/* $Id$ */
// this test uses CData structure defined in test_autocopyptr.h
static int TestBinaryHeap1(bool silent)
{
CData::NumInstances() = 0;
int res = 0;
{
const int max_items = 10000;
const int total_adds = 1000000;
CBinaryHeapT<CData> bh(max_items);
CFixedSizeArrayT<CData, max_items> data;
DBG("\nFilling BinaryHeap with %d items...", max_items);
CHECK_INT(0, bh.Size(), 0);
CHECK_INT(1, CData::NumInstances(), 0);
int i = 0;
for (; i < max_items; i++) {
CData& d = data.Add();
d.val = rand() & 0xFFFF;
bh.Push(d);
}
CHECK_INT(2, bh.Size(), max_items);
CHECK_INT(3, CData::NumInstances(), max_items);
DBG("\nShaking items %d times...", total_adds);
int num_last = bh.GetHead().val;
for (i = 0; i < total_adds; i++) {
CData& d = bh.PopHead();
//printf("\nd->val = %d, num_last = %d", d->val, num_last);
CHECK_INT(4, d.val < num_last, 0);
if(d.val < num_last) {
printf("Sort error @ item %d", i);
}
num_last = d.val;
d.val += rand() & 0xFFFF;
bh.Push(d);
}
DBG("\nDone!");
CHECK_INT(5, bh.Size(), max_items);
CHECK_INT(6, CData::NumInstances(), max_items);
}
CHECK_INT(7, CData::NumInstances(), 0);
return res;
}
// this test uses CData and PData structures defined in test_autocopyptr.h
static int TestBinaryHeap2(bool silent)
{
CData::NumInstances() = 0;
int res = 0;
{
const int max_items = 10000;
const int total_adds = 1000000;
CBinaryHeapT<CData> bh(max_items);
CFixedSizeArrayT<CData, max_items> data;
DBG("\nFilling BinaryHeap with %d items...", max_items);
CHECK_INT(0, bh.Size(), 0);
CHECK_INT(1, CData::NumInstances(), 0);
int i = 0;
for (; i < max_items; i++) {
CData& d = data.Add();
d.val = rand() & 0xFFFF;
bh.Push(d);
}
CHECK_INT(2, bh.Size(), max_items);
CHECK_INT(3, CData::NumInstances(), max_items);
DBG("\nShaking items %d times...", total_adds);
int num_last = bh.GetHead().val;
for (i = 0; i < total_adds; i++) {
CData& d = bh.GetHead();
bh.RemoveHead();
//printf("\nd->val = %d, num_last = %d", d->val, num_last);
CHECK_INT(4, d.val < num_last, 0);
if(d.val < num_last) {
printf("Sort error @ item %d", i);
}
num_last = d.val;
d.val += rand() & 0xFFFF;
bh.Push(d);
}
DBG("\nDone!");
CHECK_INT(5, bh.Size(), max_items);
CHECK_INT(6, CData::NumInstances(), max_items);
}
CHECK_INT(7, CData::NumInstances(), 0);
return res;
}