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f12e81b74a
The class is very similar to `CircularDuplexStream` in its behavior. Main differences are that `CircularBuffer`: - does not inherit from `AK::Stream` - uses `ErrorOr` for its API - is heap allocated (and OOM-Safe) This patch also add some tests.
140 lines
3.4 KiB
C++
140 lines
3.4 KiB
C++
/*
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* Copyright (c) 2022, Lucas Chollet <lucas.chollet@free.fr>
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*
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* SPDX-License-Identifier: BSD-2-Clause
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*/
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#include <AK/CircularBuffer.h>
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#include <AK/MemMem.h>
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namespace AK {
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CircularBuffer::CircularBuffer(ByteBuffer buffer)
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: m_buffer(move(buffer))
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{
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}
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ErrorOr<CircularBuffer> CircularBuffer::create_empty(size_t size)
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{
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auto temporary_buffer = TRY(ByteBuffer::create_uninitialized(size));
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CircularBuffer circular_buffer { move(temporary_buffer) };
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return circular_buffer;
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}
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ErrorOr<CircularBuffer> CircularBuffer::create_initialized(ByteBuffer buffer)
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{
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CircularBuffer circular_buffer { move(buffer) };
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circular_buffer.m_used_space = circular_buffer.m_buffer.size();
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return circular_buffer;
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}
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size_t CircularBuffer::empty_space() const
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{
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return capacity() - m_used_space;
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}
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size_t CircularBuffer::used_space() const
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{
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return m_used_space;
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}
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size_t CircularBuffer::capacity() const
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{
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return m_buffer.size();
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}
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bool CircularBuffer::is_wrapping_around() const
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{
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return capacity() <= m_reading_head + m_used_space;
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}
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Optional<size_t> CircularBuffer::offset_of(StringView needle, Optional<size_t> until) const
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{
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auto const read_until = until.value_or(m_used_space);
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Array<ReadonlyBytes, 2> spans {};
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spans[0] = next_read_span();
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if (spans[0].size() > read_until)
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spans[0] = spans[0].trim(read_until);
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else if (is_wrapping_around())
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spans[1] = m_buffer.span().slice(0, read_until - spans[0].size());
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return AK::memmem(spans.begin(), spans.end(), needle.bytes());
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}
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void CircularBuffer::clear()
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{
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m_reading_head = 0;
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m_used_space = 0;
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}
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Bytes CircularBuffer::next_write_span()
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{
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if (is_wrapping_around())
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return m_buffer.span().slice(m_reading_head + m_used_space - capacity(), capacity() - m_used_space);
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return m_buffer.span().slice(m_reading_head + m_used_space, capacity() - (m_reading_head + m_used_space));
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}
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ReadonlyBytes CircularBuffer::next_read_span() const
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{
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return m_buffer.span().slice(m_reading_head, min(capacity() - m_reading_head, m_used_space));
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}
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size_t CircularBuffer::write(ReadonlyBytes bytes)
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{
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auto remaining = bytes.size();
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while (remaining > 0) {
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auto const next_span = next_write_span();
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if (next_span.size() == 0)
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break;
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auto const written_bytes = bytes.slice(bytes.size() - remaining).copy_trimmed_to(next_span);
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m_used_space += written_bytes;
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remaining -= written_bytes;
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}
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return bytes.size() - remaining;
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}
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Bytes CircularBuffer::read(Bytes bytes)
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{
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auto remaining = bytes.size();
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while (remaining > 0) {
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auto const next_span = next_read_span();
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if (next_span.size() == 0)
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break;
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auto written_bytes = next_span.copy_trimmed_to(bytes.slice(bytes.size() - remaining));
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m_used_space -= written_bytes;
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m_reading_head += written_bytes;
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if (m_reading_head >= capacity())
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m_reading_head -= capacity();
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remaining -= written_bytes;
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}
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return bytes.trim(bytes.size() - remaining);
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}
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ErrorOr<void> CircularBuffer::discard(size_t discarding_size)
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{
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if (m_used_space < discarding_size)
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return Error::from_string_literal("Can not discard more data than what the buffer contains");
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m_used_space -= discarding_size;
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m_reading_head = (m_reading_head + discarding_size) % capacity();
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return {};
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}
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}
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