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// Copyright (c) 2006-2018 Maxim Khizhinsky
//
// Distributed under the Boost Software License, Version 1.0. (See accompanying
// file LICENSE or copy at http://www.boost.org/LICENSE_1_0.txt)
#ifndef CDSUNIT_STRIPED_MAP_TEST_MAP_DATA_H
#define CDSUNIT_STRIPED_MAP_TEST_MAP_DATA_H
#include <cds_test/check_size.h>
#include <cds_test/fixture.h>
#include <cds/opt/hash.h>
namespace cds_test {
class striped_map_fixture: public fixture
{
public:
struct key_type {
int nKey;
explicit key_type( int n )
: nKey( n )
{}
explicit key_type( std::string const& str )
: nKey( std::stoi( str ))
{}
key_type( key_type const& s )
: nKey( s.nKey )
{}
};
struct value_type {
int nVal;
std::string strVal;
value_type()
: nVal( 0 )
{}
explicit value_type( int n )
: nVal( n )
, strVal( std::to_string( n ))
{}
explicit value_type( std::string const& str )
: nVal( std::stoi( str ))
, strVal( str )
{}
explicit value_type( std::string&& str )
: nVal( std::stoi( str ))
, strVal( std::move( str ))
{}
value_type( int n, std::string const& str )
: nVal( n )
, strVal( str )
{}
value_type( int n, std::string&& str )
: nVal( n )
, strVal( std::move( str ))
{}
value_type( value_type&& v )
: nVal( v.nVal )
, strVal( std::move( v.strVal ))
{}
value_type( value_type const& v )
: nVal( v.nVal )
, strVal( v.strVal )
{}
value_type& operator=( value_type const& v )
{
if ( this != &v ) {
nVal = v.nVal;
strVal = v.strVal;
}
return *this;
}
value_type& operator=( value_type&& v )
{
if ( this != &v ) {
nVal = v.nVal;
strVal = std::move( v.strVal );
}
return *this;
}
value_type& operator=( int i )
{
nVal = i;
strVal = std::to_string( i );
return *this;
}
value_type& operator=( std::string const& s )
{
nVal = std::stoi( s );
strVal = s;
return *this;
}
};
typedef std::pair<key_type const, value_type> pair_type;
struct less
{
bool operator ()( key_type const& v1, key_type const& v2 ) const
{
return v1.nKey < v2.nKey;
}
bool operator ()( key_type const& v1, int v2 ) const
{
return v1.nKey < v2;
}
bool operator ()( int v1, key_type const& v2 ) const
{
return v1 < v2.nKey;
}
bool operator ()( key_type const& v1, std::string const& v2 ) const
{
return v1.nKey < std::stoi(v2 );
}
bool operator ()( std::string const& v1, key_type const& v2 ) const
{
return std::stoi( v1 ) < v2.nKey;
}
};
struct cmp {
int operator ()( key_type const& v1, key_type const& v2 ) const
{
if ( v1.nKey < v2.nKey )
return -1;
return v1.nKey > v2.nKey ? 1 : 0;
}
int operator ()( key_type const& v1, int v2 ) const
{
if ( v1.nKey < v2 )
return -1;
return v1.nKey > v2 ? 1 : 0;
}
int operator ()( int v1, key_type const& v2 ) const
{
if ( v1 < v2.nKey )
return -1;
return v1 > v2.nKey ? 1 : 0;
}
int operator ()( key_type const& v1, std::string const& v2 ) const
{
int n2 = std::stoi( v2 );
if ( v1.nKey < n2 )
return -1;
return v1.nKey > n2 ? 1 : 0;
}
int operator ()( std::string const& v1, key_type const& v2 ) const
{
int n1 = std::stoi( v1 );
if ( n1 < v2.nKey )
return -1;
return n1 > v2.nKey ? 1 : 0;
}
};
struct equal_to
{
bool operator ()( key_type const& v1, key_type const& v2 ) const
{
return v1.nKey == v2.nKey;
}
bool operator ()( key_type const& v1, int v2 ) const
{
return v1.nKey == v2;
}
bool operator ()( int v1, key_type const& v2 ) const
{
return v1 == v2.nKey;
}
bool operator ()( key_type const& v1, std::string const& v2 ) const
{
return v1.nKey == std::stoi( v2 );
}
bool operator ()( std::string const& v1, key_type const& v2 ) const
{
return std::stoi( v1 ) == v2.nKey;
}
};
struct hash1 {
size_t operator()( int i ) const
{
return cds::opt::v::hash<int>()( i );
}
size_t operator()( std::string const& str ) const
{
return cds::opt::v::hash<int>()( std::stoi( str ));
}
template <typename T>
size_t operator()( T const& i ) const
{
return cds::opt::v::hash<int>()(i.nKey);
}
};
struct hash2: private hash1
{
typedef hash1 base_class;
size_t operator()( int i ) const
{
size_t h = ~(base_class::operator()( i ));
return ~h + 0x9e3779b9 + (h << 6) + (h >> 2);
}
template <typename Item>
size_t operator()( const Item& i ) const
{
size_t h = ~(base_class::operator()( i ));
return ~h + 0x9e3779b9 + (h << 6) + (h >> 2);
}
};
struct other_item {
int nKey;
other_item( int key )
: nKey( key )
{}
};
struct other_less
{
bool operator ()( key_type const& v1, other_item const& v2 ) const
{
return v1.nKey < v2.nKey;
}
bool operator ()( other_item const& v1, key_type const& v2 ) const
{
return v1.nKey < v2.nKey;
}
};
struct other_equal_to
{
bool operator ()( key_type const& v1, other_item const& v2 ) const
{
return v1.nKey == v2.nKey;
}
bool operator ()( other_item const& v1, key_type const& v2 ) const
{
return v1.nKey == v2.nKey;
}
};
};
} // namespace cds_test
#endif // CDSUNIT_STRIPED_MAP_TEST_MAP_DATA_H
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