vm/alloc/TEST/HeapBitmapTest/main.c - platform/dalvik-snapshot - Git at Google

 #include <stdio.h>
 #include <stdbool.h>
 #include <stdint.h>
 #include <assert.h>
 #include <string.h>
 #include <unistd.h>
 #define __attribute(x) /* disable inlining */
 #include "HeapBitmap.h"
 #undef __attribute

 #define PAGE_SIZE 4096
 #define HEAP_BASE ((void *)0x10000)
 #define HEAP_SIZE (5 * PAGE_SIZE + 888)

 #define VERBOSE 1
 #if VERBOSE
 #define TRACE(...) printf(__VA_ARGS__)
 #else
 #define TRACE(...) /**/
 #endif

 void
 test_init()
 {
     HeapBitmap hb;
     bool ok;

     memset(&hb, 0x55, sizeof(hb));

     ok = dvmHeapBitmapInit(&hb, HEAP_BASE, HEAP_SIZE, "test");
     assert(ok);

     assert(hb.bits != NULL);
     assert(hb.bitsLen >= HB_OFFSET_TO_INDEX(HEAP_SIZE));
     assert(hb.base == (uintptr_t)HEAP_BASE);
     assert(hb.max < hb.base);

     /* Make sure hb.bits is mapped.
      */
     *hb.bits = 0x55;
     assert(*hb.bits = 0x55);
     *hb.bits = 0;

 #define TEST_UNMAP 0
 #if TEST_UNMAP
     /* Hold onto this to make sure it's unmapped later.
      */
     unsigned long int *bits = hb.bits;
 #endif

     dvmHeapBitmapDelete(&hb);

     assert(hb.bits == NULL);
     assert(hb.bitsLen == 0);
     assert(hb.base == 0);
     assert(hb.max == 0);

 #if TEST_UNMAP
     /* This pointer shouldn't be mapped anymore.
      */
     *bits = 0x55;
     assert(!"Should have segfaulted");
 #endif
 }

 bool is_zeroed(const HeapBitmap *hb)
 {
     int i;

     for (i = 0; i < hb->bitsLen / sizeof (*hb->bits); i++) {
         if (hb->bits[i] != 0L) {
             return false;
         }
     }
     return true;
 }

 void assert_empty(const HeapBitmap *hb)
 {
     assert(hb->bits != NULL);
     assert(hb->bitsLen >= HB_OFFSET_TO_INDEX(HEAP_SIZE));
     assert(hb->base == (uintptr_t)HEAP_BASE);
     assert(hb->max < hb->base);

     assert(is_zeroed(hb));

     assert(!dvmHeapBitmapMayContainObject(hb,
             HEAP_BASE));
     assert(!dvmHeapBitmapMayContainObject(hb,
             HEAP_BASE + HB_OBJECT_ALIGNMENT));
     assert(!dvmHeapBitmapMayContainObject(hb,
             HEAP_BASE + HEAP_SIZE - HB_OBJECT_ALIGNMENT));
     assert(!dvmHeapBitmapMayContainObject(hb,
             HEAP_BASE + HEAP_SIZE));

     assert(!dvmHeapBitmapIsObjectBitSet(hb,
             HEAP_BASE));
     assert(!dvmHeapBitmapIsObjectBitSet(hb,
             HEAP_BASE + HB_OBJECT_ALIGNMENT));
     assert(!dvmHeapBitmapIsObjectBitSet(hb,
             HEAP_BASE + HEAP_SIZE - HB_OBJECT_ALIGNMENT));
 }

 void
 test_bits()
 {
     HeapBitmap hb;
     bool ok;

     ok = dvmHeapBitmapInit(&hb, HEAP_BASE, HEAP_SIZE, "test");
     assert(ok);

     assert_empty(&hb);

     /* Set the lowest address.
      */
     dvmHeapBitmapSetObjectBit(&hb, HEAP_BASE);
     assert(dvmHeapBitmapMayContainObject(&hb,
             HEAP_BASE));
     assert(!dvmHeapBitmapMayContainObject(&hb,
             HEAP_BASE + HB_OBJECT_ALIGNMENT));
     assert(!dvmHeapBitmapMayContainObject(&hb,
             HEAP_BASE + HEAP_SIZE - HB_OBJECT_ALIGNMENT));
     assert(!dvmHeapBitmapMayContainObject(&hb,
             HEAP_BASE + HEAP_SIZE));

     assert(dvmHeapBitmapIsObjectBitSet(&hb,
             HEAP_BASE));
     assert(!dvmHeapBitmapIsObjectBitSet(&hb,
             HEAP_BASE + HB_OBJECT_ALIGNMENT));
     assert(!dvmHeapBitmapIsObjectBitSet(&hb,
             HEAP_BASE + HEAP_SIZE - HB_OBJECT_ALIGNMENT));

     /* Set the highest address.
      */
     dvmHeapBitmapSetObjectBit(&hb, HEAP_BASE + HEAP_SIZE - HB_OBJECT_ALIGNMENT);
     assert(dvmHeapBitmapMayContainObject(&hb,
             HEAP_BASE));
     assert(dvmHeapBitmapMayContainObject(&hb,
             HEAP_BASE + HB_OBJECT_ALIGNMENT));
     assert(dvmHeapBitmapMayContainObject(&hb,
             HEAP_BASE + HEAP_SIZE - HB_OBJECT_ALIGNMENT));
     assert(!dvmHeapBitmapMayContainObject(&hb,
             HEAP_BASE + HEAP_SIZE));

     assert(dvmHeapBitmapIsObjectBitSet(&hb,
             HEAP_BASE));
     assert(!dvmHeapBitmapIsObjectBitSet(&hb,
             HEAP_BASE + HB_OBJECT_ALIGNMENT));
     assert(dvmHeapBitmapIsObjectBitSet(&hb,
             HEAP_BASE + HEAP_SIZE - HB_OBJECT_ALIGNMENT));

     /* Clear the lowest address.
      */
     dvmHeapBitmapClearObjectBit(&hb, HEAP_BASE);
     assert(!dvmHeapBitmapIsObjectBitSet(&hb,
             HEAP_BASE));
     assert(!dvmHeapBitmapIsObjectBitSet(&hb,
             HEAP_BASE + HB_OBJECT_ALIGNMENT));
     assert(dvmHeapBitmapIsObjectBitSet(&hb,
             HEAP_BASE + HEAP_SIZE - HB_OBJECT_ALIGNMENT));
     assert(!is_zeroed(&hb));

     /* Clear the highest address.
      */
     dvmHeapBitmapClearObjectBit(&hb,
             HEAP_BASE + HEAP_SIZE - HB_OBJECT_ALIGNMENT);
     assert(!dvmHeapBitmapIsObjectBitSet(&hb,
             HEAP_BASE));
     assert(!dvmHeapBitmapIsObjectBitSet(&hb,
             HEAP_BASE + HB_OBJECT_ALIGNMENT));
     assert(!dvmHeapBitmapIsObjectBitSet(&hb,
             HEAP_BASE + HEAP_SIZE - HB_OBJECT_ALIGNMENT));
     assert(is_zeroed(&hb));

     /* Clean up.
      */
     dvmHeapBitmapDelete(&hb);
 }

 void
 test_clear()
 {
     HeapBitmap hb;
     bool ok;

     ok = dvmHeapBitmapInit(&hb, HEAP_BASE, HEAP_SIZE, "test");
     assert(ok);
     assert_empty(&hb);

     /* Set the highest address.
      */
     dvmHeapBitmapSetObjectBit(&hb, HEAP_BASE + HEAP_SIZE - HB_OBJECT_ALIGNMENT);
     assert(!is_zeroed(&hb));

     /* Clear the bitmap.
      */
     dvmHeapBitmapZero(&hb);
     assert_empty(&hb);

     /* Clean up.
      */
     dvmHeapBitmapDelete(&hb);
 }

 void
 test_modify()
 {
     HeapBitmap hb;
     bool ok;
     unsigned long bit;

     ok = dvmHeapBitmapInit(&hb, HEAP_BASE, HEAP_SIZE, "test");
     assert(ok);
     assert_empty(&hb);

     /* Set the lowest address.
      */
     bit = dvmHeapBitmapSetAndReturnObjectBit(&hb, HEAP_BASE);
     assert(bit == 0);
     assert(dvmHeapBitmapMayContainObject(&hb,
             HEAP_BASE));
     assert(!dvmHeapBitmapMayContainObject(&hb,
             HEAP_BASE + HB_OBJECT_ALIGNMENT));
     assert(!dvmHeapBitmapMayContainObject(&hb,
             HEAP_BASE + HEAP_SIZE - HB_OBJECT_ALIGNMENT));
     assert(!dvmHeapBitmapMayContainObject(&hb,
             HEAP_BASE + HEAP_SIZE));

     assert(dvmHeapBitmapIsObjectBitSet(&hb,
             HEAP_BASE));
     assert(!dvmHeapBitmapIsObjectBitSet(&hb,
             HEAP_BASE + HB_OBJECT_ALIGNMENT));
     assert(!dvmHeapBitmapIsObjectBitSet(&hb,
             HEAP_BASE + HEAP_SIZE - HB_OBJECT_ALIGNMENT));

     /* Set the lowest address again.
      */
     bit = dvmHeapBitmapSetAndReturnObjectBit(&hb, HEAP_BASE);
     assert(bit != 0);
     assert(dvmHeapBitmapMayContainObject(&hb,
             HEAP_BASE));
     assert(!dvmHeapBitmapMayContainObject(&hb,
             HEAP_BASE + HB_OBJECT_ALIGNMENT));
     assert(!dvmHeapBitmapMayContainObject(&hb,
             HEAP_BASE + HEAP_SIZE - HB_OBJECT_ALIGNMENT));
     assert(!dvmHeapBitmapMayContainObject(&hb,
             HEAP_BASE + HEAP_SIZE));

     assert(dvmHeapBitmapIsObjectBitSet(&hb,
             HEAP_BASE));
     assert(!dvmHeapBitmapIsObjectBitSet(&hb,
             HEAP_BASE + HB_OBJECT_ALIGNMENT));
     assert(!dvmHeapBitmapIsObjectBitSet(&hb,
             HEAP_BASE + HEAP_SIZE - HB_OBJECT_ALIGNMENT));

     /* Set the highest address.
      */
     bit = dvmHeapBitmapSetAndReturnObjectBit(&hb,
             HEAP_BASE + HEAP_SIZE - HB_OBJECT_ALIGNMENT);
     assert(bit == 0);
     assert(dvmHeapBitmapMayContainObject(&hb,
             HEAP_BASE));
     assert(dvmHeapBitmapMayContainObject(&hb,
             HEAP_BASE + HB_OBJECT_ALIGNMENT));
     assert(dvmHeapBitmapMayContainObject(&hb,
             HEAP_BASE + HEAP_SIZE - HB_OBJECT_ALIGNMENT));
     assert(!dvmHeapBitmapMayContainObject(&hb,
             HEAP_BASE + HEAP_SIZE));

     assert(dvmHeapBitmapIsObjectBitSet(&hb,
             HEAP_BASE));
     assert(!dvmHeapBitmapIsObjectBitSet(&hb,
             HEAP_BASE + HB_OBJECT_ALIGNMENT));
     assert(dvmHeapBitmapIsObjectBitSet(&hb,
             HEAP_BASE + HEAP_SIZE - HB_OBJECT_ALIGNMENT));

     /* Set the highest address again.
      */
     bit = dvmHeapBitmapSetAndReturnObjectBit(&hb,
             HEAP_BASE + HEAP_SIZE - HB_OBJECT_ALIGNMENT);
     assert(bit != 0);
     assert(dvmHeapBitmapMayContainObject(&hb,
             HEAP_BASE));
     assert(dvmHeapBitmapMayContainObject(&hb,
             HEAP_BASE + HB_OBJECT_ALIGNMENT));
     assert(dvmHeapBitmapMayContainObject(&hb,
             HEAP_BASE + HEAP_SIZE - HB_OBJECT_ALIGNMENT));
     assert(!dvmHeapBitmapMayContainObject(&hb,
             HEAP_BASE + HEAP_SIZE));

     assert(dvmHeapBitmapIsObjectBitSet(&hb,
             HEAP_BASE));
     assert(!dvmHeapBitmapIsObjectBitSet(&hb,
             HEAP_BASE + HB_OBJECT_ALIGNMENT));
     assert(dvmHeapBitmapIsObjectBitSet(&hb,
             HEAP_BASE + HEAP_SIZE - HB_OBJECT_ALIGNMENT));

     /* Clean up.
      */
     dvmHeapBitmapDelete(&hb);
 }

 /*
  * xor test support functions
  */

 static void *gCallbackArg = NULL;

 #define NUM_XOR_PTRS  128
 static size_t gNumPtrs;
 static void *gXorPtrs[NUM_XOR_PTRS];
 static bool gClearedPtrs[NUM_XOR_PTRS];
 static bool gSeenPtrs[NUM_XOR_PTRS];

 bool
 xorCallback(size_t numPtrs, void **ptrs, const void *finger, void *arg)
 {
     assert(numPtrs > 0);
     assert(ptrs != NULL);
     assert(arg == gCallbackArg);

 size_t i;
     for (i = 0; i < numPtrs; i++) {
         assert(ptrs[i] < finger);
         printf("callback: 0x%08x ( < 0x%08x )\n",
                 (uintptr_t)ptrs[i], (uintptr_t)finger);
     }

     return true;
 }

 bool
 seenAndClearedMatch()
 {
     size_t i;
     for (i = 0; i < gNumPtrs; i++) {
         if (gClearedPtrs[i] != gSeenPtrs[i]) {
             return false;
         }
     }
     return true;
 }

 void
 run_xor(ssize_t offset, size_t step)
 {
     assert(step != 0);
     assert(step < HEAP_SIZE);

     /* Figure out the range.
      */
 uintptr_t base;
 uintptr_t top;
     if (offset >= 0) {
         base = (uintptr_t)HEAP_BASE + offset;
     } else {
         base = (uintptr_t)HEAP_BASE + (uintptr_t)HEAP_SIZE + offset;
     }
     if (base < (uintptr_t)HEAP_BASE) {
         base = (uintptr_t)HEAP_BASE;
     } else if (base > (uintptr_t)(HEAP_BASE + HEAP_SIZE)) {
         base = (uintptr_t)(HEAP_BASE + HEAP_SIZE);
     } else {
         base = (base + HB_OBJECT_ALIGNMENT - 1) & ~(HB_OBJECT_ALIGNMENT - 1);
     }
     step *= HB_OBJECT_ALIGNMENT;
     top = base + step * NUM_XOR_PTRS;
     if (top > (uintptr_t)(HEAP_BASE + HEAP_SIZE)) {
         top = (uintptr_t)(HEAP_BASE + HEAP_SIZE);
     }

     /* Create the pointers.
      */
     gNumPtrs = 0;
     memset(gXorPtrs, 0, sizeof(gXorPtrs));
     memset(gClearedPtrs, 0, sizeof(gClearedPtrs));
     memset(gSeenPtrs, 0, sizeof(gSeenPtrs));

 uintptr_t addr;
 void **p = gXorPtrs;
     for (addr = base; addr < top; addr += step) {
         *p++ = (void *)addr;
         gNumPtrs++;
     }
     assert(seenAndClearedMatch());

     /* Set up the bitmaps.
      */
 HeapBitmap hb1, hb2;
 bool ok;

     ok = dvmHeapBitmapInit(&hb1, HEAP_BASE, HEAP_SIZE, "test1");
     assert(ok);
     ok = dvmHeapBitmapInitFromTemplate(&hb2, &hb1, "test2");
     assert(ok);

     /* Walk two empty bitmaps.
      */
 TRACE("walk 0\n");
     ok = dvmHeapBitmapXorWalk(&hb1, &hb2, xorCallback, gCallbackArg);
     assert(ok);
     assert(seenAndClearedMatch());

     /* Walk one empty bitmap.
      */
 TRACE("walk 1\n");
     dvmHeapBitmapSetObjectBit(&hb1, (void *)base);
     ok = dvmHeapBitmapXorWalk(&hb1, &hb2, xorCallback, gCallbackArg);
     assert(ok);

     /* Make the bitmaps match.
      */
 TRACE("walk 2\n");
     dvmHeapBitmapSetObjectBit(&hb2, (void *)base);
     ok = dvmHeapBitmapXorWalk(&hb1, &hb2, xorCallback, gCallbackArg);
     assert(ok);

     /* Clear the bitmaps.
      */
     dvmHeapBitmapZero(&hb1);
     assert_empty(&hb1);
     dvmHeapBitmapZero(&hb2);
     assert_empty(&hb2);

     /* Set the pointers we created in one of the bitmaps,
      * then visit them.
      */
 size_t i;
     for (i = 0; i < gNumPtrs; i++) {
         dvmHeapBitmapSetObjectBit(&hb1, gXorPtrs[i]);
     }
 TRACE("walk 3\n");
     ok = dvmHeapBitmapXorWalk(&hb1, &hb2, xorCallback, gCallbackArg);
     assert(ok);

     /* Set every third pointer in the other bitmap, and visit again.
      */
     for (i = 0; i < gNumPtrs; i += 3) {
         dvmHeapBitmapSetObjectBit(&hb2, gXorPtrs[i]);
     }
 TRACE("walk 4\n");
     ok = dvmHeapBitmapXorWalk(&hb1, &hb2, xorCallback, gCallbackArg);
     assert(ok);

     /* Set every other pointer in the other bitmap, and visit again.
      */
     for (i = 0; i < gNumPtrs; i += 2) {
         dvmHeapBitmapSetObjectBit(&hb2, gXorPtrs[i]);
     }
 TRACE("walk 5\n");
     ok = dvmHeapBitmapXorWalk(&hb1, &hb2, xorCallback, gCallbackArg);
     assert(ok);

     /* Walk just one bitmap.
      */
 TRACE("walk 6\n");
     ok = dvmHeapBitmapWalk(&hb2, xorCallback, gCallbackArg);
     assert(ok);

 //xxx build an expect list for the callback
 //xxx test where max points to beginning, middle, and end of a word

     /* Clean up.
      */
     dvmHeapBitmapDelete(&hb1);
     dvmHeapBitmapDelete(&hb2);
 }

 void
 test_xor()
 {
     run_xor(0, 1);
     run_xor(100, 34);
 }

 int main(int argc, char *argv[])
 {
     printf("test_init...\n");
     test_init();

     printf("test_bits...\n");
     test_bits();

     printf("test_clear...\n");
     test_clear();

     printf("test_modify...\n");
     test_modify();

     printf("test_xor...\n");
     test_xor();

     printf("done.\n");
     return 0;
 }
	#include <stdio.h>
	#include <stdbool.h>
	#include <stdint.h>
	#include <assert.h>
	#include <string.h>
	#include <unistd.h>
	#define __attribute(x) /* disable inlining */
	#include "HeapBitmap.h"
	#undef __attribute

	#define PAGE_SIZE 4096
	#define HEAP_BASE ((void *)0x10000)
	#define HEAP_SIZE (5 * PAGE_SIZE + 888)

	#define VERBOSE 1
	#if VERBOSE
	#define TRACE(...) printf(__VA_ARGS__)
	#else
	#define TRACE(...) /**/
	#endif

	void
	test_init()
	{
	HeapBitmap hb;
	bool ok;

	memset(&hb, 0x55, sizeof(hb));

	ok = dvmHeapBitmapInit(&hb, HEAP_BASE, HEAP_SIZE, "test");
	assert(ok);

	assert(hb.bits != NULL);
	assert(hb.bitsLen >= HB_OFFSET_TO_INDEX(HEAP_SIZE));
	assert(hb.base == (uintptr_t)HEAP_BASE);
	assert(hb.max < hb.base);

	/* Make sure hb.bits is mapped.
	*/
	*hb.bits = 0x55;
	assert(*hb.bits = 0x55);
	*hb.bits = 0;

	#define TEST_UNMAP 0
	#if TEST_UNMAP
	/* Hold onto this to make sure it's unmapped later.
	*/
	unsigned long int *bits = hb.bits;
	#endif

	dvmHeapBitmapDelete(&hb);

	assert(hb.bits == NULL);
	assert(hb.bitsLen == 0);
	assert(hb.base == 0);
	assert(hb.max == 0);

	#if TEST_UNMAP
	/* This pointer shouldn't be mapped anymore.
	*/
	*bits = 0x55;
	assert(!"Should have segfaulted");
	#endif
	}

	bool is_zeroed(const HeapBitmap *hb)
	{
	int i;

	for (i = 0; i < hb->bitsLen / sizeof (*hb->bits); i++) {
	if (hb->bits[i] != 0L) {
	return false;
	}
	}
	return true;
	}

	void assert_empty(const HeapBitmap *hb)
	{
	assert(hb->bits != NULL);
	assert(hb->bitsLen >= HB_OFFSET_TO_INDEX(HEAP_SIZE));
	assert(hb->base == (uintptr_t)HEAP_BASE);
	assert(hb->max < hb->base);

	assert(is_zeroed(hb));

	assert(!dvmHeapBitmapMayContainObject(hb,
	HEAP_BASE));
	assert(!dvmHeapBitmapMayContainObject(hb,
	HEAP_BASE + HB_OBJECT_ALIGNMENT));
	assert(!dvmHeapBitmapMayContainObject(hb,
	HEAP_BASE + HEAP_SIZE - HB_OBJECT_ALIGNMENT));
	assert(!dvmHeapBitmapMayContainObject(hb,
	HEAP_BASE + HEAP_SIZE));

	assert(!dvmHeapBitmapIsObjectBitSet(hb,
	HEAP_BASE));
	assert(!dvmHeapBitmapIsObjectBitSet(hb,
	HEAP_BASE + HB_OBJECT_ALIGNMENT));
	assert(!dvmHeapBitmapIsObjectBitSet(hb,
	HEAP_BASE + HEAP_SIZE - HB_OBJECT_ALIGNMENT));
	}

	void
	test_bits()
	{
	HeapBitmap hb;
	bool ok;

	ok = dvmHeapBitmapInit(&hb, HEAP_BASE, HEAP_SIZE, "test");
	assert(ok);

	assert_empty(&hb);

	/* Set the lowest address.
	*/
	dvmHeapBitmapSetObjectBit(&hb, HEAP_BASE);
	assert(dvmHeapBitmapMayContainObject(&hb,
	HEAP_BASE));
	assert(!dvmHeapBitmapMayContainObject(&hb,
	HEAP_BASE + HB_OBJECT_ALIGNMENT));
	assert(!dvmHeapBitmapMayContainObject(&hb,
	HEAP_BASE + HEAP_SIZE - HB_OBJECT_ALIGNMENT));
	assert(!dvmHeapBitmapMayContainObject(&hb,
	HEAP_BASE + HEAP_SIZE));

	assert(dvmHeapBitmapIsObjectBitSet(&hb,
	HEAP_BASE));
	assert(!dvmHeapBitmapIsObjectBitSet(&hb,
	HEAP_BASE + HB_OBJECT_ALIGNMENT));
	assert(!dvmHeapBitmapIsObjectBitSet(&hb,
	HEAP_BASE + HEAP_SIZE - HB_OBJECT_ALIGNMENT));

	/* Set the highest address.
	*/
	dvmHeapBitmapSetObjectBit(&hb, HEAP_BASE + HEAP_SIZE - HB_OBJECT_ALIGNMENT);
	assert(dvmHeapBitmapMayContainObject(&hb,
	HEAP_BASE));
	assert(dvmHeapBitmapMayContainObject(&hb,
	HEAP_BASE + HB_OBJECT_ALIGNMENT));
	assert(dvmHeapBitmapMayContainObject(&hb,
	HEAP_BASE + HEAP_SIZE - HB_OBJECT_ALIGNMENT));
	assert(!dvmHeapBitmapMayContainObject(&hb,
	HEAP_BASE + HEAP_SIZE));

	assert(dvmHeapBitmapIsObjectBitSet(&hb,
	HEAP_BASE));
	assert(!dvmHeapBitmapIsObjectBitSet(&hb,
	HEAP_BASE + HB_OBJECT_ALIGNMENT));
	assert(dvmHeapBitmapIsObjectBitSet(&hb,
	HEAP_BASE + HEAP_SIZE - HB_OBJECT_ALIGNMENT));

	/* Clear the lowest address.
	*/
	dvmHeapBitmapClearObjectBit(&hb, HEAP_BASE);
	assert(!dvmHeapBitmapIsObjectBitSet(&hb,
	HEAP_BASE));
	assert(!dvmHeapBitmapIsObjectBitSet(&hb,
	HEAP_BASE + HB_OBJECT_ALIGNMENT));
	assert(dvmHeapBitmapIsObjectBitSet(&hb,
	HEAP_BASE + HEAP_SIZE - HB_OBJECT_ALIGNMENT));
	assert(!is_zeroed(&hb));

	/* Clear the highest address.
	*/
	dvmHeapBitmapClearObjectBit(&hb,
	HEAP_BASE + HEAP_SIZE - HB_OBJECT_ALIGNMENT);
	assert(!dvmHeapBitmapIsObjectBitSet(&hb,
	HEAP_BASE));
	assert(!dvmHeapBitmapIsObjectBitSet(&hb,
	HEAP_BASE + HB_OBJECT_ALIGNMENT));
	assert(!dvmHeapBitmapIsObjectBitSet(&hb,
	HEAP_BASE + HEAP_SIZE - HB_OBJECT_ALIGNMENT));
	assert(is_zeroed(&hb));

	/* Clean up.
	*/
	dvmHeapBitmapDelete(&hb);
	}

	void
	test_clear()
	{
	HeapBitmap hb;
	bool ok;

	ok = dvmHeapBitmapInit(&hb, HEAP_BASE, HEAP_SIZE, "test");
	assert(ok);
	assert_empty(&hb);

	/* Set the highest address.
	*/
	dvmHeapBitmapSetObjectBit(&hb, HEAP_BASE + HEAP_SIZE - HB_OBJECT_ALIGNMENT);
	assert(!is_zeroed(&hb));

	/* Clear the bitmap.
	*/
	dvmHeapBitmapZero(&hb);
	assert_empty(&hb);

	/* Clean up.
	*/
	dvmHeapBitmapDelete(&hb);
	}

	void
	test_modify()
	{
	HeapBitmap hb;
	bool ok;
	unsigned long bit;

	ok = dvmHeapBitmapInit(&hb, HEAP_BASE, HEAP_SIZE, "test");
	assert(ok);
	assert_empty(&hb);

	/* Set the lowest address.
	*/
	bit = dvmHeapBitmapSetAndReturnObjectBit(&hb, HEAP_BASE);
	assert(bit == 0);
	assert(dvmHeapBitmapMayContainObject(&hb,
	HEAP_BASE));
	assert(!dvmHeapBitmapMayContainObject(&hb,
	HEAP_BASE + HB_OBJECT_ALIGNMENT));
	assert(!dvmHeapBitmapMayContainObject(&hb,
	HEAP_BASE + HEAP_SIZE - HB_OBJECT_ALIGNMENT));
	assert(!dvmHeapBitmapMayContainObject(&hb,
	HEAP_BASE + HEAP_SIZE));

	assert(dvmHeapBitmapIsObjectBitSet(&hb,
	HEAP_BASE));
	assert(!dvmHeapBitmapIsObjectBitSet(&hb,
	HEAP_BASE + HB_OBJECT_ALIGNMENT));
	assert(!dvmHeapBitmapIsObjectBitSet(&hb,
	HEAP_BASE + HEAP_SIZE - HB_OBJECT_ALIGNMENT));

	/* Set the lowest address again.
	*/
	bit = dvmHeapBitmapSetAndReturnObjectBit(&hb, HEAP_BASE);
	assert(bit != 0);
	assert(dvmHeapBitmapMayContainObject(&hb,
	HEAP_BASE));
	assert(!dvmHeapBitmapMayContainObject(&hb,
	HEAP_BASE + HB_OBJECT_ALIGNMENT));
	assert(!dvmHeapBitmapMayContainObject(&hb,
	HEAP_BASE + HEAP_SIZE - HB_OBJECT_ALIGNMENT));
	assert(!dvmHeapBitmapMayContainObject(&hb,
	HEAP_BASE + HEAP_SIZE));

	assert(dvmHeapBitmapIsObjectBitSet(&hb,
	HEAP_BASE));
	assert(!dvmHeapBitmapIsObjectBitSet(&hb,
	HEAP_BASE + HB_OBJECT_ALIGNMENT));
	assert(!dvmHeapBitmapIsObjectBitSet(&hb,
	HEAP_BASE + HEAP_SIZE - HB_OBJECT_ALIGNMENT));

	/* Set the highest address.
	*/
	bit = dvmHeapBitmapSetAndReturnObjectBit(&hb,
	HEAP_BASE + HEAP_SIZE - HB_OBJECT_ALIGNMENT);
	assert(bit == 0);
	assert(dvmHeapBitmapMayContainObject(&hb,
	HEAP_BASE));
	assert(dvmHeapBitmapMayContainObject(&hb,
	HEAP_BASE + HB_OBJECT_ALIGNMENT));
	assert(dvmHeapBitmapMayContainObject(&hb,
	HEAP_BASE + HEAP_SIZE - HB_OBJECT_ALIGNMENT));
	assert(!dvmHeapBitmapMayContainObject(&hb,
	HEAP_BASE + HEAP_SIZE));

	assert(dvmHeapBitmapIsObjectBitSet(&hb,
	HEAP_BASE));
	assert(!dvmHeapBitmapIsObjectBitSet(&hb,
	HEAP_BASE + HB_OBJECT_ALIGNMENT));
	assert(dvmHeapBitmapIsObjectBitSet(&hb,
	HEAP_BASE + HEAP_SIZE - HB_OBJECT_ALIGNMENT));

	/* Set the highest address again.
	*/
	bit = dvmHeapBitmapSetAndReturnObjectBit(&hb,
	HEAP_BASE + HEAP_SIZE - HB_OBJECT_ALIGNMENT);
	assert(bit != 0);
	assert(dvmHeapBitmapMayContainObject(&hb,
	HEAP_BASE));
	assert(dvmHeapBitmapMayContainObject(&hb,
	HEAP_BASE + HB_OBJECT_ALIGNMENT));
	assert(dvmHeapBitmapMayContainObject(&hb,
	HEAP_BASE + HEAP_SIZE - HB_OBJECT_ALIGNMENT));
	assert(!dvmHeapBitmapMayContainObject(&hb,
	HEAP_BASE + HEAP_SIZE));

	assert(dvmHeapBitmapIsObjectBitSet(&hb,
	HEAP_BASE));
	assert(!dvmHeapBitmapIsObjectBitSet(&hb,
	HEAP_BASE + HB_OBJECT_ALIGNMENT));
	assert(dvmHeapBitmapIsObjectBitSet(&hb,
	HEAP_BASE + HEAP_SIZE - HB_OBJECT_ALIGNMENT));

	/* Clean up.
	*/
	dvmHeapBitmapDelete(&hb);
	}

	/*
	* xor test support functions
	*/

	static void *gCallbackArg = NULL;

	#define NUM_XOR_PTRS 128
	static size_t gNumPtrs;
	static void *gXorPtrs[NUM_XOR_PTRS];
	static bool gClearedPtrs[NUM_XOR_PTRS];
	static bool gSeenPtrs[NUM_XOR_PTRS];

	bool
	xorCallback(size_t numPtrs, void *ptrs, const void finger, void *arg)
	{
	assert(numPtrs > 0);
	assert(ptrs != NULL);
	assert(arg == gCallbackArg);

	size_t i;
	for (i = 0; i < numPtrs; i++) {
	assert(ptrs[i] < finger);
	printf("callback: 0x%08x ( < 0x%08x )\n",
	(uintptr_t)ptrs[i], (uintptr_t)finger);
	}

	return true;
	}

	bool
	seenAndClearedMatch()
	{
	size_t i;
	for (i = 0; i < gNumPtrs; i++) {
	if (gClearedPtrs[i] != gSeenPtrs[i]) {
	return false;
	}
	}
	return true;
	}

	void
	run_xor(ssize_t offset, size_t step)
	{
	assert(step != 0);
	assert(step < HEAP_SIZE);

	/* Figure out the range.
	*/
	uintptr_t base;
	uintptr_t top;
	if (offset >= 0) {
	base = (uintptr_t)HEAP_BASE + offset;
	} else {
	base = (uintptr_t)HEAP_BASE + (uintptr_t)HEAP_SIZE + offset;
	}
	if (base < (uintptr_t)HEAP_BASE) {
	base = (uintptr_t)HEAP_BASE;
	} else if (base > (uintptr_t)(HEAP_BASE + HEAP_SIZE)) {
	base = (uintptr_t)(HEAP_BASE + HEAP_SIZE);
	} else {
	base = (base + HB_OBJECT_ALIGNMENT - 1) & ~(HB_OBJECT_ALIGNMENT - 1);
	}
	step *= HB_OBJECT_ALIGNMENT;
	top = base + step * NUM_XOR_PTRS;
	if (top > (uintptr_t)(HEAP_BASE + HEAP_SIZE)) {
	top = (uintptr_t)(HEAP_BASE + HEAP_SIZE);
	}

	/* Create the pointers.
	*/
	gNumPtrs = 0;
	memset(gXorPtrs, 0, sizeof(gXorPtrs));
	memset(gClearedPtrs, 0, sizeof(gClearedPtrs));
	memset(gSeenPtrs, 0, sizeof(gSeenPtrs));

	uintptr_t addr;
	void **p = gXorPtrs;
	for (addr = base; addr < top; addr += step) {
	p++ = (void )addr;
	gNumPtrs++;
	}
	assert(seenAndClearedMatch());

	/* Set up the bitmaps.
	*/
	HeapBitmap hb1, hb2;
	bool ok;

	ok = dvmHeapBitmapInit(&hb1, HEAP_BASE, HEAP_SIZE, "test1");
	assert(ok);
	ok = dvmHeapBitmapInitFromTemplate(&hb2, &hb1, "test2");
	assert(ok);

	/* Walk two empty bitmaps.
	*/
	TRACE("walk 0\n");
	ok = dvmHeapBitmapXorWalk(&hb1, &hb2, xorCallback, gCallbackArg);
	assert(ok);
	assert(seenAndClearedMatch());

	/* Walk one empty bitmap.
	*/
	TRACE("walk 1\n");
	dvmHeapBitmapSetObjectBit(&hb1, (void *)base);
	ok = dvmHeapBitmapXorWalk(&hb1, &hb2, xorCallback, gCallbackArg);
	assert(ok);

	/* Make the bitmaps match.
	*/
	TRACE("walk 2\n");
	dvmHeapBitmapSetObjectBit(&hb2, (void *)base);
	ok = dvmHeapBitmapXorWalk(&hb1, &hb2, xorCallback, gCallbackArg);
	assert(ok);

	/* Clear the bitmaps.
	*/
	dvmHeapBitmapZero(&hb1);
	assert_empty(&hb1);
	dvmHeapBitmapZero(&hb2);
	assert_empty(&hb2);

	/* Set the pointers we created in one of the bitmaps,
	* then visit them.
	*/
	size_t i;
	for (i = 0; i < gNumPtrs; i++) {
	dvmHeapBitmapSetObjectBit(&hb1, gXorPtrs[i]);
	}
	TRACE("walk 3\n");
	ok = dvmHeapBitmapXorWalk(&hb1, &hb2, xorCallback, gCallbackArg);
	assert(ok);

	/* Set every third pointer in the other bitmap, and visit again.
	*/
	for (i = 0; i < gNumPtrs; i += 3) {
	dvmHeapBitmapSetObjectBit(&hb2, gXorPtrs[i]);
	}
	TRACE("walk 4\n");
	ok = dvmHeapBitmapXorWalk(&hb1, &hb2, xorCallback, gCallbackArg);
	assert(ok);

	/* Set every other pointer in the other bitmap, and visit again.
	*/
	for (i = 0; i < gNumPtrs; i += 2) {
	dvmHeapBitmapSetObjectBit(&hb2, gXorPtrs[i]);
	}
	TRACE("walk 5\n");
	ok = dvmHeapBitmapXorWalk(&hb1, &hb2, xorCallback, gCallbackArg);
	assert(ok);

	/* Walk just one bitmap.
	*/
	TRACE("walk 6\n");
	ok = dvmHeapBitmapWalk(&hb2, xorCallback, gCallbackArg);
	assert(ok);

	//xxx build an expect list for the callback
	//xxx test where max points to beginning, middle, and end of a word

	/* Clean up.
	*/
	dvmHeapBitmapDelete(&hb1);
	dvmHeapBitmapDelete(&hb2);
	}

	void
	test_xor()
	{
	run_xor(0, 1);
	run_xor(100, 34);
	}

	int main(int argc, char *argv[])
	{
	printf("test_init...\n");
	test_init();

	printf("test_bits...\n");
	test_bits();

	printf("test_clear...\n");
	test_clear();

	printf("test_modify...\n");
	test_modify();

	printf("test_xor...\n");
	test_xor();

	printf("done.\n");
	return 0;
	}