append({'inpoint': f'{s["end_time"]:.6f}'})
        return opts