mi_ Präfix-Implementierungen verschiedener Posix-, Unix- und C++-Allokationsfunktionen. Mehr...

Funktionen
void	mi_cfree (void *p)
	Genau wie `free`, prüft aber auch, ob der Zeiger `p` zu unserem Heap gehört.

void *	mi__expand (void *p, size_t newsize)

size_t	mi_malloc_size (const void *p)

size_t	mi_malloc_good_size (size_t size)

size_t	mi_malloc_usable_size (const 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)

unsigned short *	mi_wcsdup (const unsigned short *s)

unsigned char *	mi_mbsdup (const unsigned char *s)

int	mi_dupenv_s (char *buf, size_t size, const char *name)

int	mi_wdupenv_s (unsigned short *buf, size_t size, const unsigned short *name)

void *	mi_reallocarray (void *p, size_t count, size_t size)
	Entspricht `reallocarray` in FreeBSD. reallocarray

int	mi_reallocarr (void *p, size_t count, size_t size)
	Entspricht `reallocarr` in NetBSD. reallocarr

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

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

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)

Detaillierte Beschreibung

mi_ Präfix-Implementierungen verschiedener Posix-, Unix- und C++-Allokationsfunktionen.

Der Einfachheit halber definiert, da alle auf die reguläre mimalloc API umgeleitet werden.

Funktionsdokumentation

◆ mi__expand()

void * mi__expand	(	void *	p,
		size_t	newsize )

◆ mi__posix_memalign()

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

◆ mi_aligned_alloc()

void * mi_aligned_alloc	(	size_t	alignment,
		size_t	size )

◆ mi_aligned_offset_recalloc()

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

◆ mi_aligned_recalloc()

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

◆ mi_cfree()

void mi_cfree ( void * p )

Genau wie free, prüft aber auch, ob der Zeiger p zu unserem Heap gehört.

◆ mi_dupenv_s()

int mi_dupenv_s	(	char **	buf,
		size_t *	size,
		const char *	name )

◆ mi_free_aligned()

void mi_free_aligned	(	void *	p,
		size_t	alignment )

◆ mi_free_size()

void mi_free_size	(	void *	p,
		size_t	size )

◆ mi_free_size_aligned()

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

◆ mi_malloc_good_size()

size_t mi_malloc_good_size ( size_t size )

◆ mi_malloc_size()

size_t mi_malloc_size ( const void * p )

◆ mi_malloc_usable_size()

size_t mi_malloc_usable_size ( const void * p )

◆ mi_mbsdup()

unsigned char * mi_mbsdup ( const unsigned char * s )

◆ mi_memalign()

void * mi_memalign	(	size_t	alignment,
		size_t	size )

◆ mi_posix_memalign()

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

◆ mi_pvalloc()

void * mi_pvalloc ( size_t size )

◆ mi_reallocarr()

int mi_reallocarr	(	void *	p,
		size_t	count,
		size_t	size )

Entspricht reallocarr in NetBSD. reallocarr

◆ mi_reallocarray()

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

Entspricht reallocarray in FreeBSD. reallocarray

◆ mi_valloc()

void * mi_valloc ( size_t size )

◆ mi_wcsdup()

unsigned short * mi_wcsdup ( const unsigned short * s )

◆ mi_wdupenv_s()

int mi_wdupenv_s	(	unsigned short **	buf,
		size_t *	size,
		const unsigned short *	name )

Funktionen