src/fallback_malloc.ipp - platform/external/libcxxabi_35a - Git at Google

 //===------------------------ fallback_malloc.ipp -------------------------===//
 //
 //                     The LLVM Compiler Infrastructure
 //
 // This file is dual licensed under the MIT and the University of Illinois Open
 // Source Licenses. See LICENSE.TXT for details.
 //
 //
 //  This file implements the "Exception Handling APIs"
 //  http://www.codesourcery.com/public/cxx-abi/abi-eh.html
 //
 //===----------------------------------------------------------------------===//

 //  A small, simple heap manager based (loosely) on
 //  the startup heap manager from FreeBSD, optimized for space.
 //
 //  Manages a fixed-size memory pool, supports malloc and free only.
 //  No support for realloc.
 //
 //  Allocates chunks in multiples of four bytes, with a four byte header
 //  for each chunk. The overhead of each chunk is kept low by keeping pointers
 //  as two byte offsets within the heap, rather than (4 or 8 byte) pointers.

 namespace {

 static pthread_mutex_t heap_mutex = PTHREAD_MUTEX_INITIALIZER;

 class mutexor {
 public:
     mutexor ( pthread_mutex_t *m ) : mtx_(m) { pthread_mutex_lock ( mtx_ ); }
     ~mutexor () { pthread_mutex_unlock ( mtx_ ); }
 private:
     mutexor ( const mutexor &rhs );
     mutexor & operator = ( const mutexor &rhs );
     pthread_mutex_t *mtx_;
     };


 #define HEAP_SIZE   512
 char heap [ HEAP_SIZE ];

 typedef unsigned short heap_offset;
 typedef unsigned short heap_size;

 struct heap_node {
     heap_offset next_node;  // offset into heap
     heap_size   len;        // size in units of "sizeof(heap_node)"
 };

 static const heap_node *list_end = (heap_node *) ( &heap [ HEAP_SIZE ] );   // one past the end of the heap
 static heap_node *freelist = NULL;

 heap_node *node_from_offset ( const heap_offset offset )
     { return (heap_node *) ( heap + ( offset * sizeof (heap_node))); }

 heap_offset offset_from_node ( const heap_node *ptr )
     { return static_cast<heap_offset>(static_cast<size_t>(((char *) ptr ) - heap)  / sizeof (heap_node)); }

 void init_heap () {
     freelist = (heap_node *) heap;
     freelist->next_node = offset_from_node ( list_end );
     freelist->len = HEAP_SIZE / sizeof (heap_node);
     }

 //  How big a chunk we allocate
 size_t alloc_size (size_t len)
     { return (len + sizeof(heap_node) - 1) / sizeof(heap_node) + 1; }

 bool is_fallback_ptr ( void *ptr )
     { return ptr >= heap && ptr < ( heap + HEAP_SIZE ); }

 void *fallback_malloc(size_t len) {
     heap_node *p, *prev;
     const size_t nelems = alloc_size ( len );
     mutexor mtx ( &heap_mutex );

     if ( NULL == freelist )
         init_heap ();

 //  Walk the free list, looking for a "big enough" chunk
     for (p = freelist, prev = 0;
             p && p != list_end;     prev = p, p = node_from_offset ( p->next_node)) {

         if (p->len > nelems) {  //  chunk is larger, shorten, and return the tail
             heap_node *q;

             p->len -= nelems;
             q = p + p->len;
             q->next_node = 0;
             q->len = static_cast<heap_size>(nelems);
             return (void *) (q + 1);
         }

         if (p->len == nelems) { // exact size match
             if (prev == 0)
                 freelist = node_from_offset(p->next_node);
             else
                 prev->next_node = p->next_node;
             p->next_node = 0;
             return (void *) (p + 1);
         }
     }
     return NULL;    // couldn't find a spot big enough
 }

 //  Return the start of the next block
 heap_node *after ( struct heap_node *p ) { return p + p->len; }

 void fallback_free (void *ptr) {
     struct heap_node *cp = ((struct heap_node *) ptr) - 1;      // retrieve the chunk
     struct heap_node *p, *prev;

     mutexor mtx ( &heap_mutex );

 #ifdef DEBUG_FALLBACK_MALLOC
         std::cout << "Freeing item at " << offset_from_node ( cp ) << " of size " << cp->len << std::endl;
 #endif

     for (p = freelist, prev = 0;
             p && p != list_end;     prev = p, p = node_from_offset (p->next_node)) {
 #ifdef DEBUG_FALLBACK_MALLOC
         std::cout << "  p, cp, after (p), after(cp) "
             << offset_from_node ( p ) << ' '
             << offset_from_node ( cp ) << ' '
             << offset_from_node ( after ( p )) << ' '
             << offset_from_node ( after ( cp )) << std::endl;
 #endif
         if ( after ( p ) == cp ) {
 #ifdef DEBUG_FALLBACK_MALLOC
             std::cout << "  Appending onto chunk at " << offset_from_node ( p ) << std::endl;
 #endif
             p->len += cp->len;  // make the free heap_node larger
             return;
             }
         else if ( after ( cp ) == p ) { // there's a free heap_node right after
 #ifdef DEBUG_FALLBACK_MALLOC
             std::cout << "  Appending free chunk at " << offset_from_node ( p ) << std::endl;
 #endif
             cp->len += p->len;
             if ( prev == 0 ) {
                 freelist = cp;
                 cp->next_node = p->next_node;
                 }
             else
                 prev->next_node = offset_from_node(cp);
             return;
             }
         }
 //  Nothing to merge with, add it to the start of the free list
 #ifdef DEBUG_FALLBACK_MALLOC
             std::cout << "  Making new free list entry " << offset_from_node ( cp ) << std::endl;
 #endif
     cp->next_node = offset_from_node ( freelist );
     freelist = cp;
 }

 #ifdef INSTRUMENT_FALLBACK_MALLOC
 size_t print_free_list () {
     struct heap_node *p, *prev;
     heap_size total_free = 0;
     if ( NULL == freelist )
         init_heap ();

     for (p = freelist, prev = 0;
             p && p != list_end;     prev = p, p = node_from_offset (p->next_node)) {
         std::cout << ( prev == 0 ? "" : "  ")  << "Offset: " << offset_from_node ( p )
                 << "\tsize: " << p->len << " Next: " << p->next_node << std::endl;
         total_free += p->len;
         }
     std::cout << "Total Free space: " << total_free << std::endl;
     return total_free;
     }
 #endif
 }  // end unnamed namespace
	//===------------------------ fallback_malloc.ipp -------------------------===//
	//
	// The LLVM Compiler Infrastructure
	//
	// This file is dual licensed under the MIT and the University of Illinois Open
	// Source Licenses. See LICENSE.TXT for details.
	//
	//
	// This file implements the "Exception Handling APIs"
	// http://www.codesourcery.com/public/cxx-abi/abi-eh.html
	//
	//===----------------------------------------------------------------------===//

	// A small, simple heap manager based (loosely) on
	// the startup heap manager from FreeBSD, optimized for space.
	//
	// Manages a fixed-size memory pool, supports malloc and free only.
	// No support for realloc.
	//
	// Allocates chunks in multiples of four bytes, with a four byte header
	// for each chunk. The overhead of each chunk is kept low by keeping pointers
	// as two byte offsets within the heap, rather than (4 or 8 byte) pointers.

	namespace {

	static pthread_mutex_t heap_mutex = PTHREAD_MUTEX_INITIALIZER;

	class mutexor {
	public:
	mutexor ( pthread_mutex_t *m ) : mtx_(m) { pthread_mutex_lock ( mtx_ ); }
	~mutexor () { pthread_mutex_unlock ( mtx_ ); }
	private:
	mutexor ( const mutexor &rhs );
	mutexor & operator = ( const mutexor &rhs );
	pthread_mutex_t *mtx_;
	};


	#define HEAP_SIZE 512
	char heap [ HEAP_SIZE ];

	typedef unsigned short heap_offset;
	typedef unsigned short heap_size;

	struct heap_node {
	heap_offset next_node; // offset into heap
	heap_size len; // size in units of "sizeof(heap_node)"
	};

	static const heap_node list_end = (heap_node ) ( &heap [ HEAP_SIZE ] ); // one past the end of the heap
	static heap_node *freelist = NULL;

	heap_node *node_from_offset ( const heap_offset offset )
	{ return (heap_node ) ( heap + ( offset sizeof (heap_node))); }

	heap_offset offset_from_node ( const heap_node *ptr )
	{ return static_cast<heap_offset>(static_cast<size_t>(((char *) ptr ) - heap) / sizeof (heap_node)); }

	void init_heap () {
	freelist = (heap_node *) heap;
	freelist->next_node = offset_from_node ( list_end );
	freelist->len = HEAP_SIZE / sizeof (heap_node);
	}

	// How big a chunk we allocate
	size_t alloc_size (size_t len)
	{ return (len + sizeof(heap_node) - 1) / sizeof(heap_node) + 1; }

	bool is_fallback_ptr ( void *ptr )
	{ return ptr >= heap && ptr < ( heap + HEAP_SIZE ); }

	void *fallback_malloc(size_t len) {
	heap_node p, prev;
	const size_t nelems = alloc_size ( len );
	mutexor mtx ( &heap_mutex );

	if ( NULL == freelist )
	init_heap ();

	// Walk the free list, looking for a "big enough" chunk
	for (p = freelist, prev = 0;
	p && p != list_end; prev = p, p = node_from_offset ( p->next_node)) {

	if (p->len > nelems) { // chunk is larger, shorten, and return the tail
	heap_node *q;

	p->len -= nelems;
	q = p + p->len;
	q->next_node = 0;
	q->len = static_cast<heap_size>(nelems);
	return (void *) (q + 1);
	}

	if (p->len == nelems) { // exact size match
	if (prev == 0)
	freelist = node_from_offset(p->next_node);
	else
	prev->next_node = p->next_node;
	p->next_node = 0;
	return (void *) (p + 1);
	}
	}
	return NULL; // couldn't find a spot big enough
	}

	// Return the start of the next block
	heap_node after ( struct heap_node p ) { return p + p->len; }

	void fallback_free (void *ptr) {
	struct heap_node cp = ((struct heap_node ) ptr) - 1; // retrieve the chunk
	struct heap_node p, prev;

	mutexor mtx ( &heap_mutex );

	#ifdef DEBUG_FALLBACK_MALLOC
	std::cout << "Freeing item at " << offset_from_node ( cp ) << " of size " << cp->len << std::endl;
	#endif

	for (p = freelist, prev = 0;
	p && p != list_end; prev = p, p = node_from_offset (p->next_node)) {
	#ifdef DEBUG_FALLBACK_MALLOC
	std::cout << " p, cp, after (p), after(cp) "
	<< offset_from_node ( p ) << ' '
	<< offset_from_node ( cp ) << ' '
	<< offset_from_node ( after ( p )) << ' '
	<< offset_from_node ( after ( cp )) << std::endl;
	#endif
	if ( after ( p ) == cp ) {
	#ifdef DEBUG_FALLBACK_MALLOC
	std::cout << " Appending onto chunk at " << offset_from_node ( p ) << std::endl;
	#endif
	p->len += cp->len; // make the free heap_node larger
	return;
	}
	else if ( after ( cp ) == p ) { // there's a free heap_node right after
	#ifdef DEBUG_FALLBACK_MALLOC
	std::cout << " Appending free chunk at " << offset_from_node ( p ) << std::endl;
	#endif
	cp->len += p->len;
	if ( prev == 0 ) {
	freelist = cp;
	cp->next_node = p->next_node;
	}
	else
	prev->next_node = offset_from_node(cp);
	return;
	}
	}
	// Nothing to merge with, add it to the start of the free list
	#ifdef DEBUG_FALLBACK_MALLOC
	std::cout << " Making new free list entry " << offset_from_node ( cp ) << std::endl;
	#endif
	cp->next_node = offset_from_node ( freelist );
	freelist = cp;
	}

	#ifdef INSTRUMENT_FALLBACK_MALLOC
	size_t print_free_list () {
	struct heap_node p, prev;
	heap_size total_free = 0;
	if ( NULL == freelist )
	init_heap ();

	for (p = freelist, prev = 0;
	p && p != list_end; prev = p, p = node_from_offset (p->next_node)) {
	std::cout << ( prev == 0 ? "" : " ") << "Offset: " << offset_from_node ( p )
	<< "\tsize: " << p->len << " Next: " << p->next_node << std::endl;
	total_free += p->len;
	}
	std::cout << "Total Free space: " << total_free << std::endl;
	return total_free;
	}
	#endif
	} // end unnamed namespace