Memory Allocation Macros and Functions

Defines
#define	OSRTALLOCTYPE(pctxt, type)   (type*) rtxMemHeapAlloc (&(pctxt)->pMemHeap, sizeof(type))
#define	OSRTALLOCTYPEZ(pctxt, type)   (type*) rtxMemHeapAllocZ (&(pctxt)->pMemHeap, sizeof(type))
#define	OSRTREALLOCARRAY(pctxt, pseqof, type)
#define	OSCRTMALLOC0(nbytes)   malloc(nbytes)
#define	OSCRTFREE0(ptr)   free(ptr)
#define	OSCRTMALLOC   rtxMemAlloc
#define	OSCRTFREE   rtxMemFreePtr
#define	rtxMemAlloc(pctxt, nbytes)   rtxMemHeapAlloc(&(pctxt)->pMemHeap,nbytes)
#define	rtxMemSysAlloc(pctxt, nbytes)   rtxMemHeapSysAlloc(&(pctxt)->pMemHeap,nbytes)
#define	rtxMemAllocZ(pctxt, nbytes)   rtxMemHeapAllocZ(&(pctxt)->pMemHeap,nbytes)
#define	rtxMemSysAllocZ(pctxt, nbytes)   rtxMemHeapSysAllocZ(&(pctxt)->pMemHeap,nbytes)
#define	rtxMemRealloc(pctxt, mem_p, nbytes)   rtxMemHeapRealloc(&(pctxt)->pMemHeap, (void*)mem_p, nbytes)
#define	rtxMemSysRealloc(pctxt, mem_p, nbytes)   rtxMemHeapSysRealloc(&(pctxt)->pMemHeap,(void*)mem_p,nbytes)
#define	rtxMemFreePtr(pctxt, mem_p)   rtxMemHeapFreePtr(&(pctxt)->pMemHeap, (void*)mem_p)
#define	rtxMemSysFreePtr(pctxt, mem_p)   rtxMemHeapSysFreePtr(&(pctxt)->pMemHeap, (void*)mem_p)
#define	rtxMemAllocType(pctxt, ctype)   (ctype*)rtxMemHeapAlloc(&(pctxt)->pMemHeap,sizeof(ctype))
#define	rtxMemSysAllocType(pctxt, ctype)   (ctype*)rtxMemHeapSysAlloc(&(pctxt)->pMemHeap,sizeof(ctype))
#define	rtxMemAllocTypeZ(pctxt, ctype)   (ctype*)rtxMemHeapAllocZ(&(pctxt)->pMemHeap,sizeof(ctype))
#define	rtxMemSysAllocTypeZ(pctxt, ctype)   (ctype*)rtxMemHeapSysAllocZ(&(pctxt)->pMemHeap,sizeof(ctype))
#define	rtxMemFreeType(pctxt, mem_p)   rtxMemHeapFreePtr(&(pctxt)->pMemHeap, (void*)mem_p)
#define	rtxMemSysFreeType(pctxt, mem_p)   rtxMemHeapSysFreePtr(&(pctxt)->pMemHeap, (void*)mem_p)
#define	rtxMemAllocArray(pctxt, n, type)   (type*)rtxMemHeapAlloc (&(pctxt)->pMemHeap, sizeof(type)*n)
#define	rtxMemSysAllocArray(pctxt, n, type)   (type*)rtxMemHeapSysAlloc (&(pctxt)->pMemHeap, sizeof(type)*n)
#define	rtxMemAllocArrayZ(pctxt, n, type)   (type*)rtxMemHeapAllocZ (&(pctxt)->pMemHeap, sizeof(type)*n)
#define	rtxMemFreeArray(pctxt, mem_p)   rtxMemHeapFreePtr(&(pctxt)->pMemHeap, (void*)mem_p)
#define	rtxMemSysFreeArray(pctxt, mem_p)   rtxMemHeapSysFreePtr(&(pctxt)->pMemHeap, (void*)mem_p)
#define	rtxMemReallocArray(pctxt, mem_p, n, type)   (type*)rtxMemHeapRealloc(&(pctxt)->pMemHeap, (void*)mem_p, sizeof(type)*n)
#define	rtxMemNewAutoPtr(pctxt, nbytes)   rtxMemHeapAlloc(&(pctxt)->pMemHeap, nbytes)
#define	rtxMemAutoPtrRef(pctxt, ptr)   rtxMemHeapAutoPtrRef(&(pctxt)->pMemHeap, (void*)(ptr))
#define	rtxMemAutoPtrUnref(pctxt, ptr)   rtxMemHeapAutoPtrUnref(&(pctxt)->pMemHeap, (void*)(ptr))
#define	rtxMemAutoPtrGetRefCount(pctxt, ptr)   rtxMemHeapAutoPtrGetRefCount(&(pctxt)->pMemHeap, (void*)(ptr))
#define	rtxMemCheckPtr(pctxt, mem_p)   rtxMemHeapCheckPtr(&(pctxt)->pMemHeap, (void*)mem_p)
#define	rtxMemCheck(pctxt)   rtxMemHeapCheck(&(pctxt)->pMemHeap, __FILE__, __LINE__)
#define	rtxMemPrint(pctxt)   rtxMemHeapPrint(&(pctxt)->pMemHeap)
#define	rtxMemSetProperty(pctxt, propId, pProp)   rtxMemHeapSetProperty (&(pctxt)->pMemHeap, propId, pProp)
Functions
void	rtxMemHeapAddRef (void **ppvMemHeap)
void *	rtxMemHeapAlloc (void **ppvMemHeap, size_t nbytes)
void *	rtxMemHeapAllocZ (void **ppvMemHeap, size_t nbytes)
void *	rtxMemHeapSysAlloc (void **ppvMemHeap, size_t nbytes)
void *	rtxMemHeapSysAllocZ (void **ppvMemHeap, size_t nbytes)
int	rtxMemHeapCheckPtr (void **ppvMemHeap, const void *mem_p)
int	rtxMemHeapCreate (void **ppvMemHeap)
int	rtxMemHeapCreateExt (void **ppvMemHeap, OSMallocFunc malloc_func, OSReallocFunc realloc_func, OSFreeFunc free_func)
void	rtxMemHeapFreeAll (void **ppvMemHeap)
void	rtxMemHeapFreePtr (void **ppvMemHeap, void *mem_p)
void	rtxMemHeapSysFreePtr (void **ppvMemHeap, void *mem_p)
void *	rtxMemHeapRealloc (void **ppvMemHeap, void *mem_p, size_t nbytes_)
void *	rtxMemHeapSysRealloc (void **ppvMemHeap, void *mem_p, size_t nbytes_)
void	rtxMemHeapRelease (void **ppvMemHeap)
void	rtxMemHeapReset (void **ppvMemHeap)
void	rtxMemHeapSetProperty (void **ppvMemHeap, OSUINT32 propId, void *pProp)
void *	rtxMemNewArray (size_t nbytes)
void *	rtxMemNewArrayZ (size_t nbytes)
void	rtxMemDeleteArray (void *mem_p)
void *	rtxMemHeapAutoPtrRef (void **ppvMemHeap, void *ptr)
int	rtxMemHeapAutoPtrUnref (void **ppvMemHeap, void *ptr)
int	rtxMemHeapAutoPtrGetRefCount (void **ppvMemHeap, void *mem_p)
void	rtxMemHeapInvalidPtrHook (void **ppvMemHeap, const void *mem_p)
void	rtxMemHeapCheck (void **ppvMemHeap, const char *file, int line)
void	rtxMemHeapPrint (void **ppvMemHeap)
void	rtxMemSetAllocFuncs (OSMallocFunc malloc_func, OSReallocFunc realloc_func, OSFreeFunc free_func)
void	rtxMemFreeOpenSeqExt (OSCTXT *pctxt, struct OSRTDList *pElemList)
OSUINT32	rtxMemHeapGetDefBlkSize (OSCTXT *pctxt)
void	rtxMemSetDefBlkSize (OSUINT32 blkSize)
OSUINT32	rtxMemGetDefBlkSize ()
OSBOOL	rtxMemHeapIsEmpty (OSCTXT *pctxt)
OSBOOL	rtxMemIsZero (const void *pmem, size_t memsiz)
void	rtxMemFree (OSCTXT *pctxt)
void	rtxMemReset (OSCTXT *pctxt)

---

Detailed Description

Memory allocation functions and macros handle memory management for the XBinder C run-time. Special algorithms are used for allocation and deallocation of memory to improve the run-time performance.

---

Define Documentation

#define OSRTALLOCTYPE	(	pctxt,
		type		)	(type*) rtxMemHeapAlloc (&(pctxt)->pMemHeap, sizeof(type))

This macro allocates a single element of the given type.

Parameters:

	pctxt	- Pointer to a context block
	type	- Data type of record to allocate

#define OSRTALLOCTYPEZ	(	pctxt,
		type		)	(type*) rtxMemHeapAllocZ (&(pctxt)->pMemHeap, sizeof(type))

This macro allocates and zeros a single element of the given type.

Parameters:

	pctxt	- Pointer to a context block
	type	- Data type of record to allocate

#define OSRTREALLOCARRAY	(	pctxt,
		pseqof,
		type		)

Value:

do {\
if (sizeof(type)*(pseqof)->n < (pseqof)->n) return RTERR_NOMEM; \
if (((pseqof)->elem = (type*) rtxMemHeapRealloc \
(&(pctxt)->pMemHeap, (pseqof)->elem, sizeof(type)*(pseqof)->n)) == 0) \
return RTERR_NOMEM; \
} while (0)

Reallocate an array. This macro reallocates an array (either expands or contracts) to hold the given number of elements. The number of elements is specified in the n member variable of the pseqof argument.

Parameters:

	pctxt	- Pointer to a context block
	pseqof	- Pointer to a generated SEQUENCE OF array structure. The n member variable must be set to the number of records to allocate.
	type	- Data type of an array record

#define rtxMemAlloc	(	pctxt,
		nbytes		)	rtxMemHeapAlloc(&(pctxt)->pMemHeap,nbytes)

Allocate memory. This macro allocates the given number of bytes. It is similar to the C malloc run-time function.

Parameters:

	pctxt	- Pointer to a context block
	nbytes	- Number of bytes of memory to allocate

Returns:

- Void pointer to allocated memory or NULL if insufficient memory was available to fulfill the request.

Referenced by OSRTContext::memAlloc().

#define rtxMemAllocArray	(	pctxt,
		n,
		type		)	(type*)rtxMemHeapAlloc (&(pctxt)->pMemHeap, sizeof(type)*n)

Allocate a dynamic array. This macro allocates a dynamic array of records of the given type. The pointer to the allocated array is returned to the caller.

Parameters:

	pctxt	- Pointer to a context block
	n	- Number of records to allocate
	type	- Data type of an array record

#define rtxMemAllocArrayZ	(	pctxt,
		n,
		type		)	(type*)rtxMemHeapAllocZ (&(pctxt)->pMemHeap, sizeof(type)*n)

Allocate a dynamic array and zero memory. This macro allocates a dynamic array of records of the given type and writes zeros over the allocated memory. The pointer to the allocated array is returned to the caller.

Parameters:

	pctxt	- Pointer to a context block
	n	- Number of records to allocate
	type	- Data type of an array record

#define rtxMemAllocType	(	pctxt,
		ctype		)	(ctype*)rtxMemHeapAlloc(&(pctxt)->pMemHeap,sizeof(ctype))

Allocate type. This macro allocates memory to hold a variable of the given type.

Parameters:

	pctxt	- Pointer to a context block
	ctype	- Name of C typedef

Returns:

- Pointer to allocated memory or NULL if insufficient memory was available to fulfill the request.

#define rtxMemAllocTypeZ	(	pctxt,
		ctype		)	(ctype*)rtxMemHeapAllocZ(&(pctxt)->pMemHeap,sizeof(ctype))

Allocate type and zero memory. This macro allocates memory to hold a variable of the given type and initializes the allocated memory to zero.

Parameters:

	pctxt	- Pointer to a context block
	ctype	- Name of C typedef

Returns:

- Pointer to allocated memory or NULL if insufficient memory was available to fulfill the request.

#define rtxMemAllocZ	(	pctxt,
		nbytes		)	rtxMemHeapAllocZ(&(pctxt)->pMemHeap,nbytes)

Allocate and zero memory. This macro allocates the given number of bytes and then initializes the memory block to zero.

Parameters:

	pctxt	- Pointer to a context block
	nbytes	- Number of bytes of memory to allocate

Returns:

- Void pointer to allocated memory or NULL if insufficient memory was available to fulfill the request.

Referenced by OSRTContext::memAllocZ().

#define rtxMemAutoPtrGetRefCount	(	pctxt,
		ptr		)	rtxMemHeapAutoPtrGetRefCount(&(pctxt)->pMemHeap, (void*)(ptr))

This function returns the reference count of the given pointer. goes to zero, the memory is freed.

Parameters:

	pctxt	Pointer to a context structure.
	ptr	Pointer on which reference count is to be fetched.

Returns:

Pointer reference count.

#define rtxMemAutoPtrRef	(	pctxt,
		ptr		)	rtxMemHeapAutoPtrRef(&(pctxt)->pMemHeap, (void*)(ptr))

This function increments the auto-pointer reference count.

Parameters:

	pctxt	Pointer to a context structure.
	ptr	Pointer on which reference count is to be incremented.

Returns:

Referenced pointer value (ptr argument) or NULL if reference count could not be incremented.

#define rtxMemAutoPtrUnref	(	pctxt,
		ptr		)	rtxMemHeapAutoPtrUnref(&(pctxt)->pMemHeap, (void*)(ptr))

This function decrements the auto-pointer reference count. If the count goes to zero, the memory is freed.

Parameters:

	pctxt	Pointer to a context structure.
	ptr	Pointer on which reference count is to be decremented.

Returns:

Positive reference count or a negative error code. If zero, memory held by pointer will have been freed.

#define rtxMemCheck

(

pctxt

)

rtxMemHeapCheck(&(pctxt)->pMemHeap, __FILE__, __LINE__)

Check memory heap.

Parameters:

pctxt

- Pointer to a context block

#define rtxMemCheckPtr	(	pctxt,
		mem_p		)	rtxMemHeapCheckPtr(&(pctxt)->pMemHeap, (void*)mem_p)

Check memory pointer. This macro check pointer on presence in heap.

Parameters:

	pctxt	- Pointer to a context block
	mem_p	- Pointer to memory block.

Returns:

1 - pointer refer to memory block in heap; 0 - poiter refer not memory heap block.

#define rtxMemFreeArray	(	pctxt,
		mem_p		)	rtxMemHeapFreePtr(&(pctxt)->pMemHeap, (void*)mem_p)

Free memory pointer. This macro frees memory at the given pointer. The memory must have been allocated using the rtxMemAlloc (or similar) macros or the rtxMem memory allocation macros. This macro is similar to the C free function.

Parameters:

	pctxt	- Pointer to a context block
	mem_p	- Pointer to memory block to free. This must have been allocated using the rtxMemAlloc or rtxMemAlloc macro or the rtxMemHeapAlloc function.

#define rtxMemFreePtr	(	pctxt,
		mem_p		)	rtxMemHeapFreePtr(&(pctxt)->pMemHeap, (void*)mem_p)

Free memory pointer. This macro frees memory at the given pointer. The memory must have been allocated using the rtxMemAlloc (or similar) macros or the rtxMem memory allocation macros. This macro is similar to the C free function.

Parameters:

	pctxt	- Pointer to a context block
	mem_p	- Pointer to memory block to free. This must have been allocated using the rtxMemAlloc macro or the rtxMemHeapAlloc function.

Referenced by OSRTContext::memFreePtr().

#define rtxMemFreeType	(	pctxt,
		mem_p		)	rtxMemHeapFreePtr(&(pctxt)->pMemHeap, (void*)mem_p)

Free memory pointer. This macro frees memory at the given pointer. The memory must have been allocated using the rtxMemAlloc (or similar) macros or the rtxMem memory allocation macros. This macro is similar to the C free function.

Parameters:

	pctxt	- Pointer to a context block
	mem_p	- Pointer to memory block to free. This must have been allocated using the rtxMemAlloc or rtxMemAlloc macro or the rtxMemHeapAlloc function.

#define rtxMemNewAutoPtr	(	pctxt,
		nbytes		)	rtxMemHeapAlloc(&(pctxt)->pMemHeap, nbytes)

This function allocates a new block of memory and creates an auto-pointer with reference count set to one. The rtxMemAutoPtrRef and rtxMemAutoPtrUnref functions can be used to increment and decrement the reference count. When the count goes to zero, the memory held by the pointer is freed.

Parameters:

	pctxt	Pointer to a context structure.
	nbytes	Number of bytes to allocate.

Returns:

Pointer to allocated memory or NULL if not enough memory is available.

#define rtxMemPrint

(

pctxt

)

rtxMemHeapPrint(&(pctxt)->pMemHeap)

Print memory heap structure to stderr.

Parameters:

pctxt

- Pointer to a context block

#define rtxMemRealloc	(	pctxt,
		mem_p,
		nbytes		)	rtxMemHeapRealloc(&(pctxt)->pMemHeap, (void*)mem_p, nbytes)

Reallocate memory. This macro reallocates a memory block (either expands or contracts) to the given number of bytes. It is similar to the C realloc run-time function.

Parameters:

	pctxt	- Pointer to a context block
	mem_p	- Pointer to memory block to reallocate. This must have been allocated using the rtxMemAlloc macro or the rtxMemHeapAlloc function.
	nbytes	- Number of bytes of memory to which the block is to be resized.

Returns:

- Void pointer to allocated memory or NULL if insufficient memory was available to fulfill the request. This may be the same as the mem_p pointer that was passed in if the block did not need to be relocated.

Referenced by OSRTContext::memRealloc().

#define rtxMemReallocArray	(	pctxt,
		mem_p,
		n,
		type		)	(type*)rtxMemHeapRealloc(&(pctxt)->pMemHeap, (void*)mem_p, sizeof(type)*n)

Reallocate memory. This macro reallocates a memory block (either expands or contracts) to the given number of bytes. It is similar to the C realloc run-time function.

Parameters:

	pctxt	- Pointer to a context block
	mem_p	- Pointer to memory block to reallocate. This must have been allocated using the rtxMemAlloc macro or the rtxMemHeapAlloc function.
	n	- Number of items of the given type to be allocated.
	type	- Array element data type (for example, int).

Returns:

- Void pointer to allocated memory or NULL if insufficient memory was available to fulfill the request. This may be the same as the pmem pointer that was passed in if the block did not need to be relocated.

#define rtxMemSetProperty	(	pctxt,
		propId,
		pProp		)	rtxMemHeapSetProperty (&(pctxt)->pMemHeap, propId, pProp)

Set memory heap property.

Parameters:

	pctxt	- Pointer to a context block
	propId	- Property Id.
	pProp	- Pointer to property value.

#define rtxMemSysAlloc	(	pctxt,
		nbytes		)	rtxMemHeapSysAlloc(&(pctxt)->pMemHeap,nbytes)

This macro makes a direct call to the configured system memory allocation function. By default, this is the C malloc function, but it is possible to configure to use a custom allocation function.

Parameters:

	pctxt	- Pointer to a context block
	nbytes	- Number of bytes of memory to allocate

Returns:

- Void pointer to allocated memory or NULL if insufficient memory was available to fulfill the request.

#define rtxMemSysAllocArray	(	pctxt,
		n,
		type		)	(type*)rtxMemHeapSysAlloc (&(pctxt)->pMemHeap, sizeof(type)*n)

Allocate a dynamic array. This macro allocates a dynamic array of records of the given type. The pointer to the allocated array is returned to the caller.

This macro makes a direct call to the configured system memory allocation function. By default, this is the C malloc function, but it is possible to configure to use a custom allocation function.

Parameters:

	pctxt	- Pointer to a context block
	n	- Number of records to allocate
	type	- Data type of an array record

#define rtxMemSysAllocType	(	pctxt,
		ctype		)	(ctype*)rtxMemHeapSysAlloc(&(pctxt)->pMemHeap,sizeof(ctype))

Allocate type. This macro allocates memory to hold a variable of the given type.

This macro makes a direct call to the configured system memory allocation function. By default, this is the C malloc function, but it is possible to configure to use a custom allocation function.

Parameters:

	pctxt	- Pointer to a context block
	ctype	- Name of C typedef

Returns:

- Pointer to allocated memory or NULL if insufficient memory was available to fulfill the request.

#define rtxMemSysAllocTypeZ	(	pctxt,
		ctype		)	(ctype*)rtxMemHeapSysAllocZ(&(pctxt)->pMemHeap,sizeof(ctype))

Allocate type and zero memory. This macro allocates memory to hold a variable of the given type and initializes the allocated memory to zero.

This macro makes a direct call to the configured system memory allocation function. By default, this is the C malloc function, but it is possible to configure to use a custom allocation function.

Parameters:

	pctxt	- Pointer to a context block
	ctype	- Name of C typedef

Returns:

- Pointer to allocated memory or NULL if insufficient memory was available to fulfill the request.

#define rtxMemSysAllocZ	(	pctxt,
		nbytes		)	rtxMemHeapSysAllocZ(&(pctxt)->pMemHeap,nbytes)

Allocate and zero memory. This macro allocates the given number of bytes and then initializes the memory block to zero.

This macro makes a direct call to the configured system memory allocation function. By default, this is the C malloc function, but it is possible to configure to use a custom allocation function.

Parameters:

	pctxt	- Pointer to a context block
	nbytes	- Number of bytes of memory to allocate

Returns:

- Void pointer to allocated memory or NULL if insufficient memory was available to fulfill the request.

#define rtxMemSysFreeArray	(	pctxt,
		mem_p		)	rtxMemHeapSysFreePtr(&(pctxt)->pMemHeap, (void*)mem_p)

Free memory pointer. This macro frees memory at the given pointer. The memory must have been allocated using the rtxMemSysAlloc (or similar) macros or the rtxMemSys memory allocation macros. This macro is similar to the C free function.

Parameters:

	pctxt	- Pointer to a context block
	mem_p	- Pointer to memory block to free. This must have been allocated using the rtxMemSysAlloc or rtxMemSysAlloc macro or the rtxMemSysHeapAlloc function.

#define rtxMemSysFreePtr	(	pctxt,
		mem_p		)	rtxMemHeapSysFreePtr(&(pctxt)->pMemHeap, (void*)mem_p)

This macro makes a direct call to the configured system memory free function. By default, this is the C free function, but it is possible to configure to use a custom free function.

Parameters:

	pctxt	- Pointer to a context block
	mem_p	- Pointer to memory block to free. This must have been allocated using the rtxMemSysAlloc macro or the rtxMemHeapSysAlloc function.

#define rtxMemSysFreeType	(	pctxt,
		mem_p		)	rtxMemHeapSysFreePtr(&(pctxt)->pMemHeap, (void*)mem_p)

Free memory pointer. This macro frees memory at the given pointer. The memory must have been allocated using the rtxMemSysAlloc (or similar) macros or the rtxMemSys memory allocation macros. This macro is similar to the C free function.

Parameters:

	pctxt	- Pointer to a context block
	mem_p	- Pointer to memory block to free. This must have been allocated using the rtxMemSysAlloc or rtxMemSysAlloc macro or the rtxMemSysHeapAlloc function.

#define rtxMemSysRealloc	(	pctxt,
		mem_p,
		nbytes		)	rtxMemHeapSysRealloc(&(pctxt)->pMemHeap,(void*)mem_p,nbytes)

This macro makes a direct call to the configured system memory reallocation function to do the reallocation.. By default, this is the C realloc function, but it is possible to configure to use a custom reallocation function.

Parameters:

	pctxt	- Pointer to a context block
	mem_p	- Pointer to memory block to reallocate. This must have been allocated using the rtxMemSysAlloc macro or the rtxMemHeapSysAlloc function.
	nbytes	- Number of bytes of memory to which the block is to be resized.

Returns:

- Void pointer to allocated memory or NULL if insufficient memory was available to fulfill the request. This may be the same as the mem_p pointer that was passed in if the block did not need to be relocated.

---

Function Documentation

void rtxMemFree

(

OSCTXT *

pctxt

)

Free memory associated with a context. This macro frees all memory held within a context. This is all memory allocated using the rtxMemAlloc (and similar macros) and the rtxMem memory allocation functions using the given context variable.

Parameters:

pctxt

- Pointer to a context block

Referenced by OSRTContext::memFreeAll().

OSUINT32 rtxMemGetDefBlkSize

(

)

This function returns the actual granularity of memory blocks.

Returns:

The currently used minimum size and the granularity of memory blocks.

OSUINT32 rtxMemHeapGetDefBlkSize

(

OSCTXT *

pctxt

)

This function returns the actual granularity of memory blocks in the context.

Parameters:

pctxt

Pointer to a context block.

OSBOOL rtxMemHeapIsEmpty

(

OSCTXT *

pctxt

)

This function determines if the memory heap defined in the give context is empty (i.e. contains no outstanding memory allocations).

Parameters:

pctxt

Pointer to a context block.

Returns:

Boolean true value if heap is empty.

OSBOOL rtxMemIsZero	(	const void *	pmem,
		size_t	memsiz
	)

This helper function determines if an arbitrarily sized block of memory is set to zero.

Parameters:

	pmem	Pointer to memory block to check
	memsiz	Size of the memory block

Returns:

Boolean result: true if memory is all zero

void rtxMemReset

(

OSCTXT *

pctxt

)

Reset memory associated with a context. This macro resets all memory held within a context. This is all memory allocated using the rtxMemAlloc (and similar macros) and the rtxMem memory allocation functions using the given context variable.

The difference between this and the OSMEMFREE macro is that the memory blocks held within the context are not actually freed. Internal pointers are reset so the existing blocks can be reused. This can provide a performace improvement for repetitive tasks such as decoding messages in a loop.

Parameters:

pctxt

- Pointer to a context block

Referenced by OSRTContext::memReset().

void rtxMemSetAllocFuncs	(	OSMallocFunc	malloc_func,
		OSReallocFunc	realloc_func,
		OSFreeFunc	free_func
	)

This function sets the pointers to standard allocation functions. These functions are used to allocate/reallocate/free memory blocks. By default, standard C functions - 'malloc', 'realloc' and 'free' - are used. But if some platforms do not support these functions (or some other reasons exist) they can be overloaded. The functions being overloaded should have the same prototypes as the standard functions.

Parameters:

	malloc_func	Pointer to the memory allocation function ('malloc' by default).
	realloc_func	Pointer to the memory reallocation function ('realloc' by default).
	free_func	Pointer to the memory deallocation function ('free' by default).

void rtxMemSetDefBlkSize

(

OSUINT32

blkSize

)

This function sets the minimum size and the granularity of memory blocks for newly created memory heaps.

Parameters:

blkSize

The minimum size and the granularity of memory blocks.