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For example, consider cases where we want to propagate errors only in specific instances: auto result = read_data(); // something like ErrorOr<ByteBuffer> if (result.is_error() && result.error().code() != EINTR) continue; auto bytes = TRY(result); The TRY invocation will currently copy the byte buffer when the expression (in this case, just a local variable) is stored into _temporary_result. This patch binds the expression to a reference to prevent such copies. In less trival invocations (such as TRY(some_function()), this will incur only temporary lifetime extensions, i.e. no functional change.
117 lines
5.9 KiB
C++
117 lines
5.9 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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#include <AK/Function.h>
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#include <LibCore/ArgsParser.h>
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#include <LibMain/Main.h>
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#include <LibVideo/Containers/Matroska/Reader.h>
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#define TRY_PARSE(expression) \
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({ \
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auto&& _temporary_result = ((expression)); \
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if (_temporary_result.is_error()) [[unlikely]] { \
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outln("Encountered a parsing error: {}", _temporary_result.error().string_literal()); \
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return Error::from_string_literal("Failed to parse :("); \
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} \
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static_assert(!::AK::Detail::IsLvalueReference<decltype(_temporary_result.release_value())>, \
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"Do not return a reference from a fallible expression"); \
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_temporary_result.release_value(); \
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})
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ErrorOr<int> serenity_main(Main::Arguments arguments)
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{
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StringView filename;
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bool blocks = false;
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bool cues = false;
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u64 track_number = 0;
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Core::ArgsParser args_parser;
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args_parser.add_option(blocks, "Print blocks for each track.", "blocks", 'b');
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args_parser.add_option(cues, "Print cue points for each track.", "cues", 'c');
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args_parser.add_option<u64>(track_number, "Specify a track number to print info for, omit to print all of them.", "track", 't', "tracknumber");
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args_parser.add_positional_argument(filename, "The video file to display.", "filename", Core::ArgsParser::Required::Yes);
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args_parser.parse(arguments);
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auto reader = TRY_PARSE(Video::Matroska::Reader::from_file(filename));
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outln("DocType is {}", reader.header().doc_type.characters());
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outln("DocTypeVersion is {}", reader.header().doc_type_version);
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auto segment_information = TRY_PARSE(reader.segment_information());
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outln("Timestamp scale is {}", segment_information.timestamp_scale());
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outln("Muxing app is \"{}\"", segment_information.muxing_app().as_string().to_deprecated_string().characters());
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outln("Writing app is \"{}\"", segment_information.writing_app().as_string().to_deprecated_string().characters());
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outln("Document has {} tracks", TRY_PARSE(reader.track_count()));
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TRY_PARSE(reader.for_each_track([&](Video::Matroska::TrackEntry const& track_entry) -> Video::DecoderErrorOr<IterationDecision> {
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if (track_number != 0 && track_entry.track_number() != track_number)
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return IterationDecision::Continue;
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outln("\tTrack #{} with TrackID {}", track_entry.track_number(), track_entry.track_uid());
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outln("\tTrack has TrackType {}", static_cast<u8>(track_entry.track_type()));
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outln("\tTrack has Language \"{}\"", track_entry.language().characters());
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outln("\tTrack has CodecID \"{}\"", track_entry.codec_id().characters());
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outln("\tTrack has TrackTimestampScale {}", track_entry.timestamp_scale());
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outln("\tTrack has CodecDelay {}", track_entry.codec_delay());
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if (track_entry.track_type() == Video::Matroska::TrackEntry::TrackType::Video) {
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auto const video_track = track_entry.video_track().value();
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outln("\t\tVideo is {} pixels wide by {} pixels tall", video_track.pixel_width, video_track.pixel_height);
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} else if (track_entry.track_type() == Video::Matroska::TrackEntry::TrackType::Audio) {
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auto const audio_track = track_entry.audio_track().value();
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outln("\t\tAudio has {} channels with a bit depth of {}", audio_track.channels, audio_track.bit_depth);
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}
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if (cues) {
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auto const& cue_points = TRY(reader.cue_points_for_track(track_entry.track_number()));
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if (cue_points.has_value()) {
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outln("\tCues points:");
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for (auto const& cue_point : cue_points.value()) {
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outln("\t\tCue point at {}ms:", cue_point.timestamp().to_milliseconds());
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auto const& track_position = cue_point.position_for_track(track_entry.track_number());
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if (!track_position.has_value()) {
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outln("\t\t\tCue point has no positions for this track, this should not happen");
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continue;
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}
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outln("\t\t\tCluster position {}", track_position->cluster_position());
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outln("\t\t\tBlock offset {}", track_position->block_offset());
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}
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} else {
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outln("\tNo cue points exist for this track");
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}
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}
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if (blocks) {
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outln("\tBlocks:");
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auto iterator = TRY(reader.create_sample_iterator(track_entry.track_number()));
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while (true) {
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auto block_result = iterator.next_block();
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if (block_result.is_error()) {
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if (block_result.error().category() == Video::DecoderErrorCategory::EndOfStream)
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break;
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return block_result.release_error();
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}
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auto block = block_result.release_value();
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outln("\t\tBlock at timestamp {}ms:", block.timestamp().to_milliseconds());
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if (block.only_keyframes())
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outln("\t\t\tThis block contains only keyframes");
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outln("\t\t\tContains {} frames", block.frame_count());
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outln("\t\t\tLacing is {}", static_cast<u8>(block.lacing()));
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}
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}
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if (track_number != 0)
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return IterationDecision::Break;
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return IterationDecision::Continue;
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}));
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return 0;
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}
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