mirror of
https://github.com/LadybirdBrowser/ladybird.git
synced 2024-11-21 15:10:19 +00:00
474 lines
16 KiB
C++
474 lines
16 KiB
C++
/*
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* Copyright (c) 2021, sin-ack <sin-ack@protonmail.com>
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* Copyright (c) 2022, the SerenityOS developers.
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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/CircularBuffer.h>
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#include <AK/OwnPtr.h>
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#include <AK/Stream.h>
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namespace AK {
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template<typename T>
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concept StreamLike = IsBaseOf<Stream, T>;
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template<typename T>
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concept SeekableStreamLike = IsBaseOf<SeekableStream, T>;
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template<typename T>
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class BufferedHelper {
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AK_MAKE_NONCOPYABLE(BufferedHelper);
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AK_MAKE_DEFAULT_MOVABLE(BufferedHelper);
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public:
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template<StreamLike U>
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BufferedHelper(Badge<U>, NonnullOwnPtr<T> stream, CircularBuffer buffer)
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: m_stream(move(stream))
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, m_buffer(move(buffer))
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{
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}
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template<template<typename> typename BufferedType>
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static ErrorOr<NonnullOwnPtr<BufferedType<T>>> create_buffered(NonnullOwnPtr<T> stream, size_t buffer_size)
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{
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if (!buffer_size)
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return Error::from_errno(EINVAL);
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if (!stream->is_open())
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return Error::from_errno(ENOTCONN);
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auto buffer = TRY(CircularBuffer::create_empty(buffer_size));
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return adopt_nonnull_own_or_enomem(new BufferedType<T>(move(stream), move(buffer)));
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}
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T& stream() { return *m_stream; }
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T const& stream() const { return *m_stream; }
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ErrorOr<Bytes> read(Bytes buffer)
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{
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if (!stream().is_open())
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return Error::from_errno(ENOTCONN);
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if (buffer.is_empty())
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return buffer;
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// Fill the internal buffer if it has run dry.
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if (m_buffer.used_space() == 0)
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TRY(populate_read_buffer());
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// Let's try to take all we can from the buffer first.
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return m_buffer.read(buffer);
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}
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// Reads into the buffer until \n is encountered.
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// The size of the Bytes object is the maximum amount of bytes that will be
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// read. Returns the bytes read as a StringView.
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ErrorOr<StringView> read_line(Bytes buffer)
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{
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return StringView { TRY(read_until(buffer, "\n"sv)) };
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}
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ErrorOr<Bytes> read_until(Bytes buffer, StringView candidate)
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{
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return read_until_any_of(buffer, Array { candidate });
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}
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template<size_t N>
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ErrorOr<Bytes> read_until_any_of(Bytes buffer, Array<StringView, N> candidates)
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{
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if (!stream().is_open())
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return Error::from_errno(ENOTCONN);
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if (buffer.is_empty())
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return buffer;
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auto const candidate = TRY(find_and_populate_until_any_of(candidates, buffer.size()));
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if (stream().is_eof()) {
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if ((candidate.has_value() && candidate->offset + candidate->size > buffer.size())
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|| (!candidate.has_value() && buffer.size() < m_buffer.used_space())) {
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// Normally, reading from an EOFed stream and receiving bytes
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// would mean that the stream is no longer EOF. However, it's
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// possible with a buffered stream that the user is able to read
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// the buffer contents even when the underlying stream is EOF.
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// We already violate this invariant once by giving the user the
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// chance to read the remaining buffer contents, but if the user
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// doesn't give us a big enough buffer, then we would be
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// violating the invariant twice the next time the user attempts
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// to read, which is No Good. So let's give a descriptive error
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// to the caller about why it can't read.
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return Error::from_errno(EMSGSIZE);
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}
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}
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if (candidate.has_value()) {
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auto const read_bytes = m_buffer.read(buffer.trim(candidate->offset));
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TRY(m_buffer.discard(candidate->size));
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return read_bytes;
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}
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// If we still haven't found anything, then it's most likely the case
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// that the delimiter ends beyond the length of the caller-passed
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// buffer. Let's just fill the caller's buffer up.
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return m_buffer.read(buffer);
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}
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ErrorOr<StringView> read_line_with_resize(ByteBuffer& buffer)
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{
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return StringView { TRY(read_until_with_resize(buffer, "\n"sv)) };
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}
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ErrorOr<Bytes> read_until_with_resize(ByteBuffer& buffer, StringView candidate)
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{
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return read_until_any_of_with_resize(buffer, Array { candidate });
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}
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template<size_t N>
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ErrorOr<Bytes> read_until_any_of_with_resize(ByteBuffer& buffer, Array<StringView, N> candidates)
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{
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if (!stream().is_open())
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return Error::from_errno(ENOTCONN);
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auto candidate = TRY(find_and_populate_until_any_of(candidates));
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size_t bytes_read_to_user_buffer = 0;
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while (!candidate.has_value()) {
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if (m_buffer.used_space() == 0 && stream().is_eof()) {
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// If we read to the very end of the buffered and unbuffered data,
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// then treat the remainder as a full line (the last one), even if it
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// doesn't end in the delimiter.
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return buffer.span().trim(bytes_read_to_user_buffer);
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}
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if (buffer.size() - bytes_read_to_user_buffer < m_buffer.used_space()) {
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// Resize the user supplied buffer because it cannot fit
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// the contents of m_buffer.
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TRY(buffer.try_resize(buffer.size() + m_buffer.used_space()));
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}
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// Read bytes into the buffer starting from the offset of how many bytes have previously been read.
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bytes_read_to_user_buffer += m_buffer.read(buffer.span().slice(bytes_read_to_user_buffer)).size();
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candidate = TRY(find_and_populate_until_any_of(candidates));
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}
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// Once the candidate has been found, read the contents of m_buffer into the buffer,
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// offset by how many bytes have already been read in.
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TRY(buffer.try_resize(bytes_read_to_user_buffer + candidate->offset));
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m_buffer.read(buffer.span().slice(bytes_read_to_user_buffer));
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TRY(m_buffer.discard(candidate->size));
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return buffer.span();
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}
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struct Match {
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size_t offset {};
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size_t size {};
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};
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template<size_t N>
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ErrorOr<Optional<Match>> find_and_populate_until_any_of(Array<StringView, N> const& candidates, Optional<size_t> max_offset = {})
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{
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Optional<size_t> longest_candidate;
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for (auto& candidate : candidates) {
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if (candidate.length() >= longest_candidate.value_or(candidate.length()))
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longest_candidate = candidate.length();
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}
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// The intention here is to try to match all the possible
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// delimiter candidates and try to find the longest one we can
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// remove from the buffer after copying up to the delimiter to the
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// user buffer.
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auto const find_candidates = [this, &candidates, &longest_candidate](size_t min_offset, Optional<size_t> max_offset = {}) -> Optional<Match> {
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auto const corrected_minimum_offset = *longest_candidate > min_offset ? 0 : min_offset - *longest_candidate;
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max_offset = max_offset.value_or(m_buffer.used_space());
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Optional<size_t> longest_match;
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size_t match_size = 0;
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for (auto& candidate : candidates) {
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auto const result = m_buffer.offset_of(candidate, corrected_minimum_offset, *max_offset);
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if (result.has_value()) {
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auto previous_match = longest_match.value_or(*result);
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if ((previous_match < *result) || (previous_match == *result && match_size < candidate.length())) {
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longest_match = result;
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match_size = candidate.length();
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}
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}
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}
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if (longest_match.has_value())
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return Match { *longest_match, match_size };
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return {};
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};
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if (auto first_find = find_candidates(0, max_offset); first_find.has_value())
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return first_find;
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auto last_size = m_buffer.used_space();
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while (m_buffer.used_space() < max_offset.value_or(m_buffer.capacity())) {
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auto const read_bytes = TRY(populate_read_buffer());
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if (read_bytes == 0)
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break;
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if (auto first_find = find_candidates(last_size, max_offset); first_find.has_value())
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return first_find;
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last_size = m_buffer.used_space();
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}
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return Optional<Match> {};
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}
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// Populates the buffer, and returns whether it is possible to read up to the given delimiter.
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ErrorOr<bool> can_read_up_to_delimiter(ReadonlyBytes delimiter)
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{
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if (stream().is_eof())
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return m_buffer.offset_of(delimiter).has_value();
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auto maybe_match = TRY(find_and_populate_until_any_of(Array { StringView { delimiter } }));
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if (maybe_match.has_value())
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return true;
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return stream().is_eof() && m_buffer.offset_of(delimiter).has_value();
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}
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bool is_eof_with_data_left_over() const
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{
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return stream().is_eof() && m_buffer.used_space() > 0;
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}
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bool is_eof() const
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{
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if (m_buffer.used_space() > 0) {
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return false;
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}
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return stream().is_eof();
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}
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size_t buffer_size() const
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{
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return m_buffer.capacity();
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}
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size_t buffered_data_size() const
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{
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return m_buffer.used_space();
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}
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void clear_buffer()
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{
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m_buffer.clear();
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}
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ErrorOr<void> discard_bytes(size_t count)
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{
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return m_buffer.discard(count);
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}
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private:
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ErrorOr<size_t> populate_read_buffer()
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{
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if (m_buffer.empty_space() == 0)
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return 0;
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size_t nread = 0;
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while (true) {
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auto result = m_buffer.fill_from_stream(stream());
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if (result.is_error()) {
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if (!result.error().is_errno())
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return result.release_error();
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if (result.error().code() == EINTR)
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continue;
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if (result.error().code() == EAGAIN)
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break;
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return result.release_error();
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}
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nread += result.value();
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break;
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}
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return nread;
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}
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NonnullOwnPtr<T> m_stream;
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CircularBuffer m_buffer;
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};
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// NOTE: A Buffered which accepts any Stream could be added here, but it is not
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// needed at the moment.
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template<SeekableStreamLike T>
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class InputBufferedSeekable final : public SeekableStream {
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friend BufferedHelper<T>;
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public:
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static ErrorOr<NonnullOwnPtr<InputBufferedSeekable<T>>> create(NonnullOwnPtr<T> stream, size_t buffer_size = 16384)
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{
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return BufferedHelper<T>::template create_buffered<InputBufferedSeekable>(move(stream), buffer_size);
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}
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InputBufferedSeekable(InputBufferedSeekable&& other) = default;
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InputBufferedSeekable& operator=(InputBufferedSeekable&& other) = default;
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virtual ErrorOr<Bytes> read_some(Bytes buffer) override { return m_helper.read(buffer); }
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virtual ErrorOr<size_t> write_some(ReadonlyBytes buffer) override { return m_helper.stream().write_some(buffer); }
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virtual bool is_eof() const override { return m_helper.is_eof(); }
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virtual bool is_open() const override { return m_helper.stream().is_open(); }
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virtual void close() override { m_helper.stream().close(); }
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virtual ErrorOr<size_t> seek(i64 offset, SeekMode mode) override
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{
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if (mode == SeekMode::FromCurrentPosition) {
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// If possible, seek using the buffer alone.
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if (0 <= offset && static_cast<u64>(offset) <= m_helper.buffered_data_size()) {
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MUST(m_helper.discard_bytes(offset));
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return TRY(m_helper.stream().tell()) - m_helper.buffered_data_size();
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}
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offset = offset - m_helper.buffered_data_size();
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}
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auto result = TRY(m_helper.stream().seek(offset, mode));
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m_helper.clear_buffer();
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return result;
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}
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virtual ErrorOr<void> truncate(size_t length) override
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{
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return m_helper.stream().truncate(length);
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}
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ErrorOr<StringView> read_line(Bytes buffer) { return m_helper.read_line(buffer); }
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ErrorOr<bool> can_read_line()
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{
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return TRY(m_helper.can_read_up_to_delimiter("\n"sv.bytes())) || m_helper.is_eof_with_data_left_over();
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}
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ErrorOr<Bytes> read_until(Bytes buffer, StringView candidate) { return m_helper.read_until(buffer, candidate); }
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template<size_t N>
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ErrorOr<Bytes> read_until_any_of(Bytes buffer, Array<StringView, N> candidates) { return m_helper.read_until_any_of(buffer, move(candidates)); }
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ErrorOr<bool> can_read_up_to_delimiter(ReadonlyBytes delimiter) { return m_helper.can_read_up_to_delimiter(delimiter); }
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// Methods for reading stream into an auto-adjusting buffer
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ErrorOr<StringView> read_line_with_resize(ByteBuffer& buffer) { return m_helper.read_line_with_resize(buffer); }
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ErrorOr<Bytes> read_until_with_resize(ByteBuffer& buffer, StringView candidate) { return m_helper.read_until_with_resize(buffer, candidate); }
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template<size_t N>
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ErrorOr<Bytes> read_until_any_of_with_resize(ByteBuffer& buffer, Array<StringView, N> candidates) { return m_helper.read_until_any_of_with_resize(buffer, move(candidates)); }
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size_t buffer_size() const { return m_helper.buffer_size(); }
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virtual ~InputBufferedSeekable() override = default;
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private:
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InputBufferedSeekable(NonnullOwnPtr<T> stream, CircularBuffer buffer)
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: m_helper(Badge<InputBufferedSeekable<T>> {}, move(stream), move(buffer))
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{
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}
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BufferedHelper<T> m_helper;
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};
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template<SeekableStreamLike T>
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class OutputBufferedSeekable : public SeekableStream {
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public:
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static ErrorOr<NonnullOwnPtr<OutputBufferedSeekable<T>>> create(NonnullOwnPtr<T> stream, size_t buffer_size = 16 * KiB)
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{
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if (buffer_size == 0)
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return Error::from_errno(EINVAL);
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if (!stream->is_open())
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return Error::from_errno(ENOTCONN);
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auto buffer = TRY(CircularBuffer::create_empty(buffer_size));
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return adopt_nonnull_own_or_enomem(new OutputBufferedSeekable<T>(move(stream), move(buffer)));
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}
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OutputBufferedSeekable(OutputBufferedSeekable&& other) = default;
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OutputBufferedSeekable& operator=(OutputBufferedSeekable&& other) = default;
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virtual ErrorOr<Bytes> read_some(Bytes buffer) override
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{
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TRY(flush_buffer());
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return m_stream->read_some(buffer);
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}
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virtual ErrorOr<size_t> write_some(ReadonlyBytes buffer) override
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{
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if (!m_stream->is_open())
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return Error::from_errno(ENOTCONN);
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auto const written = m_buffer.write(buffer);
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if (m_buffer.empty_space() == 0)
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TRY(m_buffer.flush_to_stream(*m_stream));
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return written;
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}
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virtual bool is_eof() const override
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{
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MUST(flush_buffer());
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return m_stream->is_eof();
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}
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virtual bool is_open() const override { return m_stream->is_open(); }
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virtual void close() override
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{
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MUST(flush_buffer());
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m_stream->close();
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}
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ErrorOr<void> flush_buffer() const
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{
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while (m_buffer.used_space() > 0)
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TRY(m_buffer.flush_to_stream(*m_stream));
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return {};
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}
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// Since tell() doesn't involve moving the write offset, we can skip flushing the buffer here.
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virtual ErrorOr<size_t> tell() const override
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{
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return TRY(m_stream->tell()) + m_buffer.used_space();
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}
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virtual ErrorOr<size_t> seek(i64 offset, SeekMode mode) override
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{
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TRY(flush_buffer());
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return m_stream->seek(offset, mode);
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}
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virtual ErrorOr<void> truncate(size_t length) override
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{
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TRY(flush_buffer());
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return m_stream->truncate(length);
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}
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virtual ~OutputBufferedSeekable() override
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{
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MUST(flush_buffer());
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}
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private:
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OutputBufferedSeekable(NonnullOwnPtr<T> stream, CircularBuffer buffer)
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: m_stream(move(stream))
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, m_buffer(move(buffer))
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{
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}
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mutable NonnullOwnPtr<T> m_stream;
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mutable CircularBuffer m_buffer;
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};
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}
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#if USING_AK_GLOBALLY
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using AK::BufferedHelper;
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using AK::InputBufferedSeekable;
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using AK::OutputBufferedSeekable;
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#endif
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