mirror of
https://github.com/reactos/reactos.git
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507 lines
13 KiB
C++
507 lines
13 KiB
C++
//Has to be first for StackAllocator swap overload to be taken
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//into account (at least using GCC 4.0.1)
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#include "stack_allocator.h"
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#include <set>
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#include <algorithm>
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#include "cppunit/cppunit_proxy.h"
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#if !defined (STLPORT) || defined(_STLP_USE_NAMESPACES)
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using namespace std;
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#endif
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//
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// TestCase class
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//
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class SetTest : public CPPUNIT_NS::TestCase
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{
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CPPUNIT_TEST_SUITE(SetTest);
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CPPUNIT_TEST(set1);
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CPPUNIT_TEST(set2);
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CPPUNIT_TEST(erase);
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CPPUNIT_TEST(insert);
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CPPUNIT_TEST(find);
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CPPUNIT_TEST(bounds);
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CPPUNIT_TEST(specialized_less);
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CPPUNIT_TEST(implementation_check);
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CPPUNIT_TEST(allocator_with_state);
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CPPUNIT_TEST(reverse_iterator_test);
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#if !defined (STLPORT) || !defined (_STLP_USE_CONTAINERS_EXTENSION)
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CPPUNIT_IGNORE;
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#endif
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CPPUNIT_TEST(template_methods);
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CPPUNIT_TEST_SUITE_END();
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protected:
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void set1();
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void set2();
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void erase();
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void insert();
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void find();
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void bounds();
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void specialized_less();
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void implementation_check();
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void allocator_with_state();
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void reverse_iterator_test();
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void template_methods();
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};
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CPPUNIT_TEST_SUITE_REGISTRATION(SetTest);
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//
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// tests implementation
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//
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void SetTest::set1()
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{
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set<int, less<int> > s;
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CPPUNIT_ASSERT (s.count(42) == 0);
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s.insert(42);
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CPPUNIT_ASSERT (s.count(42) == 1);
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s.insert(42);
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CPPUNIT_ASSERT (s.count(42) == 1);
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size_t count = s.erase(42);
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CPPUNIT_ASSERT (count == 1);
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}
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void SetTest::set2()
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{
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typedef set<int, less<int> > int_set;
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int_set s;
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pair<int_set::iterator, bool> p = s.insert(42);
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CPPUNIT_ASSERT (p.second == true);
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p = s.insert(42);
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CPPUNIT_ASSERT (p.second == false);
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int array1 [] = { 1, 3, 6, 7 };
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s.insert(array1, array1 + 4);
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CPPUNIT_ASSERT (distance(s.begin(), s.end()) == 5);
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int_set s2;
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s2.swap(s);
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CPPUNIT_ASSERT (distance(s2.begin(), s2.end()) == 5);
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CPPUNIT_ASSERT (distance(s.begin(), s.end()) == 0);
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int_set s3;
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s3.swap(s);
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s3.swap(s2);
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CPPUNIT_ASSERT (distance(s.begin(), s.end()) == 0);
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CPPUNIT_ASSERT (distance(s2.begin(), s2.end()) == 0);
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CPPUNIT_ASSERT (distance(s3.begin(), s3.end()) == 5);
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}
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void SetTest::erase()
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{
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set<int, less<int> > s;
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s.insert(1);
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s.erase(s.begin());
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CPPUNIT_ASSERT( s.empty() );
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size_t nb = s.erase(1);
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CPPUNIT_ASSERT(nb == 0);
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}
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void SetTest::insert()
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{
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set<int> s;
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set<int>::iterator i = s.insert( s.end(), 0 );
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CPPUNIT_ASSERT( *i == 0 );
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}
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void SetTest::find()
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{
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set<int> s;
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CPPUNIT_ASSERT( s.find(0) == s.end() );
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set<int> const& crs = s;
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CPPUNIT_ASSERT( crs.find(0) == crs.end() );
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}
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void SetTest::bounds()
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{
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int array1 [] = { 1, 3, 6, 7 };
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set<int> s(array1, array1 + sizeof(array1) / sizeof(array1[0]));
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set<int> const& crs = s;
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set<int>::iterator sit;
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set<int>::const_iterator scit;
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pair<set<int>::iterator, set<int>::iterator> pit;
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pair<set<int>::const_iterator, set<int>::const_iterator> pcit;
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//Check iterator on mutable set
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sit = s.lower_bound(2);
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CPPUNIT_ASSERT( sit != s.end() );
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CPPUNIT_ASSERT( *sit == 3 );
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sit = s.upper_bound(5);
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CPPUNIT_ASSERT( sit != s.end() );
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CPPUNIT_ASSERT( *sit == 6 );
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pit = s.equal_range(6);
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CPPUNIT_ASSERT( pit.first != pit.second );
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CPPUNIT_ASSERT( pit.first != s.end() );
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CPPUNIT_ASSERT( *pit.first == 6 );
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CPPUNIT_ASSERT( pit.second != s.end() );
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CPPUNIT_ASSERT( *pit.second == 7 );
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pit = s.equal_range(4);
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CPPUNIT_ASSERT( pit.first == pit.second );
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CPPUNIT_ASSERT( pit.first != s.end() );
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CPPUNIT_ASSERT( *pit.first == 6 );
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CPPUNIT_ASSERT( pit.second != s.end() );
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CPPUNIT_ASSERT( *pit.second == 6 );
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//Check const_iterator on mutable set
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scit = s.lower_bound(2);
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CPPUNIT_ASSERT( scit != s.end() );
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CPPUNIT_ASSERT( *scit == 3 );
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scit = s.upper_bound(5);
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CPPUNIT_ASSERT( scit != s.end() );
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CPPUNIT_ASSERT( *scit == 6 );
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#ifdef _STLP_MEMBER_TEMPLATES
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pcit = s.equal_range(6);
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CPPUNIT_ASSERT( pcit.first != pcit.second );
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CPPUNIT_ASSERT( pcit.first != s.end() );
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CPPUNIT_ASSERT( *pcit.first == 6 );
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CPPUNIT_ASSERT( pcit.second != s.end() );
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CPPUNIT_ASSERT( *pcit.second == 7 );
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#endif
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//Check const_iterator on const set
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scit = crs.lower_bound(2);
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CPPUNIT_ASSERT( scit != crs.end() );
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CPPUNIT_ASSERT( *scit == 3 );
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scit = crs.upper_bound(5);
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CPPUNIT_ASSERT( scit != crs.end() );
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CPPUNIT_ASSERT( *scit == 6 );
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pcit = crs.equal_range(6);
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CPPUNIT_ASSERT( pcit.first != pcit.second );
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CPPUNIT_ASSERT( pcit.first != crs.end() );
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CPPUNIT_ASSERT( *pcit.first == 6 );
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CPPUNIT_ASSERT( pcit.second != crs.end() );
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CPPUNIT_ASSERT( *pcit.second == 7 );
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}
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class SetTestClass {
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public:
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SetTestClass (int data) : _data(data)
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{}
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int data() const {
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return _data;
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}
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private:
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int _data;
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};
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#if !defined (STLPORT) || defined (_STLP_USE_NAMESPACES)
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namespace std {
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#endif
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#if defined (STLPORT)
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_STLP_TEMPLATE_NULL
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#else
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template <>
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#endif
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struct less<SetTestClass> {
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bool operator () (SetTestClass const& lhs, SetTestClass const& rhs) const {
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return lhs.data() < rhs.data();
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}
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};
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#if !defined (STLPORT) || defined (_STLP_USE_NAMESPACES)
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}
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#endif
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void SetTest::specialized_less()
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{
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set<SetTestClass> s;
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s.insert(SetTestClass(1));
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s.insert(SetTestClass(3));
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s.insert(SetTestClass(2));
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s.insert(SetTestClass(0));
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set<SetTestClass>::iterator sit(s.begin()), sitEnd(s.end());
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int i = 0;
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for (; sit != sitEnd; ++sit, ++i) {
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CPPUNIT_ASSERT( sit->data() == i );
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}
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}
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void SetTest::implementation_check()
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{
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set<int> tree;
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tree.insert(1);
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set<int>::iterator it = tree.begin();
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int const& int_ref = *it++;
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CPPUNIT_ASSERT( int_ref == 1 );
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CPPUNIT_ASSERT( it == tree.end() );
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CPPUNIT_ASSERT( it != tree.begin() );
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set<int>::const_iterator cit = tree.begin();
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int const& int_cref = *cit++;
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CPPUNIT_ASSERT( int_cref == 1 );
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}
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void SetTest::reverse_iterator_test()
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{
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set<int> tree;
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tree.insert(1);
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tree.insert(2);
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{
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set<int>::reverse_iterator rit(tree.rbegin());
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CPPUNIT_ASSERT( *(rit++) == 2 );
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CPPUNIT_ASSERT( *(rit++) == 1 );
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CPPUNIT_ASSERT( rit == tree.rend() );
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}
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{
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set<int> const& ctree = tree;
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set<int>::const_reverse_iterator rit(ctree.rbegin());
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CPPUNIT_ASSERT( *(rit++) == 2 );
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CPPUNIT_ASSERT( *(rit++) == 1 );
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CPPUNIT_ASSERT( rit == ctree.rend() );
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}
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}
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void SetTest::allocator_with_state()
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{
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char buf1[1024];
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StackAllocator<int> stack1(buf1, buf1 + sizeof(buf1));
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char buf2[1024];
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StackAllocator<int> stack2(buf2, buf2 + sizeof(buf2));
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int i;
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typedef set<int, less<int>, StackAllocator<int> > SetInt;
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less<int> intLess;
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{
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SetInt sint1(intLess, stack1);
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for (i = 0; i < 5; ++i)
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sint1.insert(i);
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SetInt sint1Cpy(sint1);
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SetInt sint2(intLess, stack2);
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for (; i < 10; ++i)
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sint2.insert(i);
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SetInt sint2Cpy(sint2);
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sint1.swap(sint2);
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CPPUNIT_ASSERT( sint1.get_allocator().swaped() );
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CPPUNIT_ASSERT( sint2.get_allocator().swaped() );
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CPPUNIT_ASSERT( sint1 == sint2Cpy );
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CPPUNIT_ASSERT( sint2 == sint1Cpy );
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CPPUNIT_ASSERT( sint1.get_allocator() == stack2 );
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CPPUNIT_ASSERT( sint2.get_allocator() == stack1 );
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}
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CPPUNIT_ASSERT( stack1.ok() );
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CPPUNIT_ASSERT( stack2.ok() );
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stack1.reset(); stack2.reset();
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{
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SetInt sint1(intLess, stack1);
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SetInt sint1Cpy(sint1);
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SetInt sint2(intLess, stack2);
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for (i = 0; i < 10; ++i)
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sint2.insert(i);
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SetInt sint2Cpy(sint2);
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sint1.swap(sint2);
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CPPUNIT_ASSERT( sint1.get_allocator().swaped() );
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CPPUNIT_ASSERT( sint2.get_allocator().swaped() );
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CPPUNIT_ASSERT( sint1 == sint2Cpy );
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CPPUNIT_ASSERT( sint2 == sint1Cpy );
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CPPUNIT_ASSERT( sint1.get_allocator() == stack2 );
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CPPUNIT_ASSERT( sint2.get_allocator() == stack1 );
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}
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CPPUNIT_ASSERT( stack1.ok() );
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CPPUNIT_ASSERT( stack2.ok() );
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stack1.reset(); stack2.reset();
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{
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SetInt sint1(intLess, stack1);
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for (i = 0; i < 10; ++i)
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sint1.insert(i);
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SetInt sint1Cpy(sint1);
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SetInt sint2(intLess, stack2);
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SetInt sint2Cpy(sint2);
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sint1.swap(sint2);
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CPPUNIT_ASSERT( sint1.get_allocator().swaped() );
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CPPUNIT_ASSERT( sint2.get_allocator().swaped() );
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CPPUNIT_ASSERT( sint1 == sint2Cpy );
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CPPUNIT_ASSERT( sint2 == sint1Cpy );
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CPPUNIT_ASSERT( sint1.get_allocator() == stack2 );
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CPPUNIT_ASSERT( sint2.get_allocator() == stack1 );
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}
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CPPUNIT_ASSERT( stack1.ok() );
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CPPUNIT_ASSERT( stack2.ok() );
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stack1.reset(); stack2.reset();
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}
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struct Key
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{
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Key() : m_data(0) {}
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explicit Key(int data) : m_data(data) {}
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int m_data;
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};
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struct KeyCmp
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{
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bool operator () (Key lhs, Key rhs) const
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{ return lhs.m_data < rhs.m_data; }
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bool operator () (Key lhs, int rhs) const
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{ return lhs.m_data < rhs; }
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bool operator () (int lhs, Key rhs) const
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{ return lhs < rhs.m_data; }
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};
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struct KeyCmpPtr
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{
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bool operator () (Key const volatile *lhs, Key const volatile *rhs) const
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{ return (*lhs).m_data < (*rhs).m_data; }
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bool operator () (Key const volatile *lhs, int rhs) const
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{ return (*lhs).m_data < rhs; }
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bool operator () (int lhs, Key const volatile *rhs) const
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{ return lhs < (*rhs).m_data; }
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};
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void SetTest::template_methods()
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{
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#if defined (STLPORT) && defined (_STLP_USE_CONTAINERS_EXTENSION)
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{
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typedef set<Key, KeyCmp> KeySet;
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KeySet keySet;
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keySet.insert(Key(1));
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keySet.insert(Key(2));
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keySet.insert(Key(3));
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keySet.insert(Key(4));
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CPPUNIT_ASSERT( keySet.count(Key(1)) == 1 );
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CPPUNIT_ASSERT( keySet.count(1) == 1 );
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CPPUNIT_ASSERT( keySet.count(5) == 0 );
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CPPUNIT_ASSERT( keySet.find(2) != keySet.end() );
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CPPUNIT_ASSERT( keySet.lower_bound(2) != keySet.end() );
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CPPUNIT_ASSERT( keySet.upper_bound(2) != keySet.end() );
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CPPUNIT_ASSERT( keySet.equal_range(2) != make_pair(keySet.begin(), keySet.end()) );
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KeySet const& ckeySet = keySet;
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CPPUNIT_ASSERT( ckeySet.find(2) != ckeySet.end() );
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CPPUNIT_ASSERT( ckeySet.lower_bound(2) != ckeySet.end() );
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CPPUNIT_ASSERT( ckeySet.upper_bound(2) != ckeySet.end() );
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CPPUNIT_ASSERT( ckeySet.equal_range(2) != make_pair(ckeySet.begin(), ckeySet.end()) );
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}
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{
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typedef set<Key*, KeyCmpPtr> KeySet;
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KeySet keySet;
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Key key1(1), key2(2), key3(3), key4(4);
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keySet.insert(&key1);
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keySet.insert(&key2);
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keySet.insert(&key3);
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keySet.insert(&key4);
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CPPUNIT_ASSERT( keySet.count(1) == 1 );
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CPPUNIT_ASSERT( keySet.count(5) == 0 );
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CPPUNIT_ASSERT( keySet.find(2) != keySet.end() );
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CPPUNIT_ASSERT( keySet.lower_bound(2) != keySet.end() );
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CPPUNIT_ASSERT( keySet.upper_bound(2) != keySet.end() );
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CPPUNIT_ASSERT( keySet.equal_range(2) != make_pair(keySet.begin(), keySet.end()) );
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KeySet const& ckeySet = keySet;
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CPPUNIT_ASSERT( ckeySet.find(2) != ckeySet.end() );
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CPPUNIT_ASSERT( ckeySet.lower_bound(2) != ckeySet.end() );
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CPPUNIT_ASSERT( ckeySet.upper_bound(2) != ckeySet.end() );
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CPPUNIT_ASSERT( ckeySet.equal_range(2) != make_pair(ckeySet.begin(), ckeySet.end()) );
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}
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{
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typedef multiset<Key, KeyCmp> KeySet;
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KeySet keySet;
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keySet.insert(Key(1));
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keySet.insert(Key(2));
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keySet.insert(Key(3));
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keySet.insert(Key(4));
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CPPUNIT_ASSERT( keySet.count(Key(1)) == 1 );
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CPPUNIT_ASSERT( keySet.count(1) == 1 );
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CPPUNIT_ASSERT( keySet.count(5) == 0 );
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CPPUNIT_ASSERT( keySet.find(2) != keySet.end() );
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CPPUNIT_ASSERT( keySet.lower_bound(2) != keySet.end() );
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CPPUNIT_ASSERT( keySet.upper_bound(2) != keySet.end() );
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CPPUNIT_ASSERT( keySet.equal_range(2) != make_pair(keySet.begin(), keySet.end()) );
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KeySet const& ckeySet = keySet;
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CPPUNIT_ASSERT( ckeySet.find(2) != ckeySet.end() );
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CPPUNIT_ASSERT( ckeySet.lower_bound(2) != ckeySet.end() );
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CPPUNIT_ASSERT( ckeySet.upper_bound(2) != ckeySet.end() );
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CPPUNIT_ASSERT( ckeySet.equal_range(2) != make_pair(ckeySet.begin(), ckeySet.end()) );
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}
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{
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typedef multiset<Key const volatile*, KeyCmpPtr> KeySet;
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KeySet keySet;
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Key key1(1), key2(2), key3(3), key4(4);
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keySet.insert(&key1);
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keySet.insert(&key2);
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keySet.insert(&key3);
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keySet.insert(&key4);
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CPPUNIT_ASSERT( keySet.count(1) == 1 );
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CPPUNIT_ASSERT( keySet.count(5) == 0 );
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CPPUNIT_ASSERT( keySet.find(2) != keySet.end() );
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CPPUNIT_ASSERT( keySet.lower_bound(2) != keySet.end() );
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CPPUNIT_ASSERT( keySet.upper_bound(2) != keySet.end() );
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CPPUNIT_ASSERT( keySet.equal_range(2) != make_pair(keySet.begin(), keySet.end()) );
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KeySet const& ckeySet = keySet;
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CPPUNIT_ASSERT( ckeySet.find(2) != ckeySet.end() );
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CPPUNIT_ASSERT( ckeySet.lower_bound(2) != ckeySet.end() );
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CPPUNIT_ASSERT( ckeySet.upper_bound(2) != ckeySet.end() );
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CPPUNIT_ASSERT( ckeySet.equal_range(2) != make_pair(ckeySet.begin(), ckeySet.end()) );
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}
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#endif
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}
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#if !defined (STLPORT) || \
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!defined (_STLP_USE_PTR_SPECIALIZATIONS) || defined (_STLP_CLASS_PARTIAL_SPECIALIZATION)
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# if !defined (__DMC__)
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/* Simple compilation test: Check that nested types like iterator
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* can be access even if type used to instanciate container is not
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* yet completely defined.
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*/
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class IncompleteClass
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{
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set<IncompleteClass> instances;
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typedef set<IncompleteClass>::iterator it;
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multiset<IncompleteClass> minstances;
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typedef multiset<IncompleteClass>::iterator mit;
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};
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# endif
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#endif
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