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//=============================================================================
/**
* @file OrdMultiSet_Test.cpp
*
* This is a simple test of the <ACE_Ordered_MultiSet> and
* <ACE_Ordered_MultiSet_Iterator> class templates, instantiating
* them with type int. No command line arguments are needed to run
* the test.
*
*
* @author Chris Gill <cdgill@cs.wustl.edu>
*/
//=============================================================================
// Note, for this test the config.h file *must* come first!
#include "ace/config-all.h"
#include "test_config.h"
#include "ace/Containers.h"
int
run_main (int, ACE_TCHAR *[])
{
int ret = 0;
int *ptr = 0;
ACE_START_TEST (ACE_TEXT ("OrdMultiSet_Test"));
// make an empty set of int and an iterator
ACE_Ordered_MultiSet<int> set;
ACE_Ordered_MultiSet_Iterator<int> iter(set);
// Put in a range of odd ints, without an iterator.
int i;
for (i = -10; i < 10; ++i)
set.insert (2 * i + 1);
// Put in an interleaved range of even ints, using an iterator.
for (i = -10; i <= 10; ++i)
set.insert (2 * i, iter);
// Remove the first and last elements of range.
while (set.remove (-20) == 0)
{
// No action.
}
while (set.remove (20) == 0)
{
// No action.
}
// Should still have 39 elements in the set.
ACE_TEST_ASSERT (set.is_empty () == 0);
ACE_TEST_ASSERT (set.size () == 39);
// Iterate forward through the range we created: should be one of
// each.
iter.first ();
for (i = -19; i <= 19; ++i)
{
// we should still be in the set
ACE_TEST_ASSERT (iter.done () == 0);
// make sure the current element is what we expect
iter.next (ptr);
ACE_TEST_ASSERT (ptr != 0);
ACE_TEST_ASSERT (*ptr == i);
// move to the next element in the set
iter.advance ();
}
// We should have iterated through the entire set.
ACE_TEST_ASSERT (iter.done () != 0);
// Iterate backward through the range we created: should be one of
// each.
iter.last ();
for (i = 19; i >= -19; --i)
{
// We should still be in the set.
ACE_TEST_ASSERT (iter.done () == 0);
// Make sure the current element is what we expect.
int *ptr = 0;
iter.next (ptr);
ACE_TEST_ASSERT (ptr != 0);
ACE_TEST_ASSERT (*ptr == i);
// Move to the previous element in the set.
iter.retreat ();
}
// We should have iterated through the entire set.
ACE_TEST_ASSERT (iter.done () != 0);
// Iterate through the set and use the operator* to get the element
iter.first ();
for (i = -19; i <= 19; ++i)
{
// we should still be in the set
ACE_TEST_ASSERT (iter.done () == 0);
// make sure the current element is what we expect
int& l = *iter;
ACE_TEST_ASSERT (l == i);
// move to the next element in the set
iter.advance ();
}
// We should have iterated through the entire set.
ACE_TEST_ASSERT (iter.done () != 0);
// Clear the set, restart the iterator, and make sure the iterator
// is out of range at both ends, the set is empty, and a subsequent
// advance or retreat on an out of range iterator does not cause
// problems
set.reset ();
ACE_TEST_ASSERT (set.is_empty () != 0);
iter.first ();
ACE_TEST_ASSERT (iter.done () != 0);
iter.retreat ();
iter.last ();
ACE_TEST_ASSERT (iter.done () != 0);
iter.advance ();
// Put in a bunch of ints in various relative positions, using an
// iterator for the odds and no iterator for the evens.
set.insert (203, iter);
set.insert (202);
set.insert (204);
set.insert (201, iter);
set.insert (205, iter);
set.insert (203, iter);
set.insert (203, iter);
set.insert (204);
set.insert (204);
set.insert (204);
set.insert (205, iter);
set.insert (205, iter);
set.insert (205, iter);
set.insert (205, iter);
set.insert (202);
// remove the middle elements
while (set.remove (204) == 0)
{
// No action.
}
while (set.remove (202) == 0)
{
// No action.
}
while (set.remove (203) == 0)
{
// No action.
}
// Put the iterator out of range and make sure it stays
// that way for finds on the missing elements.
iter.last ();
iter.advance ();
set.find (203, iter);
ACE_TEST_ASSERT (iter.done () != 0);
set.find (202, iter);
ACE_TEST_ASSERT (iter.done () != 0);
set.find (204, iter);
ACE_TEST_ASSERT (iter.done () != 0);
// Make sure the other elements can be found.
set.find (205, iter);
ACE_TEST_ASSERT (iter.done () == 0);
iter.next (ptr);
ACE_TEST_ASSERT (ptr != 0);
ACE_TEST_ASSERT (*ptr == 205);
set.find (201, iter);
ACE_TEST_ASSERT (iter.done () == 0);
iter.next (ptr);
ACE_TEST_ASSERT (ptr != 0);
ACE_TEST_ASSERT (*ptr == 201);
// Finally, iterate through the set and make sure its contents are
// correct (one 201 and five 205s).
iter.first ();
ACE_TEST_ASSERT (iter.done () == 0);
iter.next (ptr);
ACE_TEST_ASSERT (ptr != 0);
ACE_TEST_ASSERT (*ptr == 201);
iter.advance ();
for (i = 1; i <= 5; ++i)
{
// Should be in the set, able to access the element, value
// should be 205
ACE_TEST_ASSERT (iter.done () == 0);
iter.next (ptr);
ACE_TEST_ASSERT (ptr != 0);
ACE_TEST_ASSERT (*ptr == 205);
// Move to the next element in the set.
iter.advance ();
}
// Should not be anything else in the set.
ACE_TEST_ASSERT (iter.done () != 0);
// remove the rest
while (set.remove (205) == 0)
{
// No action.
}
while (set.remove (201) == 0)
{
// No action.
}
// Should have no more elements in the set.
ACE_TEST_ASSERT (set.is_empty () != 0);
ACE_TEST_ASSERT (set.size () == 0);
iter.first ();
ACE_TEST_ASSERT (iter.done () != 0);
iter.last ();
ACE_TEST_ASSERT (iter.done () != 0);
ACE_END_TEST;
return ret;
}
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