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/* SPDX-License-Identifier: GPL-2.0-or-later */
/** \file
* \ingroup intern_memutil
*/
#ifndef __MEM_CACHELIMITERC_API_H__
#define __MEM_CACHELIMITERC_API_H__
#ifdef __cplusplus
extern "C" {
#endif
#include "BLI_utildefines.h"
struct MEM_CacheLimiter_s;
struct MEM_CacheLimiterHandle_s;
typedef struct MEM_CacheLimiter_s MEM_CacheLimiterC;
typedef struct MEM_CacheLimiterHandle_s MEM_CacheLimiterHandleC;
/* function used to remove data from memory */
typedef void (*MEM_CacheLimiter_Destruct_Func)(void *);
/* function used to measure stored data element size */
typedef size_t (*MEM_CacheLimiter_DataSize_Func)(void *);
/* function used to measure priority of item when freeing memory */
typedef int (*MEM_CacheLimiter_ItemPriority_Func)(void *, int);
/* function to check whether item could be destroyed */
typedef bool (*MEM_CacheLimiter_ItemDestroyable_Func)(void *);
#ifndef __MEM_CACHELIMITER_H__
void MEM_CacheLimiter_set_maximum(size_t m);
size_t MEM_CacheLimiter_get_maximum(void);
void MEM_CacheLimiter_set_disabled(bool disabled);
bool MEM_CacheLimiter_is_disabled(void);
#endif /* __MEM_CACHELIMITER_H__ */
/**
* Create new MEM_CacheLimiter object
* managed objects are destructed with the data_destructor
*
* \param data_destructor: TODO.
* \return A new #MEM_CacheLimter object.
*/
MEM_CacheLimiterC *new_MEM_CacheLimiter(MEM_CacheLimiter_Destruct_Func data_destructor,
MEM_CacheLimiter_DataSize_Func data_size);
/**
* Delete MEM_CacheLimiter
*
* Frees the memory of the CacheLimiter but does not touch managed objects!
*
* \param This: "This" pointer.
*/
void delete_MEM_CacheLimiter(MEM_CacheLimiterC *This);
/**
* Manage object
*
* \param This: "This" pointer, data data object to manage.
* \return CacheLimiterHandle to ref, unref, touch the managed object
*/
MEM_CacheLimiterHandleC *MEM_CacheLimiter_insert(MEM_CacheLimiterC *This, void *data);
/**
* Free objects until memory constraints are satisfied
*
* \param This: "This" pointer.
*/
void MEM_CacheLimiter_enforce_limits(MEM_CacheLimiterC *This);
/**
* Unmanage object previously inserted object.
* Does _not_ delete managed object!
*
* \param handle: of object.
*/
void MEM_CacheLimiter_unmanage(MEM_CacheLimiterHandleC *handle);
/**
* Raise priority of object (put it at the tail of the deletion chain)
*
* \param handle: of object.
*/
void MEM_CacheLimiter_touch(MEM_CacheLimiterHandleC *handle);
/**
* Increment reference counter. Objects with reference counter != 0 are _not_
* deleted.
*
* \param handle: of object.
*/
void MEM_CacheLimiter_ref(MEM_CacheLimiterHandleC *handle);
/**
* Decrement reference counter. Objects with reference counter != 0 are _not_
* deleted.
*
* \param handle: of object.
*/
void MEM_CacheLimiter_unref(MEM_CacheLimiterHandleC *handle);
/**
* Get reference counter.
*
* \param handle: of object.
*/
int MEM_CacheLimiter_get_refcount(MEM_CacheLimiterHandleC *handle);
/**
* Get pointer to managed object
*
* \param handle: of object.
*/
void *MEM_CacheLimiter_get(MEM_CacheLimiterHandleC *handle);
void MEM_CacheLimiter_ItemPriority_Func_set(MEM_CacheLimiterC *This,
MEM_CacheLimiter_ItemPriority_Func item_priority_func);
void MEM_CacheLimiter_ItemDestroyable_Func_set(
MEM_CacheLimiterC *This, MEM_CacheLimiter_ItemDestroyable_Func item_destroyable_func);
size_t MEM_CacheLimiter_get_memory_in_use(MEM_CacheLimiterC *This);
#ifdef __cplusplus
}
#endif
#endif // __MEM_CACHELIMITERC_API_H__
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