/*
This file is a part of libcds - Concurrent Data Structures library
- (C) Copyright Maxim Khizhinsky (libcds.dev@gmail.com) 2006-2016
+ (C) Copyright Maxim Khizhinsky (libcds.dev@gmail.com) 2006-2017
Source code repo: http://github.com/khizmax/libcds/
Download: http://sourceforge.net/projects/libcds/files/
public:
struct stat
{
- unsigned int nDisposeCount ; // count of disposer calling
- unsigned int nFindCount ; // count of find-functor calling
- unsigned int nInsertCount ;
+ unsigned int nDisposeCount; // count of disposer calling
+ unsigned int nFindCount; // count of find-functor calling
+ unsigned int nInsertCount;
mutable unsigned int nEraseCount;
stat()
void clear_stat()
{
- memset( this, 0, sizeof( *this ) );
+ memset( this, 0, sizeof( *this ));
}
};
, nVal( key )
{}
- int_item(int key, int val)
+ int_item( int key, int val )
: nKey( key )
- , nVal(val)
+ , nVal( val )
{}
int_item( int_item const& v )
}
};
+ struct key_val {
+ int nKey;
+ int nVal;
+
+ key_val()
+ {}
+
+ key_val( int key )
+ : nKey( key )
+ , nVal( key )
+ {}
+
+ key_val( int key, int val )
+ : nKey( key )
+ , nVal( val )
+ {}
+
+ key_val( key_val const& v )
+ : nKey( v.nKey )
+ , nVal( v.nVal )
+ {}
+
+ int key() const
+ {
+ return nKey;
+ }
+ };
+
+ struct int_item2: public key_val, public stat
+ {
+ int_item2()
+ {}
+
+ explicit int_item2( int key )
+ : key_val( key )
+ {}
+
+ int_item2( int key, int val )
+ : key_val( key, val )
+ {}
+
+ int_item2( int_item2 const& v )
+ : key_val( v )
+ , stat()
+ {}
+ };
+
struct hash_accessor {
int operator()( int_item const& v ) const
{
}
};
+ struct hash_accessor2 {
+ key_val const& operator()( int_item2 const& v ) const
+ {
+ return v;
+ }
+ };
+
struct simple_item_counter {
size_t m_nCount;
}
};
+ struct cmp2 {
+ int operator ()( key_val const& lhs, key_val const& rhs ) const
+ {
+ if ( lhs.key() < rhs.key())
+ return -1;
+ return lhs.key() > rhs.key() ? 1 : 0;
+ }
+ };
+
struct mock_disposer
{
template <typename T>
// Precondition: set is empty
// Postcondition: set is empty
- ASSERT_TRUE( s.empty() );
+ ASSERT_TRUE( s.empty());
ASSERT_CONTAINER_SIZE( s, 0 );
- size_t const nSetSize = std::max( s.head_size() * 2, static_cast<size_t>(100) );
+ size_t const nSetSize = std::max( s.head_size() * 2, static_cast<size_t>(100));
typedef typename Set::value_type value_type;
data.push_back( value_type( static_cast<int>( key )));
indices.push_back( key );
}
- shuffle( indices.begin(), indices.end() );
+ shuffle( indices.begin(), indices.end());
// insert/find
for ( auto idx : indices ) {
EXPECT_EQ( i.nInsertCount, 0u );
ASSERT_TRUE( s.insert( i, []( value_type& v ) { ++v.nInsertCount;} ));
EXPECT_EQ( i.nInsertCount, 1u );
- ASSERT_FALSE( s.insert( i, []( value_type& v ) { ++v.nInsertCount;} ) );
+ ASSERT_FALSE( s.insert( i, []( value_type& v ) { ++v.nInsertCount;} ));
EXPECT_EQ( i.nInsertCount, 1u );
i.nInsertCount = 0;
break;
break;
}
- ASSERT_TRUE( s.contains( i.nKey ) );
+ ASSERT_TRUE( s.contains( i.nKey ));
EXPECT_EQ( i.nFindCount, 0u );
ASSERT_TRUE( s.find( i.nKey, []( value_type& v ) { ++v.nFindCount; } ));
EXPECT_EQ( i.nFindCount, 1u );
}
- ASSERT_FALSE( s.empty() );
+ ASSERT_FALSE( s.empty());
ASSERT_CONTAINER_SIZE( s, nSetSize );
std::for_each( data.begin(), data.end(), []( value_type& v ) { v.clear_stat(); });
}
// erase
- shuffle( indices.begin(), indices.end() );
+ shuffle( indices.begin(), indices.end());
for ( auto idx : indices ) {
auto& i = data[ idx ];
- ASSERT_TRUE( s.contains( i.nKey ) );
+ ASSERT_TRUE( s.contains( i.nKey ));
EXPECT_EQ( i.nFindCount, 0u );
- ASSERT_TRUE( s.find( i.nKey, []( value_type& v ) { ++v.nFindCount; } ) );
+ ASSERT_TRUE( s.find( i.nKey, []( value_type& v ) { ++v.nFindCount; } ));
EXPECT_EQ( i.nFindCount, 1u );
value_type v( i );
case 0:
ASSERT_FALSE( s.unlink( v ));
ASSERT_TRUE( s.unlink( i ));
- ASSERT_FALSE( s.unlink( i ) );
+ ASSERT_FALSE( s.unlink( i ));
break;
case 1:
ASSERT_TRUE( s.erase( i.key()));
- ASSERT_FALSE( s.erase( i.key() ) );
+ ASSERT_FALSE( s.erase( i.key()));
break;
case 2:
EXPECT_EQ( i.nEraseCount, 0u );
ASSERT_FALSE( s.contains( i.nKey ));
ASSERT_FALSE( s.find( i.nKey, []( value_type const& ) {} ));
}
- ASSERT_TRUE( s.empty() );
+ ASSERT_TRUE( s.empty());
ASSERT_CONTAINER_SIZE( s, 0 );
// Force retiring cycle
i.clear_stat();
ASSERT_TRUE( s.insert( i ));
}
- ASSERT_FALSE( s.empty() );
+ ASSERT_FALSE( s.empty());
ASSERT_CONTAINER_SIZE( s, nSetSize );
// Forward iterator test
ASSERT_TRUE( s.empty());
ASSERT_CONTAINER_SIZE( s, 0u );
- ASSERT_TRUE( s.begin() == s.end() );
- ASSERT_TRUE( s.cbegin() == s.cend() );
+ ASSERT_TRUE( s.begin() == s.end());
+ ASSERT_TRUE( s.cbegin() == s.cend());
// Force retiring cycle
Set::gc::force_dispose();