void TestRehash() {
    REMARK("testing rehashing\n");
    MyTable w;
    w.insert( std::make_pair(MyKey::make(-5), MyData()) );
    w.rehash(); // without this, assertion will fail
    MyTable::iterator it = w.begin();
    int i = 0; // check for non-rehashed buckets
    for( ; it != w.end(); i++ )
        w.count( (it++)->first );
    ASSERT( i == 1, NULL );
    for( i=0; i<1000; i=(i<29 ? i+1 : i*2) ) {
        for( int j=max(256+i, i*2); j<10000; j*=3 ) {
            MyTable v;
            FillTable( v, i );
            ASSERT(int(v.size()) == i, NULL);
            ASSERT(int(v.bucket_count()) <= j, NULL);
            v.rehash( j );
            ASSERT(int(v.bucket_count()) >= j, NULL);
            CheckTable( v, i );
        }
    }
}
void TestIteratorsAndRanges() {
    REMARK("testing iterators compliance\n");
    TestIteratorTraits<MyTable::iterator,MyTable::value_type>();
    TestIteratorTraits<MyTable::const_iterator,const MyTable::value_type>();

    MyTable v;
    MyTable const &u = v;

    TestIteratorAssignment<MyTable::const_iterator>( u.begin() );
    TestIteratorAssignment<MyTable::const_iterator>( v.begin() );
    TestIteratorAssignment<MyTable::iterator>( v.begin() );
    // doesn't compile as expected: TestIteratorAssignment<typename V::iterator>( u.begin() );

    // check for non-existing
    ASSERT(v.equal_range(MyKey::make(-1)) == std::make_pair(v.end(), v.end()), NULL);
    ASSERT(u.equal_range(MyKey::make(-1)) == std::make_pair(u.end(), u.end()), NULL);

    REMARK("testing ranges compliance\n");
    TestRangeAssignment<MyTable::const_range_type>( u.range() );
    TestRangeAssignment<MyTable::const_range_type>( v.range() );
    TestRangeAssignment<MyTable::range_type>( v.range() );
    // doesn't compile as expected: TestRangeAssignment<typename V::range_type>( u.range() );

    REMARK("testing construction and insertion from iterators range\n");
    FillTable( v, 1000 );
    MyTable2 t(v.begin(), v.end());
    v.rehash();
    CheckTable(t, 1000);
    t.insert(v.begin(), v.end()); // do nothing
    CheckTable(t, 1000);
    t.clear();
    t.insert(v.begin(), v.end()); // restore
    CheckTable(t, 1000);

    REMARK("testing comparison\n");
    typedef tbb::concurrent_hash_map<MyKey,MyData2,YourHashCompare,MyAllocator> YourTable1;
    typedef tbb::concurrent_hash_map<MyKey,MyData2,YourHashCompare> YourTable2;
    YourTable1 t1;
    FillTable( t1, 10 );
    CheckTable(t1, 10 );
    YourTable2 t2(t1.begin(), t1.end());
    MyKey key( MyKey::make(-5) ); MyData2 data;
    ASSERT(t2.erase(key), NULL);
    YourTable2::accessor a;
    ASSERT(t2.insert(a, key), NULL);
    data.set_value(0);   a->second = data;
    ASSERT( t1 != t2, NULL);
    data.set_value(5*5); a->second = data;
    ASSERT( t1 == t2, NULL);
}