76756ad63c30e04ccb361809026242f38a2d24d7/docs/mimalloc-doc_8h_source.html

 /* ----------------------------------------------------------------------------
 Copyright (c) 2018, Microsoft Research, Daan Leijen
 This is free software; you can redistribute it and/or modify it under the
 terms of the MIT license. A copy of the license can be found in the file
 "LICENSE" at the root of this distribution.
 -----------------------------------------------------------------------------*/

 #error "documentation file only!"


 void  mi_free(void* p);

 void* mi_malloc(size_t size);

 void* mi_zalloc(size_t size);

 void* mi_calloc(size_t count, size_t size);

 void* mi_realloc(void* p, size_t newsize);

 void* mi_recalloc(void* p, size_t count, size_t size);

 void* mi_expand(void* p, size_t newsize);

 void* mi_mallocn(size_t count, size_t size);

 void* mi_reallocn(void* p, size_t count, size_t size);

 void* mi_reallocf(void* p, size_t newsize);


 char* mi_strdup(const char* s);

 char* mi_strndup(const char* s, size_t n);

 char* mi_realpath(const char* fname, char* resolved_name);


 // ------------------------------------------------------
 // Extended functionality
 // ------------------------------------------------------


 #define MI_SMALL_SIZE_MAX   (128*sizeof(void*))

 void* mi_malloc_small(size_t size);

 void* mi_zalloc_small(size_t size);

 size_t mi_usable_size(void* p);

 size_t mi_good_size(size_t size);

 void   mi_collect(bool force);

 void mi_stats_print(void* out);

 void mi_stats_print_out(mi_output_fun* out, void* arg);

 void mi_stats_reset(void);

 void mi_stats_merge(void);

 void mi_thread_init(void);

 void mi_thread_done(void);

 void mi_thread_stats_print_out(mi_output_fun* out, void* arg);

 typedef void (mi_deferred_free_fun)(bool force, unsigned long long heartbeat, void* arg);

 void   mi_register_deferred_free(mi_deferred_free_fun* deferred_free, void* arg);

 typedef void (mi_output_fun)(const char* msg, void* arg);

 void mi_register_output(mi_output_fun* out, void* arg);

 typedef void (mi_error_fun)(int err, void* arg);

 void mi_register_error(mi_error_fun* errfun, void* arg);

 bool mi_is_in_heap_region(const void* p);


 int mi_reserve_huge_os_pages_interleave(size_t pages, size_t numa_nodes, size_t timeout_msecs);

 int mi_reserve_huge_os_pages_at(size_t pages, int numa_node, size_t timeout_msecs);


 bool mi_is_redirected();


 // ------------------------------------------------------
 // Aligned allocation
 // ------------------------------------------------------


 void* mi_malloc_aligned(size_t size, size_t alignment);
 void* mi_zalloc_aligned(size_t size, size_t alignment);
 void* mi_calloc_aligned(size_t count, size_t size, size_t alignment);
 void* mi_realloc_aligned(void* p, size_t newsize, size_t alignment);

 void* mi_malloc_aligned_at(size_t size, size_t alignment, size_t offset);
 void* mi_zalloc_aligned_at(size_t size, size_t alignment, size_t offset);
 void* mi_calloc_aligned_at(size_t count, size_t size, size_t alignment, size_t offset);
 void* mi_realloc_aligned_at(void* p, size_t newsize, size_t alignment, size_t offset);


 struct mi_heap_s;

 typedef struct mi_heap_s mi_heap_t;

 mi_heap_t* mi_heap_new();

 void mi_heap_delete(mi_heap_t* heap);

 void mi_heap_destroy(mi_heap_t* heap);

 mi_heap_t* mi_heap_set_default(mi_heap_t* heap);

 mi_heap_t* mi_heap_get_default();

 mi_heap_t* mi_heap_get_backing();

 void mi_heap_collect(mi_heap_t* heap, bool force);

 void* mi_heap_malloc(mi_heap_t* heap, size_t size);

 void* mi_heap_malloc_small(mi_heap_t* heap, size_t size);

 void* mi_heap_zalloc(mi_heap_t* heap, size_t size);

 void* mi_heap_calloc(mi_heap_t* heap, size_t count, size_t size);

 void* mi_heap_mallocn(mi_heap_t* heap, size_t count, size_t size);

 char* mi_heap_strdup(mi_heap_t* heap, const char* s);

 char* mi_heap_strndup(mi_heap_t* heap, const char* s, size_t n);

 char* mi_heap_realpath(mi_heap_t* heap, const char* fname, char* resolved_name);

 void* mi_heap_realloc(mi_heap_t* heap, void* p, size_t newsize);
 void* mi_heap_reallocn(mi_heap_t* heap, void* p, size_t count, size_t size);
 void* mi_heap_reallocf(mi_heap_t* heap, void* p, size_t newsize);

 void* mi_heap_malloc_aligned(mi_heap_t* heap, size_t size, size_t alignment);
 void* mi_heap_malloc_aligned_at(mi_heap_t* heap, size_t size, size_t alignment, size_t offset);
 void* mi_heap_zalloc_aligned(mi_heap_t* heap, size_t size, size_t alignment);
 void* mi_heap_zalloc_aligned_at(mi_heap_t* heap, size_t size, size_t alignment, size_t offset);
 void* mi_heap_calloc_aligned(mi_heap_t* heap, size_t count, size_t size, size_t alignment);
 void* mi_heap_calloc_aligned_at(mi_heap_t* heap, size_t count, size_t size, size_t alignment, size_t offset);
 void* mi_heap_realloc_aligned(mi_heap_t* heap, void* p, size_t newsize, size_t alignment);
 void* mi_heap_realloc_aligned_at(mi_heap_t* heap, void* p, size_t newsize, size_t alignment, size_t offset);


 void* mi_rezalloc(void* p, size_t newsize);
 void* mi_recalloc(void* p, size_t newcount, size_t size) ;

 void* mi_rezalloc_aligned(void* p, size_t newsize, size_t alignment);
 void* mi_rezalloc_aligned_at(void* p, size_t newsize, size_t alignment, size_t offset);
 void* mi_recalloc_aligned(void* p, size_t newcount, size_t size, size_t alignment);
 void* mi_recalloc_aligned_at(void* p, size_t newcount, size_t size, size_t alignment, size_t offset);

 void* mi_heap_rezalloc(mi_heap_t* heap, void* p, size_t newsize);
 void* mi_heap_recalloc(mi_heap_t* heap, void* p, size_t newcount, size_t size);

 void* mi_heap_rezalloc_aligned(mi_heap_t* heap, void* p, size_t newsize, size_t alignment);
 void* mi_heap_rezalloc_aligned_at(mi_heap_t* heap, void* p, size_t newsize, size_t alignment, size_t offset);
 void* mi_heap_recalloc_aligned(mi_heap_t* heap, void* p, size_t newcount, size_t size, size_t alignment);
 void* mi_heap_recalloc_aligned_at(mi_heap_t* heap, void* p, size_t newcount, size_t size, size_t alignment, size_t offset);


 #define mi_malloc_tp(tp)        ((tp*)mi_malloc(sizeof(tp)))

 #define mi_zalloc_tp(tp)        ((tp*)mi_zalloc(sizeof(tp)))

 #define mi_calloc_tp(tp,count)      ((tp*)mi_calloc(count,sizeof(tp)))

 #define mi_mallocn_tp(tp,count)     ((tp*)mi_mallocn(count,sizeof(tp)))

 #define mi_reallocn_tp(p,tp,count)  ((tp*)mi_reallocn(p,count,sizeof(tp)))

 #define mi_heap_malloc_tp(hp,tp)        ((tp*)mi_heap_malloc(hp,sizeof(tp)))

 #define mi_heap_zalloc_tp(hp,tp)        ((tp*)mi_heap_zalloc(hp,sizeof(tp)))

 #define mi_heap_calloc_tp(hp,tp,count)      ((tp*)mi_heap_calloc(hp,count,sizeof(tp)))

 #define mi_heap_mallocn_tp(hp,tp,count)     ((tp*)mi_heap_mallocn(hp,count,sizeof(tp)))

 #define mi_heap_reallocn_tp(hp,p,tp,count)  ((tp*)mi_heap_reallocn(p,count,sizeof(tp)))

 #define mi_heap_recalloc_tp(hp,p,tp,count)  ((tp*)mi_heap_recalloc(p,count,sizeof(tp)))


 bool mi_heap_contains_block(mi_heap_t* heap, const void* p);

 bool mi_heap_check_owned(mi_heap_t* heap, const void* p);

 bool mi_check_owned(const void* p);

 typedef struct mi_heap_area_s {
   void*  blocks;
   size_t reserved;
   size_t committed;
   size_t used;
   size_t block_size;
 } mi_heap_area_t;

 typedef bool (mi_block_visit_fun)(const mi_heap_t* heap, const mi_heap_area_t* area, void* block, size_t block_size, void* arg);

 bool mi_heap_visit_blocks(const mi_heap_t* heap, bool visit_all_blocks, mi_block_visit_fun* visitor, void* arg);


 typedef enum mi_option_e {
   // stable options
   mi_option_show_errors,
   mi_option_show_stats,
   mi_option_verbose,
   // the following options are experimental
   mi_option_eager_commit,
   mi_option_eager_region_commit,
   mi_option_large_os_pages,
   mi_option_reserve_huge_os_pages,
   mi_option_segment_cache,
   mi_option_page_reset,
   mi_option_segment_reset,
   mi_option_reset_delay,
   mi_option_use_numa_nodes,
   mi_option_reset_decommits,
   mi_option_eager_commit_delay,
   mi_option_os_tag,
   _mi_option_last
 } mi_option_t;


 bool  mi_option_is_enabled(mi_option_t option);
 void  mi_option_enable(mi_option_t option);
 void  mi_option_disable(mi_option_t option);
 void  mi_option_set_enabled(mi_option_t option, bool enable);
 void  mi_option_set_enabled_default(mi_option_t option, bool enable);

 long  mi_option_get(mi_option_t option);
 void  mi_option_set(mi_option_t option, long value);
 void  mi_option_set_default(mi_option_t option, long value);


 void*  mi_recalloc(void* p, size_t count, size_t size);
 size_t mi_malloc_size(const void* p);
 size_t mi_malloc_usable_size(const void *p);

 void   mi_cfree(void* p);

 int mi_posix_memalign(void** p, size_t alignment, size_t size);
 int mi__posix_memalign(void** p, size_t alignment, size_t size);
 void* mi_memalign(size_t alignment, size_t size);
 void* mi_valloc(size_t size);

 void* mi_pvalloc(size_t size);
 void* mi_aligned_alloc(size_t alignment, size_t size);
 void* mi_reallocarray(void* p, size_t count, size_t size);

 void mi_free_size(void* p, size_t size);
 void mi_free_size_aligned(void* p, size_t size, size_t alignment);
 void mi_free_aligned(void* p, size_t alignment);


 void* mi_new(std::size_t n) noexcept(false);

 void* mi_new_n(size_t count, size_t size) noexcept(false);

 void* mi_new_aligned(std::size_t n, std::align_val_t alignment) noexcept(false);

 void* mi_new_nothrow(size_t n);

 void* mi_new_aligned_nothrow(size_t n, size_t alignment);

 void* mi_new_realloc(void* p, size_t newsize);

 void* mi_new_reallocn(void* p, size_t newcount, size_t size);

 template<class T> struct mi_stl_allocator { }


mi_usable_size
size_t mi_usable_size(void *p)
Return the available bytes in a memory block.

mi_new_nothrow
void * mi_new_nothrow(size_t n)
like mi_malloc, but when out of memory, use std::get_new_handler but return NULL on failure.

mi_reallocn
void * mi_reallocn(void *p, size_t count, size_t size)
Re-allocate memory to count elements of size bytes.

mi_malloc_aligned
void * mi_malloc_aligned(size_t size, size_t alignment)
Allocate size bytes aligned by alignment.

mi_recalloc_aligned_at
void * mi_recalloc_aligned_at(void *p, size_t newcount, size_t size, size_t alignment, size_t offset)

mi_stats_reset
void mi_stats_reset(void)
Reset statistics.

mi_heap_realloc_aligned
void * mi_heap_realloc_aligned(mi_heap_t *heap, void *p, size_t newsize, size_t alignment)

mi_option_is_enabled
bool mi_option_is_enabled(mi_option_t option)

mi_new_realloc
void * mi_new_realloc(void *p, size_t newsize)
like mi_realloc(), but when out of memory, use std::get_new_handler and raise std::bad_alloc exceptio...

mi_recalloc
void * mi_recalloc(void *p, size_t count, size_t size)
Re-allocate memory to count elements of size bytes, with extra memory initialized to zero.

mi_mallocn
void * mi_mallocn(size_t count, size_t size)
Allocate count elements of size bytes.

mi_malloc_size
size_t mi_malloc_size(const void *p)

mi_option_set_enabled
void mi_option_set_enabled(mi_option_t option, bool enable)

mi_posix_memalign
int mi_posix_memalign(void **p, size_t alignment, size_t size)

mi_stats_merge
void mi_stats_merge(void)
Merge thread local statistics with the main statistics and reset.

mi_new_n
void * mi_new_n(size_t count, size_t size) noexcept(false)
like mi_mallocn(), but when out of memory, use std::get_new_handler and raise std::bad_alloc exceptio...

mi_option_set_default
void mi_option_set_default(mi_option_t option, long value)

mi_stats_print_out
void mi_stats_print_out(mi_output_fun *out, void *arg)
Print the main statistics.

mi_error_fun
void() mi_error_fun(int err, void *arg)
Type of error callback functions.
Definition: mimalloc-doc.h:383

mi_rezalloc
void * mi_rezalloc(void *p, size_t newsize)

mi_option_eager_commit
Eagerly commit segments (4MiB) (enabled by default).
Definition: mimalloc-doc.h:759

mi_heap_zalloc
void * mi_heap_zalloc(mi_heap_t *heap, size_t size)
Allocate zero-initialized in a specific heap.

mi_option_set
void mi_option_set(mi_option_t option, long value)

mi_option_eager_region_commit
Eagerly commit large (256MiB) memory regions (enabled by default, except on Windows)
Definition: mimalloc-doc.h:760

mi_cfree
void mi_cfree(void *p)
Just as free but also checks if the pointer p belongs to our heap.

mi_recalloc_aligned
void * mi_recalloc_aligned(void *p, size_t newcount, size_t size, size_t alignment)

_mi_option_last
Definition: mimalloc-doc.h:771

mi_realloc_aligned_at
void * mi_realloc_aligned_at(void *p, size_t newsize, size_t alignment, size_t offset)

mi_heap_area_t::blocks
void * blocks
start of the area containing heap blocks
Definition: mimalloc-doc.h:715

mi_realloc_aligned
void * mi_realloc_aligned(void *p, size_t newsize, size_t alignment)

mi_option_enable
void mi_option_enable(mi_option_t option)

mi__posix_memalign
int mi__posix_memalign(void **p, size_t alignment, size_t size)

mi_free
void mi_free(void *p)
Free previously allocated memory.

mi_heap_strdup
char * mi_heap_strdup(mi_heap_t *heap, const char *s)
Duplicate a string in a specific heap.

mi_heap_realpath
char * mi_heap_realpath(mi_heap_t *heap, const char *fname, char *resolved_name)
Resolve a file path name using a specific heap to allocate the result.

mi_heap_calloc_aligned_at
void * mi_heap_calloc_aligned_at(mi_heap_t *heap, size_t count, size_t size, size_t alignment, size_t offset)

mi_calloc_aligned
void * mi_calloc_aligned(size_t count, size_t size, size_t alignment)

mi_heap_zalloc_aligned
void * mi_heap_zalloc_aligned(mi_heap_t *heap, size_t size, size_t alignment)

mi_zalloc_small
void * mi_zalloc_small(size_t size)
Allocate a zero initialized small object.

mi_strndup
char * mi_strndup(const char *s, size_t n)
Allocate and duplicate a string up to n bytes.

mi_expand
void * mi_expand(void *p, size_t newsize)
Try to re-allocate memory to newsize bytes in place.

mi_pvalloc
void * mi_pvalloc(size_t size)

mi_option_set_enabled_default
void mi_option_set_enabled_default(mi_option_t option, bool enable)

mi_heap_rezalloc_aligned_at
void * mi_heap_rezalloc_aligned_at(mi_heap_t *heap, void *p, size_t newsize, size_t alignment, size_t offset)

mi_zalloc
void * mi_zalloc(size_t size)
Allocate zero-initialized size bytes.

mi_heap_rezalloc
void * mi_heap_rezalloc(mi_heap_t *heap, void *p, size_t newsize)

mi_option_segment_cache
The number of segments per thread to keep cached.
Definition: mimalloc-doc.h:763

mi_heap_calloc
void * mi_heap_calloc(mi_heap_t *heap, size_t count, size_t size)
Allocate count zero-initialized elements in a specific heap.

mi_heap_calloc_aligned
void * mi_heap_calloc_aligned(mi_heap_t *heap, size_t count, size_t size, size_t alignment)

mi_is_redirected
bool mi_is_redirected()
Is the C runtime malloc API redirected?

mi_heap_area_t::block_size
size_t block_size
size in bytes of one block
Definition: mimalloc-doc.h:719

mi_reallocarray
void * mi_reallocarray(void *p, size_t count, size_t size)

mi_reserve_huge_os_pages_interleave
int mi_reserve_huge_os_pages_interleave(size_t pages, size_t numa_nodes, size_t timeout_msecs)
Reserve pages of huge OS pages (1GiB) evenly divided over numa_nodes nodes, but stops after at most t...

mi_deferred_free_fun
void() mi_deferred_free_fun(bool force, unsigned long long heartbeat, void *arg)
Type of deferred free functions.
Definition: mimalloc-doc.h:344

mi_is_in_heap_region
bool mi_is_in_heap_region(const void *p)
Is a pointer part of our heap?

mi_new_aligned
void * mi_new_aligned(std::size_t n, std::align_val_t alignment) noexcept(false)
like mi_malloc_aligned(), but when out of memory, use std::get_new_handler and raise std::bad_alloc e...

mi_realloc
void * mi_realloc(void *p, size_t newsize)
Re-allocate memory to newsize bytes.

mi_option_reserve_huge_os_pages
The number of huge OS pages (1GiB in size) to reserve at the start of the program.
Definition: mimalloc-doc.h:762

mi_heap_reallocf
void * mi_heap_reallocf(mi_heap_t *heap, void *p, size_t newsize)

mi_free_size_aligned
void mi_free_size_aligned(void *p, size_t size, size_t alignment)

mi_rezalloc_aligned_at
void * mi_rezalloc_aligned_at(void *p, size_t newsize, size_t alignment, size_t offset)

mi_option_page_reset
Reset page memory after mi_option_reset_delay milliseconds when it becomes free.
Definition: mimalloc-doc.h:764

mi_thread_done
void mi_thread_done(void)
Uninitialize mimalloc on a thread.

mi_heap_visit_blocks
bool mi_heap_visit_blocks(const mi_heap_t *heap, bool visit_all_blocks, mi_block_visit_fun *visitor, void *arg)
Visit all areas and blocks in a heap.

mi_option_use_numa_nodes
Pretend there are at most N NUMA nodes.
Definition: mimalloc-doc.h:767

mi_malloc
void * mi_malloc(size_t size)
Allocate size bytes.

mi_register_error
void mi_register_error(mi_error_fun *errfun, void *arg)
Register an error callback function.

mi_option_reset_decommits
Experimental.
Definition: mimalloc-doc.h:768

mi_heap_strndup
char * mi_heap_strndup(mi_heap_t *heap, const char *s, size_t n)
Duplicate a string of at most length n in a specific heap.

mi_block_visit_fun
bool() mi_block_visit_fun(const mi_heap_t *heap, const mi_heap_area_t *area, void *block, size_t block_size, void *arg)
Visitor function passed to mi_heap_visit_blocks()
Definition: mimalloc-doc.h:729

mi_heap_recalloc
void * mi_heap_recalloc(mi_heap_t *heap, void *p, size_t newcount, size_t size)

mi_heap_malloc_aligned_at
void * mi_heap_malloc_aligned_at(mi_heap_t *heap, size_t size, size_t alignment, size_t offset)

mi_realpath
char * mi_realpath(const char *fname, char *resolved_name)
Resolve a file path name.

mi_option_show_errors
Print error messages to stderr.
Definition: mimalloc-doc.h:755

mi_option_segment_reset
Experimental.
Definition: mimalloc-doc.h:765

mi_heap_rezalloc_aligned
void * mi_heap_rezalloc_aligned(mi_heap_t *heap, void *p, size_t newsize, size_t alignment)

mi_new_aligned_nothrow
void * mi_new_aligned_nothrow(size_t n, size_t alignment)
like mi_malloc_aligned, but when out of memory, use std::get_new_handler but return NULL on failure.

mi_memalign
void * mi_memalign(size_t alignment, size_t size)

mi_rezalloc_aligned
void * mi_rezalloc_aligned(void *p, size_t newsize, size_t alignment)

mi_heap_contains_block
bool mi_heap_contains_block(mi_heap_t *heap, const void *p)
Does a heap contain a pointer to a previously allocated block?

mi_heap_collect
void mi_heap_collect(mi_heap_t *heap, bool force)
Release outstanding resources in a specific heap.

mi_heap_recalloc_aligned_at
void * mi_heap_recalloc_aligned_at(mi_heap_t *heap, void *p, size_t newcount, size_t size, size_t alignment, size_t offset)

mi_option_verbose
Print verbose messages to stderr.
Definition: mimalloc-doc.h:757

mi_zalloc_aligned_at
void * mi_zalloc_aligned_at(size_t size, size_t alignment, size_t offset)

mi_malloc_aligned_at
void * mi_malloc_aligned_at(size_t size, size_t alignment, size_t offset)
Allocate size bytes aligned by alignment at a specified offset.

mi_heap_delete
void mi_heap_delete(mi_heap_t *heap)
Delete a previously allocated heap.

mi_option_os_tag
OS tag to assign to mimalloc'd memory.
Definition: mimalloc-doc.h:770

mi_heap_get_default
mi_heap_t * mi_heap_get_default()
Get the default heap that is used for mi_malloc() et al.

mi_reserve_huge_os_pages_at
int mi_reserve_huge_os_pages_at(size_t pages, int numa_node, size_t timeout_msecs)
Reserve pages of huge OS pages (1GiB) at a specific numa_node, but stops after at most timeout_msecs ...

mi_option_disable
void mi_option_disable(mi_option_t option)

mi_aligned_alloc
void * mi_aligned_alloc(size_t alignment, size_t size)

mi_valloc
void * mi_valloc(size_t size)

mi_thread_init
void mi_thread_init(void)
Initialize mimalloc on a thread.

mi_good_size
size_t mi_good_size(size_t size)
Return the used allocation size.

mi_stats_print
void mi_stats_print(void *out)
Deprecated.

mi_option_eager_commit_delay
Experimental.
Definition: mimalloc-doc.h:769

mi_heap_recalloc_aligned
void * mi_heap_recalloc_aligned(mi_heap_t *heap, void *p, size_t newcount, size_t size, size_t alignment)

mi_heap_mallocn
void * mi_heap_mallocn(mi_heap_t *heap, size_t count, size_t size)
Allocate count elements in a specific heap.

mi_heap_area_t
An area of heap space contains blocks of a single size.
Definition: mimalloc-doc.h:714

mi_thread_stats_print_out
void mi_thread_stats_print_out(mi_output_fun *out, void *arg)
Print out heap statistics for this thread.

mi_option_show_stats
Print statistics to stderr when the program is done.
Definition: mimalloc-doc.h:756

mi_zalloc_aligned
void * mi_zalloc_aligned(size_t size, size_t alignment)

mi_heap_area_t::reserved
size_t reserved
bytes reserved for this area
Definition: mimalloc-doc.h:716

mi_heap_t
struct mi_heap_s mi_heap_t
Type of first-class heaps.
Definition: mimalloc-doc.h:507

mi_heap_area_t::used
size_t used
bytes in use by allocated blocks
Definition: mimalloc-doc.h:718

mi_register_deferred_free
void mi_register_deferred_free(mi_deferred_free_fun *deferred_free, void *arg)
Register a deferred free function.

mi_free_size
void mi_free_size(void *p, size_t size)

mi_collect
void mi_collect(bool force)
Eagerly free memory.

mi_new_reallocn
void * mi_new_reallocn(void *p, size_t newcount, size_t size)
like mi_reallocn(), but when out of memory, use std::get_new_handler and raise std::bad_alloc excepti...

mi_heap_destroy
void mi_heap_destroy(mi_heap_t *heap)
Destroy a heap, freeing all its still allocated blocks.

mi_calloc_aligned_at
void * mi_calloc_aligned_at(size_t count, size_t size, size_t alignment, size_t offset)

mi_option_large_os_pages
Use large OS pages (2MiB in size) if possible.
Definition: mimalloc-doc.h:761

mi_heap_reallocn
void * mi_heap_reallocn(mi_heap_t *heap, void *p, size_t count, size_t size)

mi_register_output
void mi_register_output(mi_output_fun *out, void *arg)
Register an output function.

mi_stl_allocator
std::allocator implementation for mimalloc for use in STL containers.
Definition: mimalloc-doc.h:858

mi_heap_malloc_small
void * mi_heap_malloc_small(mi_heap_t *heap, size_t size)
Allocate a small object in a specific heap.

mi_heap_realloc
void * mi_heap_realloc(mi_heap_t *heap, void *p, size_t newsize)

mi_malloc_usable_size
size_t mi_malloc_usable_size(const void *p)

mi_output_fun
void() mi_output_fun(const char *msg, void *arg)
Type of output functions.
Definition: mimalloc-doc.h:368

mi_strdup
char * mi_strdup(const char *s)
Allocate and duplicate a string.

mi_heap_realloc_aligned_at
void * mi_heap_realloc_aligned_at(mi_heap_t *heap, void *p, size_t newsize, size_t alignment, size_t offset)

mi_reallocf
void * mi_reallocf(void *p, size_t newsize)
Re-allocate memory to newsize bytes,.

mi_calloc
void * mi_calloc(size_t count, size_t size)
Allocate zero-initialized count elements of size bytes.

mi_heap_zalloc_aligned_at
void * mi_heap_zalloc_aligned_at(mi_heap_t *heap, size_t size, size_t alignment, size_t offset)

mi_malloc_small
void * mi_malloc_small(size_t size)
Allocate a small object.

mi_check_owned
bool mi_check_owned(const void *p)
Check safely if any pointer is part of the default heap of this thread.

mi_heap_malloc_aligned
void * mi_heap_malloc_aligned(mi_heap_t *heap, size_t size, size_t alignment)

mi_option_get
long mi_option_get(mi_option_t option)

mi_heap_get_backing
mi_heap_t * mi_heap_get_backing()
Get the backing heap.

mi_free_aligned
void mi_free_aligned(void *p, size_t alignment)

mi_new
void * mi_new(std::size_t n) noexcept(false)
like mi_malloc(), but when out of memory, use std::get_new_handler and raise std::bad_alloc exception...

mi_option_reset_delay
Delay in milli-seconds before resetting a page (100ms by default)
Definition: mimalloc-doc.h:766

mi_heap_new
mi_heap_t * mi_heap_new()
Create a new heap that can be used for allocation.

mi_heap_malloc
void * mi_heap_malloc(mi_heap_t *heap, size_t size)
Allocate in a specific heap.

mi_heap_area_t::committed
size_t committed
current committed bytes of this area
Definition: mimalloc-doc.h:717

mi_option_t
mi_option_t
Runtime options.
Definition: mimalloc-doc.h:753

mi_heap_check_owned
bool mi_heap_check_owned(mi_heap_t *heap, const void *p)
Check safely if any pointer is part of a heap.

mi_heap_set_default
mi_heap_t * mi_heap_set_default(mi_heap_t *heap)
Set the default heap to use for mi_malloc() et al.