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228 lines
8.9 KiB
C
228 lines
8.9 KiB
C
/**
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* The author disclaims copyright to this source code. In place of
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* a legal notice, here is a blessing:
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*
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* May you do good and not evil.
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* May you find forgiveness for yourself and forgive others.
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* May you share freely, never taking more than you give.
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*
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* This file contains the APIs that implement a memory allocation subsystem
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* based on SQLite's memsys5 memory subsystem. Refer to
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* http://www.sqlite.org/malloc.html for more info.
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*
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* This version of the memory allocation subsystem omits all
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* use of malloc(). The application gives a block of memory
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* from which allocations are made and returned by the mplite_malloc()
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* and mplite_realloc() implementations.
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*
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* This memory allocator uses the following algorithm:
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*
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* 1. All memory allocations sizes are rounded up to a power of 2.
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*
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* 2. If two adjacent free blocks are the halves of a larger block,
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* then the two blocks are coalesed into the single larger block.
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*
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* 3. New memory is allocated from the first available free block.
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*
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* This algorithm is described in: J. M. Robson. "Bounds for Some Functions
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* Concerning Dynamic Storage Allocation". Journal of the Association for
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* Computing Machinery, Volume 21, Number 8, July 1974, pages 491-499.
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*
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* Let n be the size of the largest allocation divided by the minimum
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* allocation size (after rounding all sizes up to a power of 2.) Let M
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* be the maximum amount of memory ever outstanding at one time. Let
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* N be the total amount of memory available for allocation. Robson
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* proved that this memory allocator will never breakdown due to
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* fragmentation as long as the following constraint holds:
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*
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* N >= M*(1 + log2(n)/2) - n + 1
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*/
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#ifndef MPLITE_H
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#define MPLITE_H
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#ifdef _WIN32
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#include "pstdint.h"
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#else
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#include <stdint.h>
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#endif /* #ifdef _WIN32 */
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/**
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* @brief The function call returns success
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*/
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#define MPLITE_OK 0
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/**
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* @brief Invalid parameters are passed to a function
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*/
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#define MPLITE_ERR_INVPAR -1
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/**
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* @brief Macro to fix unused parameter compiler warning
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*/
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#define MPLITE_UNUSED_PARAM(param) (void)(param)
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/**
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* @brief Maximum size of any allocation is ((1 << @ref MPLITE_LOGMAX) *
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* mplite_t.szAtom). Since mplite_t.szAtom is always at least 8 and
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* 32-bit integers are used, it is not actually possible to reach this
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* limit.
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*/
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#define MPLITE_LOGMAX 30
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/**
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* @brief Maximum allocation size of this memory pool library. All allocations
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* must be a power of two and must be expressed by a 32-bit signed
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* integer. Hence the largest allocation is 0x40000000 or 1073741824.
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*/
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#define MPLITE_MAX_ALLOC_SIZE 0x40000000
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/**
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* @brief An indicator that a function is a public API
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*/
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#define MPLITE_API
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/**
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* @brief Lock object to be used in a threadsafe memory pool
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*/
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typedef struct mplite_lock {
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void *arg; /**< Argument to be passed to acquire and release function
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pointers */
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int (*acquire)(void *arg); /**< Function pointer to acquire a lock */
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int (*release)(void *arg); /**< Function pointer to release a lock */
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} mplite_lock_t;
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/**
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* @brief Memory pool object
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*/
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typedef struct mplite {
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/*-------------------------------
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Memory available for allocation
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-------------------------------*/
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int szAtom; /**< Smallest possible allocation in bytes */
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int nBlock; /**< Number of szAtom sized blocks in zPool */
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uint8_t *zPool; /**< Memory available to be allocated */
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mplite_lock_t lock; /**< Lock to control access to the memory allocation
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subsystem. */
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/*----------------------
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Performance statistics
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----------------------*/
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uint64_t nAlloc; /**< Total number of calls to malloc */
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uint64_t totalAlloc; /**< Total of all malloc calls - includes internal
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fragmentation */
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uint64_t totalExcess; /**< Total internal fragmentation */
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uint32_t currentOut; /**< Current checkout, including internal
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fragmentation */
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uint32_t currentCount; /**< Current number of distinct checkouts */
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uint32_t maxOut; /**< Maximum instantaneous currentOut */
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uint32_t maxCount; /**< Maximum instantaneous currentCount */
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uint32_t maxRequest; /**< Largest allocation (exclusive of internal frag) */
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int aiFreelist[MPLITE_LOGMAX + 1]; /**< List of free blocks. aiFreelist[0]
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is a list of free blocks of size mplite_t.szAtom. aiFreelist[1] holds
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blocks of size szAtom * 2 and so forth.*/
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uint8_t *aCtrl; /**< Space for tracking which blocks are checked out and the
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size of each block. One byte per block. */
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} mplite_t;
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/**
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* @brief Print string function pointer to be passed to @ref mplite_print_stats
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* function. This must be same as stdio's puts function mechanism which
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* automatically appends a new line character in every call.
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*/
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typedef int (*mplite_putsfunc_t)(const char* stats);
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#ifdef __cplusplus
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extern "C" {
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#endif
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/**
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* @brief Initialize the memory pool object.
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* @param[in,out] handle Pointer to a @ref mplite_t object which is allocated
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* by the caller either from stack, heap, or application's
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* memory space.
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* @param[in] buf Pointer to a large, contiguous chunk of memory space that
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* @ref mplite_t will use to satisfy all of its memory
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* allocation needs. This might point to a static array or it
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* might be memory obtained from some other application-specific
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* mechanism.
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* @param[in] buf_size The number of bytes of memory space pointed to by @ref
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* buf
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* @param[in] min_alloc Minimum size of an allocation. Any call to @ref
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* mplite_malloc where nBytes is less than min_alloc will
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* be rounded up to min_alloc. min_alloc must be a power of
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* two.
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* @param[in] lock Pointer to a lock object to control access to the memory
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* allocation subsystem of @ref mplite_t object. If this is
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* @ref NULL, @ref mplite_t will be non-threadsafe and can only
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* be safely used by a single thread. It is safe to allocate
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* this in stack because it will be copied to @ref mplite_t
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* object.
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* @return @ref MPLITE_OK on success and @ref MPLITE_ERR_INVPAR on invalid
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* parameters error.
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*/
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MPLITE_API int mplite_init(mplite_t *handle, const void *buf,
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const int buf_size, const int min_alloc,
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const mplite_lock_t *lock);
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/**
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* @brief Allocate bytes of memory
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* @param[in,out] handle Pointer to an initialized @ref mplite_t object
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* @param[in] nBytes Number of bytes to allocate
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* @return Non-NULL on success, NULL otherwise
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*/
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MPLITE_API void *mplite_malloc(mplite_t *handle, const int nBytes);
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/**
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* @brief Free memory
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* @param[in,out] handle Pointer to an initialized @ref mplite_t object
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* @param[in] pPrior Allocated buffer
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*/
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MPLITE_API void mplite_free(mplite_t *handle, const void *pPrior);
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/**
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* @brief Change the size of an existing memory allocation.
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* @param[in,out] handle Pointer to an initialized @ref mplite_t object
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* @param[in] pPrior Existing allocated memory
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* @param[in] nBytes Size of the new memory allocation. This is always a value
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* obtained from a prior call to mplite_roundup(). Hence,
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* this is always a non-negative power of two. If nBytes == 0
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* that means that an oversize allocation (an allocation
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* larger than @ref MPLITE_MAX_ALLOC_SIZE) was requested and
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* this routine should return NULL without freeing pPrior.
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* @return Non-NULL on success, NULL otherwise
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*/
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MPLITE_API void *mplite_realloc(mplite_t *handle, const void *pPrior,
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const int nBytes);
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MPLITE_API int mplite_resize(mplite_t *handle, const void *pPrior,
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const int nBytes);
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/**
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* @brief Round up a request size to the next valid allocation size.
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* @param[in,out] handle Pointer to an initialized @ref mplite_t object
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* @param[in] n Request size
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* @return Positive non-zero value if the size can be allocated or zero if the
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* allocation is too large to be handled.
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*/
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MPLITE_API int mplite_roundup(mplite_t *handle, const int n);
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/**
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* @brief Print the statistics of the memory pool object
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* @param[in,out] handle Pointer to an initialized @ref mplite_t object
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* @param[in] logfunc Non-NULL log function of the caller. Refer to
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* @ref mplite_logfunc_t for the prototype of this function.
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*/
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MPLITE_API void mplite_print_stats(const mplite_t * const handle,
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const mplite_putsfunc_t logfunc);
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/**
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* @brief Macro to return the number of times mplite_malloc() has been called.
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*/
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#define mplite_alloc_count(handle) (((handle) != NULL)? (handle)->nAlloc : 0)
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#ifdef __cplusplus
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}
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#endif
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#endif /* #ifndef MPLITE_H */
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