/** ****************************************************************************** * This file is part of the TouchGFX 4.16.1 distribution. * *

© Copyright (c) 2021 STMicroelectronics. * All rights reserved.

* * This software component is licensed by ST under Ultimate Liberty license * SLA0044, the "License"; You may not use this file except in compliance with * the License. You may obtain a copy of the License at: * www.st.com/SLA0044 * ****************************************************************************** */ /** * @file common/AbstractPartition.hpp * * Declares the touchgfx::AbstractPartition class. */ #ifndef ABSTRACTPARTITION_HPP #define ABSTRACTPARTITION_HPP #include namespace touchgfx { /** * This type defines an abstract interface to a storage partition for allocating memory slots of * equal size. The "partition" is not aware of the actual types stored in the partition * memory, hence it provides no mechanism for deleting C++ objects when clear()'ed. */ class AbstractPartition { public: /** Finalizes an instance of the AbstractPartition class. */ virtual ~AbstractPartition(); /** * Gets the address of the next available storage slot. The slot size is compared with * the specified size. * * @param size The size. * * @return The address of an empty storage slot which contains minimum 'size' bytes. * * @note Asserts if 'size' is too large, or the storage is depleted. */ virtual void* allocate(uint16_t size); /** * Gets the address of the specified index. * * @param index Zero-based index of the. * @param size The size. * * @return The address of the appropriate storage slot which contains minimum 'size' * bytes. * * @note Asserts if 'size' is too large. */ virtual void* allocateAt(uint16_t index, uint16_t size); /** * Gets allocation count. * * @return The currently allocated storage slots. */ virtual uint16_t getAllocationCount() const; /** * Determines index of previously allocated location. Since the Partition concept is * loosely typed this method shall be used with care. The method does not guarantee that * the found object at the returned index is a valid object. It only tests whether or * not the object is within the bounds of the current partition allocations. * * @param address The location address to lookup. * * @return An uint16_t. */ virtual uint16_t indexOf(const void* address); /** * Prepares the Partition for new allocations. Any objects present in the Partition * shall not be used after invoking this method. */ virtual void clear(); /** * Gets the capacity, i.e. the maximum allocation count. * * @return The maximum allocation count. */ virtual uint16_t capacity() const = 0; /** * Gets the address of the next available storage slot. The slot size is determined from * the size of type T. * * @tparam T Generic type parameter. * * @return The address of an empty storage slot. * * @note Asserts if T is too large, or the storage is depleted. */ template void* allocate() { return allocate(static_cast(sizeof(T))); } /** * Gets the address of the specified storage slot. The slot size is determined from the * size of type T. * * @tparam T Generic type parameter. * @param index Zero-based index of the. * * @return The address of the appropriate storage slot. * * @note Asserts if T is too large. */ template void* allocateAt(uint16_t index) { return allocateAt(index, static_cast(sizeof(T))); } /** * Gets the object at the specified index. * * @tparam T Generic type parameter. * @param index The index into the Partition storage where the returned object is located. * * @return A typed reference to the object at the specified index. */ template T& at(const uint16_t index) { return *static_cast(element(index)); } /** * const version of at(). * * @tparam T Generic type parameter. * @param index Zero-based index of the. * * @return A T& */ template const T& at(const uint16_t index) const { return *static_cast(element(index)); } /** * Determines if the specified object could have been previously allocated in the * partition. Since the Partition concept is loosely typed this method shall be used * with care. The method does not guarantee that the found object at the returned index * is a valid object. It only tests whether or not the object is within the bounds of * the current partition allocations. * * @tparam T Generic type parameter. * @param pT Pointer to the object to look up. * * @return If the object seems to be allocated in the Partition, a Pair object * containing a typed pointer to the object and an index into the Partition * storage is returned. Otherwise, a Pair<0, 0> is returned. */ template Pair find(const void* pT) { uint16_t index = indexOf(pT); if (0 < getAllocationCount() && index < getAllocationCount()) { return Pair(&at(index), index); } return Pair(0, (uint16_t) -1); } /** Decreases number of allocations. */ void dec() { if (allocations) { allocations--; } } /** * Access to concrete element-size. Used internally. * * @return An uint32_t. */ virtual uint32_t element_size() = 0; protected: /** * Access to stored element. Used internally. * * @param index Zero-based index of the. * * @return null if it fails, else a void*. */ virtual void* element(uint16_t index) = 0; /** * Access to stored element, const version. * * @param index Zero-based index of the. * * @return null if it fails, else a void*. */ virtual const void* element(uint16_t index) const = 0; /** Initializes a new instance of the AbstractPartition class. */ AbstractPartition(); private: uint16_t allocations; }; } // namespace touchgfx #endif // ABSTRACTPARTITION_HPP