template class mrpt::system::CGenericMemoryPool¶
A generic system for versatile memory pooling.
This class implements the singleton pattern so a unique instance exists for each combination of template parameters. All methods are thread-safe.
Basic usage:
When needed, call request_memory() to check the availability of memory in the pool.
At your class destructor, donate the memory to the pool with dump_to_pool().
Notice that memory requests are checked against memory blocks in the pool via a user-defined function:
bool POOLABLE_DATA::isSuitable(const POOLABLE_DATA & req) const { ... }
For an example of how to handle a memory pool, see the class mrpt::obs::CObservation3DRangeScan
Parameters:
POOLABLE_DATA |
A struct with user-defined objects which actually contain the memory blocks (e.g. one or more std::vector). |
DATA_PARAMS |
A struct with user information about each memory block (e.g. size of a std::vector) |
#include <mrpt/system/CGenericMemoryPool.h> template <class DATA_PARAMS, class POOLABLE_DATA> class CGenericMemoryPool { public: // methods size_t getMemoryPoolMaxSize() const; void setMemoryPoolMaxSize(const size_t maxNumEntries); POOLABLE_DATA* request_memory(const DATA_PARAMS& params); void dump_to_pool(const DATA_PARAMS& params, POOLABLE_DATA* block); static CGenericMemoryPool<DATA_PARAMS, POOLABLE_DATA>* getInstance(const size_t max_pool_entries = 5); };
Methods¶
POOLABLE_DATA* request_memory(const DATA_PARAMS& params)
Request a block of data which fulfils the size requirements stated in params.
Notice that the decision on the suitability of each pool’ed block is done by DATA_PARAMS::isSuitable(). It is a responsibility of the user to free with “delete” the “POOLABLE_DATA” object itself once the memory has been extracted from its elements.
Returns:
The block of data, or nullptr if none suitable was found in the pool.
void dump_to_pool(const DATA_PARAMS& params, POOLABLE_DATA* block)
Saves the passed data block (characterized by params) to the pool.
If the overall size of the pool is above the limit, the oldest entry is removed. It is a responsibility of the user to allocate in dynamic memory the “POOLABLE_DATA” object with “new”.
static CGenericMemoryPool<DATA_PARAMS, POOLABLE_DATA>* getInstance(const size_t max_pool_entries = 5)
Construct-on-first-use (~singleton) pattern: Return the unique instance of this class for a given template arguments, or nullptr if it was once created but it’s been destroyed (which means we’re in the program global destruction phase).