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559 lines
14 KiB
C++
559 lines
14 KiB
C++
//
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// FIFOBuffer.h
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//
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// $Id: //poco/1.4/Foundation/include/Poco/FIFOBuffer.h#2 $
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//
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// Library: Foundation
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// Package: Core
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// Module: FIFOBuffer
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//
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// Definition of the FIFOBuffer class.
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//
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// Copyright (c) 2006, Applied Informatics Software Engineering GmbH.
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// and Contributors.
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//
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// SPDX-License-Identifier: BSL-1.0
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//
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#ifndef Foundation_FIFOBuffer_INCLUDED
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#define Foundation_FIFOBuffer_INCLUDED
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#include "Poco/Foundation.h"
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#include "Poco/Exception.h"
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#include "Poco/Buffer.h"
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#include "Poco/BasicEvent.h"
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#include "Poco/Mutex.h"
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#include "Poco/Format.h"
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namespace Poco {
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template <class T>
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class BasicFIFOBuffer
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/// A simple buffer class with support for re-entrant,
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/// FIFO-style read/write operations, as well as (optional)
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/// empty/non-empty/full (i.e. writable/readable) transition
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/// notifications. Buffer can be flagged with end-of-file and
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/// error flags, which renders it un-readable/writable.
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///
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/// Critical portions of code are protected by a recursive mutex.
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/// However, to achieve thread-safety in cases where multiple
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/// member function calls are involved and have to be atomic,
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/// the mutex must be locked externally.
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///
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/// Buffer size, as well as amount of unread data and
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/// available space introspections are supported as well.
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///
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/// This class is useful anywhere where a FIFO functionality
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/// is needed.
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{
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public:
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typedef T Type;
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mutable Poco::BasicEvent<bool> writable;
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/// Event indicating "writability" of the buffer,
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/// triggered as follows:
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///
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/// * when buffer transitions from non-full to full,
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/// Writable event observers are notified, with
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/// false value as the argument
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///
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/// * when buffer transitions from full to non-full,
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/// Writable event observers are notified, with
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/// true value as the argument
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mutable Poco::BasicEvent<bool> readable;
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/// Event indicating "readability" of the buffer,
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/// triggered as follows:
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///
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/// * when buffer transitions from non-empty to empty,
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/// Readable event observers are notified, with false
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/// value as the argument
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///
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/// * when FIFOBuffer transitions from empty to non-empty,
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/// Readable event observers are notified, with true value
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/// as the argument
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BasicFIFOBuffer(std::size_t size, bool notify = false):
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_buffer(size),
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_begin(0),
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_used(0),
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_notify(notify),
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_eof(false),
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_error(false)
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/// Creates the FIFOBuffer.
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{
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}
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BasicFIFOBuffer(T* pBuffer, std::size_t size, bool notify = false):
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_buffer(pBuffer, size),
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_begin(0),
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_used(0),
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_notify(notify),
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_eof(false),
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_error(false)
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/// Creates the FIFOBuffer.
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{
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}
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BasicFIFOBuffer(const T* pBuffer, std::size_t size, bool notify = false):
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_buffer(pBuffer, size),
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_begin(0),
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_used(size),
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_notify(notify),
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_eof(false),
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_error(false)
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/// Creates the FIFOBuffer.
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{
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}
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~BasicFIFOBuffer()
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/// Destroys the FIFOBuffer.
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{
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}
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void resize(std::size_t newSize, bool preserveContent = true)
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/// Resizes the buffer. If preserveContent is true,
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/// the content of the old buffer is preserved.
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/// New size can be larger or smaller than
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/// the current size, but it must not be 0.
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/// Additionally, if the new length is smaller
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/// than currently used length and preserveContent
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/// is true, InvalidAccessException is thrown.
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{
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Mutex::ScopedLock lock(_mutex);
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if (preserveContent && (newSize < _used))
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throw InvalidAccessException("Can not resize FIFO without data loss.");
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std::size_t usedBefore = _used;
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_buffer.resize(newSize, preserveContent);
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if (!preserveContent) _used = 0;
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if (_notify) notify(usedBefore);
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}
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std::size_t peek(T* pBuffer, std::size_t length) const
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/// Peeks into the data currently in the FIFO
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/// without actually extracting it.
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/// If length is zero, the return is immediate.
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/// If length is greater than used length,
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/// it is substituted with the the current FIFO
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/// used length.
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///
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/// Returns the number of elements copied in the
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/// supplied buffer.
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{
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if (0 == length) return 0;
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Mutex::ScopedLock lock(_mutex);
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if (!isReadable()) return 0;
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if (length > _used) length = _used;
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std::memcpy(pBuffer, _buffer.begin() + _begin, length * sizeof(T));
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return length;
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}
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std::size_t peek(Poco::Buffer<T>& buffer, std::size_t length = 0) const
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/// Peeks into the data currently in the FIFO
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/// without actually extracting it.
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/// Resizes the supplied buffer to the size of
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/// data written to it. If length is not
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/// supplied by the caller or is greater than length
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/// of currently used data, the current FIFO used
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/// data length is substituted for it.
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///
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/// Returns the number of elements copied in the
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/// supplied buffer.
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{
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Mutex::ScopedLock lock(_mutex);
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if (!isReadable()) return 0;
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if (0 == length || length > _used) length = _used;
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buffer.resize(length);
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return peek(buffer.begin(), length);
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}
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std::size_t read(T* pBuffer, std::size_t length)
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/// Copies the data currently in the FIFO
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/// into the supplied buffer, which must be
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/// preallocated to at least the length size
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/// before calling this function.
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///
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/// Returns the size of the copied data.
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{
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if (0 == length) return 0;
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Mutex::ScopedLock lock(_mutex);
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if (!isReadable()) return 0;
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std::size_t usedBefore = _used;
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std::size_t readLen = peek(pBuffer, length);
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poco_assert (_used >= readLen);
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_used -= readLen;
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if (0 == _used) _begin = 0;
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else _begin += length;
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if (_notify) notify(usedBefore);
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return readLen;
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}
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std::size_t read(Poco::Buffer<T>& buffer, std::size_t length = 0)
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/// Copies the data currently in the FIFO
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/// into the supplied buffer.
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/// Resizes the supplied buffer to the size of
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/// data written to it.
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///
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/// Returns the size of the copied data.
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{
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Mutex::ScopedLock lock(_mutex);
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if (!isReadable()) return 0;
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std::size_t usedBefore = _used;
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std::size_t readLen = peek(buffer, length);
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poco_assert (_used >= readLen);
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_used -= readLen;
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if (0 == _used) _begin = 0;
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else _begin += length;
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if (_notify) notify(usedBefore);
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return readLen;
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}
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std::size_t write(const T* pBuffer, std::size_t length)
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/// Writes data from supplied buffer to the FIFO buffer.
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/// If there is no sufficient space for the whole
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/// buffer to be written, data up to available
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/// length is written.
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/// The length of data to be written is determined from the
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/// length argument. Function does nothing and returns zero
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/// if length argument is equal to zero.
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///
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/// Returns the length of data written.
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{
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if (0 == length) return 0;
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Mutex::ScopedLock lock(_mutex);
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if (!isWritable()) return 0;
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if (_buffer.size() - (_begin + _used) < length)
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{
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std::memmove(_buffer.begin(), begin(), _used * sizeof(T));
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_begin = 0;
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}
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std::size_t usedBefore = _used;
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std::size_t available = _buffer.size() - _used - _begin;
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std::size_t len = length > available ? available : length;
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std::memcpy(begin() + _used, pBuffer, len * sizeof(T));
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_used += len;
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poco_assert (_used <= _buffer.size());
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if (_notify) notify(usedBefore);
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return len;
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}
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std::size_t write(const Buffer<T>& buffer, std::size_t length = 0)
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/// Writes data from supplied buffer to the FIFO buffer.
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/// If there is no sufficient space for the whole
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/// buffer to be written, data up to available
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/// length is written.
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/// The length of data to be written is determined from the
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/// length argument or buffer size (when length argument is
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/// default zero or greater than buffer size).
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///
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/// Returns the length of data written.
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{
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if (length == 0 || length > buffer.size())
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length = buffer.size();
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return write(buffer.begin(), length);
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}
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std::size_t size() const
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/// Returns the size of the buffer.
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{
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return _buffer.size();
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}
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std::size_t used() const
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/// Returns the size of the used portion of the buffer.
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{
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return _used;
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}
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std::size_t available() const
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/// Returns the size of the available portion of the buffer.
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{
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return size() - _used;
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}
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void drain(std::size_t length = 0)
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/// Drains length number of elements from the buffer.
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/// If length is zero or greater than buffer current
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/// content length, buffer is emptied.
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{
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Mutex::ScopedLock lock(_mutex);
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std::size_t usedBefore = _used;
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if (0 == length || length >= _used)
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{
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_begin = 0;
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_used = 0;
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}
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else
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{
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_begin += length;
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_used -= length;
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}
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if (_notify) notify(usedBefore);
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}
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void copy(const T* ptr, std::size_t length)
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/// Copies the supplied data to the buffer and adjusts
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/// the used buffer size.
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{
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poco_check_ptr(ptr);
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if (0 == length) return;
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Mutex::ScopedLock lock(_mutex);
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if (length > available())
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throw Poco::InvalidAccessException("Cannot extend buffer.");
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if (!isWritable())
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throw Poco::InvalidAccessException("Buffer not writable.");
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std::memcpy(&_buffer[_used], ptr, length * sizeof(T));
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std::size_t usedBefore = _used;
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_used += length;
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if (_notify) notify(usedBefore);
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}
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void advance(std::size_t length)
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/// Advances buffer by length elements.
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/// Should be called AFTER the data
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/// was copied into the buffer.
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{
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Mutex::ScopedLock lock(_mutex);
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if (length > available())
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throw Poco::InvalidAccessException("Cannot extend buffer.");
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if (!isWritable())
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throw Poco::InvalidAccessException("Buffer not writable.");
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if (_buffer.size() - (_begin + _used) < length)
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{
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std::memmove(_buffer.begin(), begin(), _used * sizeof(T));
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_begin = 0;
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}
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std::size_t usedBefore = _used;
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_used += length;
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if (_notify) notify(usedBefore);
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}
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T* begin()
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/// Returns the pointer to the beginning of the buffer.
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{
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Mutex::ScopedLock lock(_mutex);
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if (_begin != 0)
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{
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// Move the data to the start of the buffer so begin() and next()
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// always return consistent pointers with each other and allow writing
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// to the end of the buffer.
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std::memmove(_buffer.begin(), _buffer.begin() + _begin, _used * sizeof(T));
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_begin = 0;
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}
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return _buffer.begin();
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}
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T* next()
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/// Returns the pointer to the next available position in the buffer.
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{
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Mutex::ScopedLock lock(_mutex);
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return begin() + _used;
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}
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T& operator [] (std::size_t index)
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/// Returns value at index position.
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/// Throws InvalidAccessException if index is larger than
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/// the last valid (used) buffer position.
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{
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Mutex::ScopedLock lock(_mutex);
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if (index >= _used)
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throw InvalidAccessException(format("Index out of bounds: %z (max index allowed: %z)", index, _used - 1));
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return _buffer[_begin + index];
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}
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const T& operator [] (std::size_t index) const
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/// Returns value at index position.
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/// Throws InvalidAccessException if index is larger than
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/// the last valid (used) buffer position.
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{
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Mutex::ScopedLock lock(_mutex);
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if (index >= _used)
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throw InvalidAccessException(format("Index out of bounds: %z (max index allowed: %z)", index, _used - 1));
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return _buffer[_begin + index];
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}
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const Buffer<T>& buffer() const
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/// Returns const reference to the underlying buffer.
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{
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return _buffer;
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}
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void setError(bool error = true)
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/// Sets the error flag on the buffer and empties it.
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/// If notifications are enabled, they will be triggered
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/// if appropriate.
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///
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/// Setting error flag to true prevents reading and writing
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/// to the buffer; to re-enable FIFOBuffer for reading/writing,
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/// the error flag must be set to false.
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{
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if (error)
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{
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bool f = false;
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Mutex::ScopedLock lock(_mutex);
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if (error && isReadable() && _notify) readable.notify(this, f);
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if (error && isWritable() && _notify) writable.notify(this, f);
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_error = error;
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_used = 0;
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}
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else
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{
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bool t = true;
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Mutex::ScopedLock lock(_mutex);
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_error = false;
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if (_notify && !_eof) writable.notify(this, t);
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}
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}
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bool isValid() const
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/// Returns true if error flag is not set on the buffer,
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/// otherwise returns false.
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{
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return !_error;
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}
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void setEOF(bool eof = true)
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/// Sets end-of-file flag on the buffer.
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///
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/// Setting EOF flag to true prevents writing to the
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/// buffer; reading from the buffer will still be
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/// allowed until all data present in the buffer at the
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/// EOF set time is drained. After that, to re-enable
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/// FIFOBuffer for reading/writing, EOF must be
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/// set to false.
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///
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/// Setting EOF flag to false clears EOF state if it
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/// was previously set. If EOF was not set, it has no
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/// effect.
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{
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Mutex::ScopedLock lock(_mutex);
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bool flag = !eof;
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if (_notify) writable.notify(this, flag);
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_eof = eof;
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}
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bool hasEOF() const
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/// Returns true if EOF flag has been set.
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{
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return _eof;
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}
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bool isEOF() const
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/// Returns true if EOF flag has been set and buffer is empty.
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{
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return isEmpty() && _eof;
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}
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bool isEmpty() const
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/// Returns true is buffer is empty, false otherwise.
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{
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return 0 == _used;
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}
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bool isFull() const
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/// Returns true is buffer is full, false otherwise.
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{
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return size() == _used;
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}
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bool isReadable() const
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/// Returns true if buffer contains data and is not
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/// in error state.
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{
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return !isEmpty() && isValid();
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}
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bool isWritable() const
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/// Returns true if buffer is not full and is not
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/// in error state.
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{
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return !isFull() && isValid() && !_eof;
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}
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void setNotify(bool notify = true)
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/// Enables/disables notifications.
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{
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_notify = notify;
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}
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bool getNotify() const
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/// Returns true if notifications are enabled, false otherwise.
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{
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return _notify;
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}
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Mutex& mutex()
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/// Returns reference to mutex.
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{
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return _mutex;
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}
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private:
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void notify(std::size_t usedBefore)
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{
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bool t = true, f = false;
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if (usedBefore == 0 && _used > 0)
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readable.notify(this, t);
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else if (usedBefore > 0 && 0 == _used)
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readable.notify(this, f);
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if (usedBefore == _buffer.size() && _used < _buffer.size())
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writable.notify(this, t);
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else if (usedBefore < _buffer.size() && _used == _buffer.size())
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writable.notify(this, f);
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}
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BasicFIFOBuffer();
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BasicFIFOBuffer(const BasicFIFOBuffer&);
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BasicFIFOBuffer& operator = (const BasicFIFOBuffer&);
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Buffer<T> _buffer;
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std::size_t _begin;
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std::size_t _used;
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bool _notify;
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mutable Mutex _mutex;
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bool _eof;
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bool _error;
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};
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//
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// We provide an instantiation for char
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//
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typedef BasicFIFOBuffer<char> FIFOBuffer;
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} // namespace Poco
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#endif // Foundation_FIFOBuffer_INCLUDED
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