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https://github.com/RGBCube/serenity
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f07847e099
These instances were detected by searching for files that include AK/Concepts.h, but don't match the regex: \\b(AnyString|Arithmetic|ArrayLike|DerivedFrom|Enum|FallibleFunction|Flo atingPoint|Fundamental|HashCompatible|Indexable|Integral|IterableContain er|IteratorFunction|IteratorPairWith|OneOf|OneOfIgnoringCV|SameAs|Signed |SpecializationOf|Unsigned|VoidFunction)\\b (Without the linebreaks.) This regex is pessimistic, so there might be more files that don't actually use any concepts. In theory, one might use LibCPP to detect things like this automatically, but let's do this one step after another.
168 lines
4.7 KiB
C++
168 lines
4.7 KiB
C++
/*
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* Copyright (c) 2021, Hunter Salyer <thefalsehonesty@gmail.com>
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* Copyright (c) 2022, Gregory Bertilson <Zaggy1024@gmail.com>
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*
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* SPDX-License-Identifier: BSD-2-Clause
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*/
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#pragma once
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#include <AK/IntegralMath.h>
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#include <AK/NonnullOwnPtrVector.h>
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#include <AK/Optional.h>
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#include <AK/OwnPtr.h>
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#include <LibCore/MappedFile.h>
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#include <LibVideo/DecoderError.h>
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#include "Document.h"
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namespace Video::Matroska {
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class SampleIterator;
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class Streamer;
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class Reader {
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public:
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typedef Function<DecoderErrorOr<IterationDecision>(TrackEntry const&)> TrackEntryCallback;
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static DecoderErrorOr<Reader> from_file(StringView path);
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static DecoderErrorOr<Reader> from_data(ReadonlyBytes data);
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EBMLHeader const& header() const { return m_header.value(); }
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DecoderErrorOr<SegmentInformation> segment_information();
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DecoderErrorOr<void> for_each_track(TrackEntryCallback);
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DecoderErrorOr<void> for_each_track_of_type(TrackEntry::TrackType, TrackEntryCallback);
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DecoderErrorOr<TrackEntry> track_for_track_number(u64);
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DecoderErrorOr<size_t> track_count();
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DecoderErrorOr<SampleIterator> create_sample_iterator(u64 track_number);
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DecoderErrorOr<void> seek_to_random_access_point(SampleIterator&, Time);
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DecoderErrorOr<Optional<Vector<CuePoint> const&>> cue_points_for_track(u64 track_number);
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DecoderErrorOr<bool> has_cues_for_track(u64 track_number);
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private:
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Reader(ReadonlyBytes data)
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: m_data(data)
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{
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}
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DecoderErrorOr<void> parse_initial_data();
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DecoderErrorOr<Optional<size_t>> find_first_top_level_element_with_id([[maybe_unused]] StringView element_name, u32 element_id);
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DecoderErrorOr<void> ensure_tracks_are_parsed();
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DecoderErrorOr<void> parse_tracks(Streamer&);
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DecoderErrorOr<void> parse_cues(Streamer&);
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DecoderErrorOr<void> ensure_cues_are_parsed();
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DecoderErrorOr<void> seek_to_cue_for_timestamp(SampleIterator&, Time const&);
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RefPtr<Core::MappedFile> m_mapped_file;
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ReadonlyBytes m_data;
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Optional<EBMLHeader> m_header;
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size_t m_segment_contents_position { 0 };
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size_t m_segment_contents_size { 0 };
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HashMap<u32, size_t> m_seek_entries;
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size_t m_last_top_level_element_position { 0 };
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Optional<SegmentInformation> m_segment_information;
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OrderedHashMap<u64, TrackEntry> m_tracks;
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// The vectors must be sorted by timestamp at all times.
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HashMap<u64, Vector<CuePoint>> m_cues;
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bool m_cues_have_been_parsed { false };
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};
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class SampleIterator {
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public:
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DecoderErrorOr<Block> next_block();
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Cluster const& current_cluster() { return *m_current_cluster; }
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Time const& last_timestamp() { return m_last_timestamp; }
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private:
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friend class Reader;
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SampleIterator(RefPtr<Core::MappedFile> file, ReadonlyBytes data, TrackEntry track, u64 timestamp_scale, size_t position)
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: m_file(move(file))
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, m_data(data)
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, m_track(move(track))
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, m_segment_timestamp_scale(timestamp_scale)
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, m_position(position)
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{
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}
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DecoderErrorOr<void> set_position(size_t position);
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DecoderErrorOr<void> seek_to_cue_point(CuePoint const& cue_point);
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RefPtr<Core::MappedFile> m_file;
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ReadonlyBytes m_data;
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TrackEntry m_track;
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u64 m_segment_timestamp_scale { 0 };
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// Must always point to an element ID or the end of the stream.
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size_t m_position { 0 };
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Time m_last_timestamp { Time::min() };
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Optional<Cluster> m_current_cluster;
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};
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class Streamer {
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public:
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Streamer(ReadonlyBytes data)
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: m_data(data)
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{
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}
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u8 const* data() { return m_data.data() + m_position; }
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char const* data_as_chars() { return reinterpret_cast<char const*>(data()); }
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size_t octets_read() { return m_octets_read.last(); }
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void push_octets_read() { m_octets_read.append(0); }
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void pop_octets_read()
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{
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auto popped = m_octets_read.take_last();
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if (!m_octets_read.is_empty())
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m_octets_read.last() += popped;
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}
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ErrorOr<u8> read_octet();
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ErrorOr<i16> read_i16();
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ErrorOr<u64> read_variable_size_integer(bool mask_length = true);
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ErrorOr<i64> read_variable_size_signed_integer();
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ErrorOr<u64> read_u64();
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ErrorOr<double> read_float();
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ErrorOr<DeprecatedString> read_string();
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ErrorOr<void> read_unknown_element();
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ErrorOr<ReadonlyBytes> read_raw_octets(size_t num_octets);
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size_t position() const { return m_position; }
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size_t remaining() const { return m_data.size() - position(); }
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bool at_end() const { return remaining() == 0; }
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bool has_octet() const { return remaining() >= 1; }
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ErrorOr<void> seek_to_position(size_t position);
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private:
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ReadonlyBytes m_data;
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size_t m_position { 0 };
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Vector<size_t> m_octets_read { 0 };
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};
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}
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