runtime/libtrace/tracelib.c - llvm - Git at Google

 /*===-- tracelib.c - Runtime routines for tracing ---------------*- C++ -*-===*
  *
  * Runtime routines for supporting tracing of execution for code generated by
  * LLVM.
  *
  *===----------------------------------------------------------------------===*/

 #include "tracelib.h"
 #include <assert.h>
 #include <stdlib.h>
 #include <stdio.h>
 #include <string.h>
 #include "Support/DataTypes.h"

 /*===---------------------------------------------------------------------=====
  * HASH FUNCTIONS
  *===---------------------------------------------------------------------===*/

 /* use #defines until we have inlining */
 typedef uintptr_t Index;                 /* type of keys, size for hash table */
 typedef uint32_t  Generic;               /* type of values stored in table */

 /* Index IntegerHashFunc(const Generic value, const Index size) */
 #define IntegerHashFunc(value, size) \
   ( ((((Index) value) << 3) ^ (((Index) value) >> 3)) % size )

 /* Index IntegerRehashFunc(const Generic oldHashValue, const Index size) */
 #define IntegerRehashFunc(oldHashValue, size) \
   ((Index) ((oldHashValue+16) % size)) /* 16 is relatively prime to a Mersenne prime! */

 /* Index PointerHashFunc(const void* value, const Index size) */
 #define PointerHashFunc(value, size) \
   IntegerHashFunc((Index) value, size)

 /* Index PointerRehashFunc(const void* value, const Index size) */
 #define PointerRehashFunc(value, size) \
   IntegerRehashFunc((Index) value, size)

 /*===---------------------------------------------------------------------=====
  * POINTER-TO-GENERIC HASH TABLE.
  * These should be moved to a separate location: HashTable.[ch]
  *===---------------------------------------------------------------------===*/

 typedef enum { FIND, ENTER } ACTION;
 typedef char FULLEMPTY;
 const FULLEMPTY EMPTY = '\0';
 const FULLEMPTY FULL  = '\1';

 // List of primes closest to powers of 2 in [2^20 -- 2^30], obtained from
 // http://www.utm.edu/research/primes/lists/2small/0bit.html.
 // Use these as the successive sizes of the hash table.
 #define NUMPRIMES 11
 #define FIRSTENTRY 2
 const uint PRIMES[NUMPRIMES] = { (1<<20)-3,  (1<<21)-9,  (1<<22)-3, (1<<23)-15,
                                  (1<<24)-3,  (1<<25)-39, (1<<26)-5, (1<<27)-39,
                                  (1<<28)-57, (1<<29)-3,  (1<<30)-35 };
 uint CurrentSizeEntry = FIRSTENTRY;

 const uint MAX_NUM_PROBES = 4;

 typedef struct PtrValueHashEntry_struct {
   void*   key;
   Generic value;
 } PtrValueHashEntry;

 typedef struct PtrValueHashTable_struct {
   PtrValueHashEntry* table;
   FULLEMPTY* fullEmptyFlags;
   Index capacity;
   Index size;
 } PtrValueHashTable;


 static Generic LookupOrInsertPtr(PtrValueHashTable* ptrTable, void* ptr,
                                  ACTION action, Generic value);

 static void Insert(PtrValueHashTable* ptrTable, void* ptr, Generic value);

 static void Delete(PtrValueHashTable* ptrTable, void* ptr);

 /* Returns 0 if the item is not found. */
 /* void* LookupPtr(PtrValueHashTable* ptrTable, void* ptr) */
 #define LookupPtr(ptrTable, ptr) \
   LookupOrInsertPtr(ptrTable, ptr, FIND, (Generic) 0)

 void
 InitializeTable(PtrValueHashTable* ptrTable, Index newSize)
 {
   ptrTable->table = (PtrValueHashEntry*) calloc(newSize,
                                                 sizeof(PtrValueHashEntry));
   ptrTable->fullEmptyFlags = (FULLEMPTY*) calloc(newSize, sizeof(FULLEMPTY));
   ptrTable->capacity = newSize;
   ptrTable->size = 0;
 }

 PtrValueHashTable*
 CreateTable(Index initialSize)
 {
   PtrValueHashTable* ptrTable =
     (PtrValueHashTable*) malloc(sizeof(PtrValueHashTable));
   InitializeTable(ptrTable, initialSize);
   return ptrTable;
 }

 void
 ReallocTable(PtrValueHashTable* ptrTable, Index newSize)
 {
   if (newSize <= ptrTable->capacity)
     return;

 #ifndef NDEBUG
   printf("\n***\n*** REALLOCATING SPACE FOR POINTER HASH TABLE.\n");
   printf("*** oldSize = %ld, oldCapacity = %ld\n***\n\n",
          (long) ptrTable->size, (long) ptrTable->capacity);
 #endif

   unsigned int i;
   PtrValueHashEntry* oldTable = ptrTable->table;
   FULLEMPTY* oldFlags = ptrTable->fullEmptyFlags;
   Index oldSize = ptrTable->size;
   Index oldCapacity = ptrTable->capacity;

   /* allocate the new storage and flags and re-insert the old entries */
   InitializeTable(ptrTable, newSize);
   for (i=0; i < oldCapacity; ++i)
     if (oldFlags[i] == FULL)
       Insert(ptrTable, oldTable[i].key, oldTable[i].value);

   assert(ptrTable->size == oldSize && "Incorrect number of entries copied?");

 #ifndef NDEBUG
   for (i=0; i < oldCapacity; ++i)
     if (oldFlags[i] == FULL)
       assert(LookupPtr(ptrTable, oldTable[i].key) == oldTable[i].value);
 #endif

   free(oldTable);
   free(oldFlags);
 }

 void
 DeleteTable(PtrValueHashTable* ptrTable)
 {
   free(ptrTable->table);
   free(ptrTable->fullEmptyFlags);
   memset(ptrTable, '\0', sizeof(PtrValueHashTable));
   free(ptrTable);
 }

 void
 InsertAtIndex(PtrValueHashTable* ptrTable, void* ptr, Generic value, Index index)
 {
   assert(ptrTable->fullEmptyFlags[index] == EMPTY && "Slot is in use!");
   ptrTable->table[index].key = ptr;
   ptrTable->table[index].value = value;
   ptrTable->fullEmptyFlags[index] = FULL;
   ptrTable->size++;
 }

 void
 DeleteAtIndex(PtrValueHashTable* ptrTable, Index index)
 {
   assert(ptrTable->fullEmptyFlags[index] == FULL && "Deleting empty slot!");
   ptrTable->table[index].key = 0;
   ptrTable->table[index].value = (Generic) 0;
   ptrTable->fullEmptyFlags[index] = EMPTY;
   ptrTable->size--;
 }

 Index
 FindIndex(PtrValueHashTable* ptrTable, void* ptr)
 {
   uint numProbes = 1;
   Index index = PointerHashFunc(ptr, ptrTable->capacity);
   if (ptrTable->fullEmptyFlags[index] == FULL)
     {
       if (ptrTable->table[index].key == ptr)
         return index;

       /* First lookup failed on non-empty slot: probe further */
       while (numProbes < MAX_NUM_PROBES)
         {
           index = PointerRehashFunc(index, ptrTable->capacity);
           if (ptrTable->fullEmptyFlags[index] == EMPTY)
             break;
           else if (ptrTable->table[index].key == ptr)
             return index;
           ++numProbes;
         }
     }

   /* Lookup failed: item is not in the table. */
   /* If last slot is empty, use that slot. */
   /* Otherwise, table must have been reallocated, so search again. */

   if (numProbes == MAX_NUM_PROBES)
     { /* table is too full: reallocate and search again */
       if (CurrentSizeEntry >= NUMPRIMES-1) {
         fprintf(stderr, "Out of PRIME Numbers!!!");
         abort();
       }
       ReallocTable(ptrTable, PRIMES[++CurrentSizeEntry]);
       return FindIndex(ptrTable, ptr);
     }
   else
     {
       assert(ptrTable->fullEmptyFlags[index] == EMPTY &&
              "Stopped before finding an empty slot and before MAX probes!");
       return index;
     }
 }

 /* Look up hash table using 'ptr' as the key.  If an entry exists, return
  * the value mapped to 'ptr'.  If not, and if action==ENTER is specified,
  * create a new entry with value 'value', but return 0 in any case.
  */
 Generic
 LookupOrInsertPtr(PtrValueHashTable* ptrTable, void* ptr, ACTION action,
                   Generic value)
 {
   Index index = FindIndex(ptrTable, ptr);
   if (ptrTable->fullEmptyFlags[index] == FULL &&
       ptrTable->table[index].key == ptr)
     return ptrTable->table[index].value;

   /* Lookup failed: item is not in the table */
   /* If action is ENTER, insert item into the table.  Return 0 in any case. */
   if (action == ENTER)
     InsertAtIndex(ptrTable, ptr, value, index);

   return (Generic) 0;
 }

 void
 Insert(PtrValueHashTable* ptrTable, void* ptr, Generic value)
 {
   Index index = FindIndex(ptrTable, ptr);
   assert(ptrTable->fullEmptyFlags[index] == EMPTY &&
          "ptr is already in the table: delete it first!");
   InsertAtIndex(ptrTable, ptr, value, index);
 }

 void
 Delete(PtrValueHashTable* ptrTable, void* ptr)
 {
   Index index = FindIndex(ptrTable, ptr);
   if (ptrTable->fullEmptyFlags[index] == FULL &&
       ptrTable->table[index].key == ptr)
     {
       DeleteAtIndex(ptrTable, index);
     }
 }

 /*===---------------------------------------------------------------------=====
  * RUNTIME ROUTINES TO MAP POINTERS TO SEQUENCE NUMBERS
  *===---------------------------------------------------------------------===*/

 PtrValueHashTable* SequenceNumberTable = NULL;
 #define INITIAL_SIZE (PRIMES[FIRSTENTRY])

 #define MAX_NUM_SAVED 1024

 typedef struct PointerSet_struct {
   char* savedPointers[MAX_NUM_SAVED];   /* 1024 alloca'd ptrs shd suffice */
   unsigned int numSaved;
   struct PointerSet_struct* nextOnStack;     /* implement a cheap stack */
 } PointerSet;

 PointerSet* topOfStack = NULL;

 SequenceNumber
 HashPointerToSeqNum(char* ptr)
 {
   static SequenceNumber count = 0;
   SequenceNumber seqnum;
   if (SequenceNumberTable == NULL) {
     assert(MAX_NUM_PROBES < INITIAL_SIZE+1 && "Initial size too small");
     SequenceNumberTable = CreateTable(INITIAL_SIZE);
   }
   seqnum = (SequenceNumber)
     LookupOrInsertPtr(SequenceNumberTable, ptr, ENTER, count+1);

   if (seqnum == 0)    /* new entry was created with value count+1 */
     seqnum = ++count;    /* so increment counter */

   assert(seqnum <= count && "Invalid sequence number in table!");
   return seqnum;
 }

 void
 ReleasePointerSeqNum(char* ptr)
 { /* if a sequence number was assigned to this ptr, release it */
   if (SequenceNumberTable != NULL)
     Delete(SequenceNumberTable, ptr);
 }

 void
 PushPointerSet()
 {
   PointerSet* newSet = (PointerSet*) malloc(sizeof(PointerSet));
   newSet->numSaved = 0;
   newSet->nextOnStack = topOfStack;
   topOfStack = newSet;
 }

 void
 PopPointerSet()
 {
   PointerSet* oldSet;
   assert(topOfStack != NULL && "popping from empty stack!");
   oldSet = topOfStack;
   topOfStack = oldSet->nextOnStack;
   assert(oldSet->numSaved == 0);
   free(oldSet);
 }

 /* free the pointers! */
 static void
 ReleaseRecordedPointers(char* savedPointers[MAX_NUM_SAVED],
                         unsigned int numSaved)
 {
   unsigned int i;
   for (i=0; i < topOfStack->numSaved; ++i)
     ReleasePointerSeqNum(topOfStack->savedPointers[i]);
 }

 void
 ReleasePointersPopSet()
 {
   ReleaseRecordedPointers(topOfStack->savedPointers, topOfStack->numSaved);
   topOfStack->numSaved = 0;
   PopPointerSet();
 }

 void
 RecordPointer(char* ptr)
 { /* record pointers for release later */
   if (topOfStack->numSaved == MAX_NUM_SAVED) {
     printf("***\n*** WARNING: OUT OF ROOM FOR SAVED POINTERS."
            " ALL POINTERS ARE BEING FREED.\n"
            "*** THE SEQUENCE NUMBERS OF SAVED POINTERS WILL CHANGE!\n*** \n");
     ReleaseRecordedPointers(topOfStack->savedPointers, topOfStack->numSaved);
     topOfStack->numSaved = 0;
   }
   topOfStack->savedPointers[topOfStack->numSaved++] = ptr;
 }

 /*===---------------------------------------------------------------------=====
  * TEST DRIVER FOR INSTRUMENTATION LIBRARY
  *===---------------------------------------------------------------------===*/

 #ifndef TEST_INSTRLIB
 #undef  TEST_INSTRLIB /* #define this to turn on by default */
 #endif

 #ifdef TEST_INSTRLIB
 int
 main(int argc, char** argv)
 {
   int i, j;
   int doRelease = 0;

   INITIAL_SIZE = 5; /* start with small table to test realloc's*/

   if (argc > 1 && ! strcmp(argv[1], "-r"))
     {
       PushPointerSet();
       doRelease = 1;
     }

   for (i=0; i < argc; ++i)
     for (j=0; argv[i][j]; ++j)
       {
         printf("Sequence number for argc[%d][%d] (%c) = Hash(%p) = %d\n",
                i, j, argv[i][j], argv[i]+j, HashPointerToSeqNum(argv[i]+j));

         if (doRelease)
           RecordPointer(argv[i]+j);
       }

   if (doRelease)
     ReleasePointersPopSet();

   /* print sequence numbers out again to compare with (-r) and w/o release */
   for (i=argc-1; i >= 0; --i)
     for (j=0; argv[i][j]; ++j)
       printf("Sequence number for argc[%d][%d] (%c) = %d\n",
              i, j, argv[i][j], argv[i]+j, HashPointerToSeqNum(argv[i]+j));

   return 0;
 }
 #endif
	/===-- tracelib.c - Runtime routines for tracing ---------------- C++ --===
	*
	* Runtime routines for supporting tracing of execution for code generated by
	* LLVM.
	*
	===----------------------------------------------------------------------===/

	#include "tracelib.h"
	#include <assert.h>
	#include <stdlib.h>
	#include <stdio.h>
	#include <string.h>
	#include "Support/DataTypes.h"

	/*===---------------------------------------------------------------------=====
	* HASH FUNCTIONS
	===---------------------------------------------------------------------===/

	/* use #defines until we have inlining */
	typedef uintptr_t Index; /* type of keys, size for hash table */
	typedef uint32_t Generic; /* type of values stored in table */

	/* Index IntegerHashFunc(const Generic value, const Index size) */
	#define IntegerHashFunc(value, size) \
	( ((((Index) value) << 3) ^ (((Index) value) >> 3)) % size )

	/* Index IntegerRehashFunc(const Generic oldHashValue, const Index size) */
	#define IntegerRehashFunc(oldHashValue, size) \
	((Index) ((oldHashValue+16) % size)) /* 16 is relatively prime to a Mersenne prime! */

	/* Index PointerHashFunc(const void* value, const Index size) */
	#define PointerHashFunc(value, size) \
	IntegerHashFunc((Index) value, size)

	/* Index PointerRehashFunc(const void* value, const Index size) */
	#define PointerRehashFunc(value, size) \
	IntegerRehashFunc((Index) value, size)

	/*===---------------------------------------------------------------------=====
	* POINTER-TO-GENERIC HASH TABLE.
	* These should be moved to a separate location: HashTable.[ch]
	===---------------------------------------------------------------------===/

	typedef enum { FIND, ENTER } ACTION;
	typedef char FULLEMPTY;
	const FULLEMPTY EMPTY = '\0';
	const FULLEMPTY FULL = '\1';

	// List of primes closest to powers of 2 in [2^20 -- 2^30], obtained from
	// http://www.utm.edu/research/primes/lists/2small/0bit.html.
	// Use these as the successive sizes of the hash table.
	#define NUMPRIMES 11
	#define FIRSTENTRY 2
	const uint PRIMES[NUMPRIMES] = { (1<<20)-3, (1<<21)-9, (1<<22)-3, (1<<23)-15,
	(1<<24)-3, (1<<25)-39, (1<<26)-5, (1<<27)-39,
	(1<<28)-57, (1<<29)-3, (1<<30)-35 };
	uint CurrentSizeEntry = FIRSTENTRY;

	const uint MAX_NUM_PROBES = 4;

	typedef struct PtrValueHashEntry_struct {
	void* key;
	Generic value;
	} PtrValueHashEntry;

	typedef struct PtrValueHashTable_struct {
	PtrValueHashEntry* table;
	FULLEMPTY* fullEmptyFlags;
	Index capacity;
	Index size;
	} PtrValueHashTable;


	static Generic LookupOrInsertPtr(PtrValueHashTable* ptrTable, void* ptr,
	ACTION action, Generic value);

	static void Insert(PtrValueHashTable* ptrTable, void* ptr, Generic value);

	static void Delete(PtrValueHashTable* ptrTable, void* ptr);

	/* Returns 0 if the item is not found. */
	/* void* LookupPtr(PtrValueHashTable* ptrTable, void* ptr) */
	#define LookupPtr(ptrTable, ptr) \
	LookupOrInsertPtr(ptrTable, ptr, FIND, (Generic) 0)

	void
	InitializeTable(PtrValueHashTable* ptrTable, Index newSize)
	{
	ptrTable->table = (PtrValueHashEntry*) calloc(newSize,
	sizeof(PtrValueHashEntry));
	ptrTable->fullEmptyFlags = (FULLEMPTY*) calloc(newSize, sizeof(FULLEMPTY));
	ptrTable->capacity = newSize;
	ptrTable->size = 0;
	}

	PtrValueHashTable*
	CreateTable(Index initialSize)
	{
	PtrValueHashTable* ptrTable =
	(PtrValueHashTable*) malloc(sizeof(PtrValueHashTable));
	InitializeTable(ptrTable, initialSize);
	return ptrTable;
	}

	void
	ReallocTable(PtrValueHashTable* ptrTable, Index newSize)
	{
	if (newSize <= ptrTable->capacity)
	return;

	#ifndef NDEBUG
	printf("\n*\n* REALLOCATING SPACE FOR POINTER HASH TABLE.\n");
	printf("* oldSize = %ld, oldCapacity = %ld\n*\n\n",
	(long) ptrTable->size, (long) ptrTable->capacity);
	#endif

	unsigned int i;
	PtrValueHashEntry* oldTable = ptrTable->table;
	FULLEMPTY* oldFlags = ptrTable->fullEmptyFlags;
	Index oldSize = ptrTable->size;
	Index oldCapacity = ptrTable->capacity;

	/* allocate the new storage and flags and re-insert the old entries */
	InitializeTable(ptrTable, newSize);
	for (i=0; i < oldCapacity; ++i)
	if (oldFlags[i] == FULL)
	Insert(ptrTable, oldTable[i].key, oldTable[i].value);

	assert(ptrTable->size == oldSize && "Incorrect number of entries copied?");

	#ifndef NDEBUG
	for (i=0; i < oldCapacity; ++i)
	if (oldFlags[i] == FULL)
	assert(LookupPtr(ptrTable, oldTable[i].key) == oldTable[i].value);
	#endif

	free(oldTable);
	free(oldFlags);
	}

	void
	DeleteTable(PtrValueHashTable* ptrTable)
	{
	free(ptrTable->table);
	free(ptrTable->fullEmptyFlags);
	memset(ptrTable, '\0', sizeof(PtrValueHashTable));
	free(ptrTable);
	}

	void
	InsertAtIndex(PtrValueHashTable* ptrTable, void* ptr, Generic value, Index index)
	{
	assert(ptrTable->fullEmptyFlags[index] == EMPTY && "Slot is in use!");
	ptrTable->table[index].key = ptr;
	ptrTable->table[index].value = value;
	ptrTable->fullEmptyFlags[index] = FULL;
	ptrTable->size++;
	}

	void
	DeleteAtIndex(PtrValueHashTable* ptrTable, Index index)
	{
	assert(ptrTable->fullEmptyFlags[index] == FULL && "Deleting empty slot!");
	ptrTable->table[index].key = 0;
	ptrTable->table[index].value = (Generic) 0;
	ptrTable->fullEmptyFlags[index] = EMPTY;
	ptrTable->size--;
	}

	Index
	FindIndex(PtrValueHashTable* ptrTable, void* ptr)
	{
	uint numProbes = 1;
	Index index = PointerHashFunc(ptr, ptrTable->capacity);
	if (ptrTable->fullEmptyFlags[index] == FULL)
	{
	if (ptrTable->table[index].key == ptr)
	return index;

	/* First lookup failed on non-empty slot: probe further */
	while (numProbes < MAX_NUM_PROBES)
	{
	index = PointerRehashFunc(index, ptrTable->capacity);
	if (ptrTable->fullEmptyFlags[index] == EMPTY)
	break;
	else if (ptrTable->table[index].key == ptr)
	return index;
	++numProbes;
	}
	}

	/* Lookup failed: item is not in the table. */
	/* If last slot is empty, use that slot. */
	/* Otherwise, table must have been reallocated, so search again. */

	if (numProbes == MAX_NUM_PROBES)
	{ /* table is too full: reallocate and search again */
	if (CurrentSizeEntry >= NUMPRIMES-1) {
	fprintf(stderr, "Out of PRIME Numbers!!!");
	abort();
	}
	ReallocTable(ptrTable, PRIMES[++CurrentSizeEntry]);
	return FindIndex(ptrTable, ptr);
	}
	else
	{
	assert(ptrTable->fullEmptyFlags[index] == EMPTY &&
	"Stopped before finding an empty slot and before MAX probes!");
	return index;
	}
	}

	/* Look up hash table using 'ptr' as the key. If an entry exists, return
	* the value mapped to 'ptr'. If not, and if action==ENTER is specified,
	* create a new entry with value 'value', but return 0 in any case.
	*/
	Generic
	LookupOrInsertPtr(PtrValueHashTable* ptrTable, void* ptr, ACTION action,
	Generic value)
	{
	Index index = FindIndex(ptrTable, ptr);
	if (ptrTable->fullEmptyFlags[index] == FULL &&
	ptrTable->table[index].key == ptr)
	return ptrTable->table[index].value;

	/* Lookup failed: item is not in the table */
	/* If action is ENTER, insert item into the table. Return 0 in any case. */
	if (action == ENTER)
	InsertAtIndex(ptrTable, ptr, value, index);

	return (Generic) 0;
	}

	void
	Insert(PtrValueHashTable* ptrTable, void* ptr, Generic value)
	{
	Index index = FindIndex(ptrTable, ptr);
	assert(ptrTable->fullEmptyFlags[index] == EMPTY &&
	"ptr is already in the table: delete it first!");
	InsertAtIndex(ptrTable, ptr, value, index);
	}

	void
	Delete(PtrValueHashTable* ptrTable, void* ptr)
	{
	Index index = FindIndex(ptrTable, ptr);
	if (ptrTable->fullEmptyFlags[index] == FULL &&
	ptrTable->table[index].key == ptr)
	{
	DeleteAtIndex(ptrTable, index);
	}
	}

	/*===---------------------------------------------------------------------=====
	* RUNTIME ROUTINES TO MAP POINTERS TO SEQUENCE NUMBERS
	===---------------------------------------------------------------------===/

	PtrValueHashTable* SequenceNumberTable = NULL;
	#define INITIAL_SIZE (PRIMES[FIRSTENTRY])

	#define MAX_NUM_SAVED 1024

	typedef struct PointerSet_struct {
	char* savedPointers[MAX_NUM_SAVED]; /* 1024 alloca'd ptrs shd suffice */
	unsigned int numSaved;
	struct PointerSet_struct* nextOnStack; /* implement a cheap stack */
	} PointerSet;

	PointerSet* topOfStack = NULL;

	SequenceNumber
	HashPointerToSeqNum(char* ptr)
	{
	static SequenceNumber count = 0;
	SequenceNumber seqnum;
	if (SequenceNumberTable == NULL) {
	assert(MAX_NUM_PROBES < INITIAL_SIZE+1 && "Initial size too small");
	SequenceNumberTable = CreateTable(INITIAL_SIZE);
	}
	seqnum = (SequenceNumber)
	LookupOrInsertPtr(SequenceNumberTable, ptr, ENTER, count+1);

	if (seqnum == 0) /* new entry was created with value count+1 */
	seqnum = ++count; /* so increment counter */

	assert(seqnum <= count && "Invalid sequence number in table!");
	return seqnum;
	}

	void
	ReleasePointerSeqNum(char* ptr)
	{ /* if a sequence number was assigned to this ptr, release it */
	if (SequenceNumberTable != NULL)
	Delete(SequenceNumberTable, ptr);
	}

	void
	PushPointerSet()
	{
	PointerSet* newSet = (PointerSet*) malloc(sizeof(PointerSet));
	newSet->numSaved = 0;
	newSet->nextOnStack = topOfStack;
	topOfStack = newSet;
	}

	void
	PopPointerSet()
	{
	PointerSet* oldSet;
	assert(topOfStack != NULL && "popping from empty stack!");
	oldSet = topOfStack;
	topOfStack = oldSet->nextOnStack;
	assert(oldSet->numSaved == 0);
	free(oldSet);
	}

	/* free the pointers! */
	static void
	ReleaseRecordedPointers(char* savedPointers[MAX_NUM_SAVED],
	unsigned int numSaved)
	{
	unsigned int i;
	for (i=0; i < topOfStack->numSaved; ++i)
	ReleasePointerSeqNum(topOfStack->savedPointers[i]);
	}

	void
	ReleasePointersPopSet()
	{
	ReleaseRecordedPointers(topOfStack->savedPointers, topOfStack->numSaved);
	topOfStack->numSaved = 0;
	PopPointerSet();
	}

	void
	RecordPointer(char* ptr)
	{ /* record pointers for release later */
	if (topOfStack->numSaved == MAX_NUM_SAVED) {
	printf("*\n* WARNING: OUT OF ROOM FOR SAVED POINTERS."
	" ALL POINTERS ARE BEING FREED.\n"
	"* THE SEQUENCE NUMBERS OF SAVED POINTERS WILL CHANGE!\n* \n");
	ReleaseRecordedPointers(topOfStack->savedPointers, topOfStack->numSaved);
	topOfStack->numSaved = 0;
	}
	topOfStack->savedPointers[topOfStack->numSaved++] = ptr;
	}

	/*===---------------------------------------------------------------------=====
	* TEST DRIVER FOR INSTRUMENTATION LIBRARY
	===---------------------------------------------------------------------===/

	#ifndef TEST_INSTRLIB
	#undef TEST_INSTRLIB /* #define this to turn on by default */
	#endif

	#ifdef TEST_INSTRLIB
	int
	main(int argc, char** argv)
	{
	int i, j;
	int doRelease = 0;

	INITIAL_SIZE = 5; /* start with small table to test realloc's*/

	if (argc > 1 && ! strcmp(argv[1], "-r"))
	{
	PushPointerSet();
	doRelease = 1;
	}

	for (i=0; i < argc; ++i)
	for (j=0; argv[i][j]; ++j)
	{
	printf("Sequence number for argc[%d][%d] (%c) = Hash(%p) = %d\n",
	i, j, argv[i][j], argv[i]+j, HashPointerToSeqNum(argv[i]+j));

	if (doRelease)
	RecordPointer(argv[i]+j);
	}

	if (doRelease)
	ReleasePointersPopSet();

	/* print sequence numbers out again to compare with (-r) and w/o release */
	for (i=argc-1; i >= 0; --i)
	for (j=0; argv[i][j]; ++j)
	printf("Sequence number for argc[%d][%d] (%c) = %d\n",
	i, j, argv[i][j], argv[i]+j, HashPointerToSeqNum(argv[i]+j));

	return 0;
	}
	#endif