// // Buffer.h // // Library: Foundation // Package: Core // Module: Buffer // // Definition of the Buffer class. // // Copyright (c) 2012, Applied Informatics Software Engineering GmbH. // and Contributors. // // SPDX-License-Identifier: BSL-1.0 // #ifndef Foundation_Buffer_INCLUDED #define Foundation_Buffer_INCLUDED #include "Poco/Foundation.h" #include "Poco/Exception.h" #include #include namespace Poco { template class Buffer /// A buffer class that allocates a buffer of a given type and size /// in the constructor and deallocates the buffer in the destructor. /// /// This class is useful everywhere where a temporary buffer /// is needed. { public: Buffer(std::size_t length): _capacity(length), _used(length), _ptr(0), _ownMem(true) /// Creates and allocates the Buffer. { if (length > 0) { _ptr = new T[length]; } } Buffer(T* pMem, std::size_t length): _capacity(length), _used(length), _ptr(pMem), _ownMem(false) /// Creates the Buffer. Length argument specifies the length /// of the supplied memory pointed to by pMem in the number /// of elements of type T. Supplied pointer is considered /// blank and not owned by Buffer, so in this case Buffer /// only acts as a wrapper around externally supplied /// (and lifetime-managed) memory. { } Buffer(const T* pMem, std::size_t length): _capacity(length), _used(length), _ptr(0), _ownMem(true) /// Creates and allocates the Buffer; copies the contents of /// the supplied memory into the buffer. Length argument specifies /// the length of the supplied memory pointed to by pMem in the /// number of elements of type T. { if (_capacity > 0) { _ptr = new T[_capacity]; std::memcpy(_ptr, pMem, _used * sizeof(T)); } } Buffer(const Buffer& other): /// Copy constructor. _capacity(other._used), _used(other._used), _ptr(0), _ownMem(true) { if (_used) { _ptr = new T[_used]; std::memcpy(_ptr, other._ptr, _used * sizeof(T)); } } Buffer(Buffer&& other) noexcept: /// Move constructor. _capacity(other._capacity), _used(other._used), _ptr(other._ptr), _ownMem(other._ownMem) { other._capacity = 0; other._used = 0; other._ownMem = false; other._ptr = nullptr; } Buffer& operator = (const Buffer& other) /// Assignment operator. { if (this != &other) { Buffer tmp(other); swap(tmp); } return *this; } Buffer& operator = (Buffer&& other) noexcept /// Move assignment operator. { if (_ownMem) delete [] _ptr; _capacity = other._capacity; _used = other._used; _ptr = other._ptr; _ownMem = other._ownMem; other._capacity = 0; other._used = 0; other._ownMem = false; other._ptr = nullptr; return *this; } ~Buffer() /// Destroys the Buffer. { if (_ownMem) delete [] _ptr; } void resize(std::size_t newCapacity, bool preserveContent = true) /// Resizes the buffer capacity and size. If preserveContent is true, /// the content of the old buffer is copied over to the /// new buffer. The new capacity can be larger or smaller than /// the current one; if it is smaller, capacity will remain intact. /// Size will always be set to the new capacity. /// /// Buffers only wrapping externally owned storage can not be /// resized. If resize is attempted on those, IllegalAccessException /// is thrown. { if (!_ownMem) throw Poco::InvalidAccessException("Cannot resize buffer which does not own its storage."); if (newCapacity > _capacity) { T* ptr = new T[newCapacity]; if (preserveContent && _ptr) { std::memcpy(ptr, _ptr, _used * sizeof(T)); } delete [] _ptr; _ptr = ptr; _capacity = newCapacity; } _used = newCapacity; } void setCapacity(std::size_t newCapacity, bool preserveContent = true) /// Sets the buffer capacity. If preserveContent is true, /// the content of the old buffer is copied over to the /// new buffer. The new capacity can be larger or smaller than /// the current one; size will be set to the new capacity only if /// new capacity is smaller than the current size, otherwise it will /// remain intact. /// /// Buffers only wrapping externally owned storage can not be /// resized. If resize is attempted on those, IllegalAccessException /// is thrown. { if (!_ownMem) throw Poco::InvalidAccessException("Cannot resize buffer which does not own its storage."); if (newCapacity != _capacity) { T* ptr = 0; if (newCapacity > 0) { ptr = new T[newCapacity]; if (preserveContent && _ptr) { std::size_t newSz = _used < newCapacity ? _used : newCapacity; std::memcpy(ptr, _ptr, newSz * sizeof(T)); } } delete [] _ptr; _ptr = ptr; _capacity = newCapacity; if (newCapacity < _used) _used = newCapacity; } } void assign(const T* buf, std::size_t sz) /// Assigns the argument buffer to this buffer. /// If necessary, resizes the buffer. { if (0 == sz) return; if (sz > _capacity) resize(sz, false); std::memcpy(_ptr, buf, sz * sizeof(T)); _used = sz; } void append(const T* buf, std::size_t sz) /// Resizes this buffer and appends the argument buffer. { if (0 == sz) return; resize(_used + sz, true); std::memcpy(_ptr + _used - sz, buf, sz * sizeof(T)); } void append(T val) /// Resizes this buffer by one element and appends the argument value. { resize(_used + 1, true); _ptr[_used - 1] = val; } void append(const Buffer& buf) /// Resizes this buffer and appends the argument buffer. { append(buf.begin(), buf.size()); } std::size_t capacity() const /// Returns the allocated memory size in elements. { return _capacity; } std::size_t capacityBytes() const /// Returns the allocated memory size in bytes. { return _capacity * sizeof(T); } void swap(Buffer& other) /// Swaps the buffer with another one. { using std::swap; swap(_ptr, other._ptr); swap(_capacity, other._capacity); swap(_used, other._used); swap(_ownMem, other._ownMem); } bool operator == (const Buffer& other) const /// Compare operator. { if (this != &other) { if (_used == other._used) { if (_ptr && other._ptr && std::memcmp(_ptr, other._ptr, _used * sizeof(T)) == 0) { return true; } else return _used == 0; } return false; } return true; } bool operator != (const Buffer& other) const /// Compare operator. { return !(*this == other); } void clear() /// Sets the contents of the buffer to zero. { std::memset(_ptr, 0, _used * sizeof(T)); } std::size_t size() const /// Returns the used size of the buffer in elements. { return _used; } std::size_t sizeBytes() const /// Returns the used size of the buffer in bytes. { return _used * sizeof(T); } T* begin() /// Returns a pointer to the beginning of the buffer. { return _ptr; } const T* begin() const /// Returns a pointer to the beginning of the buffer. { return _ptr; } T* end() /// Returns a pointer to end of the buffer. { return _ptr + _used; } const T* end() const /// Returns a pointer to the end of the buffer. { return _ptr + _used; } bool empty() const /// Return true if buffer is empty. { return 0 == _used; } T& operator [] (std::size_t index) { poco_assert (index < _used); return _ptr[index]; } const T& operator [] (std::size_t index) const { poco_assert (index < _used); return _ptr[index]; } private: Buffer(); std::size_t _capacity; std::size_t _used; T* _ptr; bool _ownMem; }; } // namespace Poco #endif // Foundation_Buffer_INCLUDED