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// (C) Copyright Herve Bronnimann 2004.
// Use, modification and distribution are subject to the
// Boost Software License, Version 1.0. (See accompanying file
// LICENSE_1_0.txt or copy at http://www.boost.org/LICENSE_1_0.txt)
#include <utility>
#include <functional>
#include <algorithm>
#include <numeric>
#include <iterator>
#include <vector>
#include <list>
#include <set>
#include <cstdlib>
#include <boost/config.hpp> /* prevents some nasty warns in MSVC */
#include <boost/algorithm/minmax_element.hpp>
#include <boost/iterator/reverse_iterator.hpp>
#define BOOST_TEST_MAIN
#include <boost/test/unit_test.hpp>
class custom {
int m_x;
friend bool operator<(custom const& x, custom const& y);
public:
explicit custom(int x = 0) : m_x(x) {}
custom(custom const& y) : m_x(y.m_x) {}
custom operator+(custom const& y) const { return custom(m_x+y.m_x); }
custom& operator+=(custom const& y) { m_x += y.m_x; return *this; }
};
bool operator< (custom const& x, custom const& y)
{
return x.m_x < y.m_x;
}
BOOST_BROKEN_COMPILER_TYPE_TRAITS_SPECIALIZATION(custom)
namespace std {
template <>
struct iterator_traits<int*> {
typedef random_access_iterator_tag iterator_category;
typedef int value_type;
typedef ptrdiff_t difference_type;
typedef value_type* pointer;
typedef value_type& reference;
};
template <>
struct iterator_traits<custom*> {
typedef random_access_iterator_tag iterator_category;
typedef custom value_type;
typedef ptrdiff_t difference_type;
typedef value_type* pointer;
typedef value_type& reference;
};
}
template <class T1, class T2, class T3, class T4>
void tie(std::pair<T1, T2> p, T3& first, T4& second)
{
first = T3(p.first); second = T4(p.second);
}
template <class Value>
struct less_count : std::less<Value> {
typedef std::less<Value> Base;
less_count(less_count<Value> const& lc) : m_counter(lc.m_counter) {}
less_count(int& counter) : m_counter(counter) {}
bool operator()(Value const& a, Value const& b) const {
++m_counter;
return Base::operator()(a,b);
}
void reset() {
m_counter = 0;
}
private:
int& m_counter;
};
inline int opt_min_count(int n) {
return (n==0) ? 0 : n-1;
}
inline int opt_minmax_count(int n) {
if (n < 2) return 0;
if (n == 2) return 2;
return (n%2 == 0) ? 3*(n/2)-1 : 3*(n/2)+1;
}
inline int opt_boost_minmax_count(int n) {
if (n < 2) return 0;
if (n == 2) return 1;
return (n%2 == 0) ? 3*(n/2)-2 : 3*(n/2);
}
#define CHECK_EQUAL_ITERATORS( left, right, first ) \
BOOST_CHECK_EQUAL( std::distance( first, left ), std::distance( first, right ) )
template <class CIterator>
void test_minmax(CIterator first, CIterator last, int n)
{
using namespace boost;
typedef typename std::iterator_traits<CIterator>::value_type Value;
typedef boost::reverse_iterator<CIterator> RCIterator;
// assume that CIterator is BidirectionalIter
CIterator min, max;
RCIterator rfirst(last), rlast(first), rmin, rmax;
int counter = 0;
less_count<Value> lc(counter);
// standard extensions
// first version, operator<
tie( boost::minmax_element(first, last), min, max );
CHECK_EQUAL_ITERATORS( min, std::min_element(first, last), first );
CHECK_EQUAL_ITERATORS( max, std::max_element(first, last), first );
// second version, comp function object (keeps a counter!)
lc.reset();
tie( boost::minmax_element(first, last, lc), min, max );
BOOST_CHECK( counter <= opt_minmax_count(n) );
CHECK_EQUAL_ITERATORS( min, std::min_element(first, last, lc), first );
CHECK_EQUAL_ITERATORS( max, std::max_element(first, last, lc), first );
// boost extensions
// first version, operator<
CHECK_EQUAL_ITERATORS( boost::first_min_element(first, last), std::min_element(first, last), first );
rmin = RCIterator(boost::last_min_element(first, last));
rmin = (rmin == rfirst) ? rlast : --rmin;
CHECK_EQUAL_ITERATORS( rmin, std::min_element(rfirst, rlast), rfirst );
CHECK_EQUAL_ITERATORS( boost::first_max_element(first, last), std::max_element(first, last), first );
rmax = RCIterator(boost::last_max_element(first, last));
rmax = (rmax == rfirst) ? rlast : --rmax;
CHECK_EQUAL_ITERATORS( rmax, std::max_element(rfirst, rlast), rfirst );
tie( boost::first_min_last_max_element(first, last), min, max );
CHECK_EQUAL_ITERATORS( min, boost::first_min_element(first, last), first );
CHECK_EQUAL_ITERATORS( max, boost::last_max_element(first, last), first );
tie( boost::last_min_first_max_element(first, last), min, max );
CHECK_EQUAL_ITERATORS( min, boost::last_min_element(first, last), first );
CHECK_EQUAL_ITERATORS( max, boost::first_max_element(first, last), first );
tie( boost::last_min_last_max_element(first, last), min, max );
CHECK_EQUAL_ITERATORS( min, boost::last_min_element(first, last), first );
CHECK_EQUAL_ITERATORS( max, boost::last_max_element(first, last), first );
// second version, comp function object (keeps a counter!)
lc.reset();
min = boost::first_min_element(first, last, lc);
BOOST_CHECK( counter <= opt_min_count(n) );
CHECK_EQUAL_ITERATORS( min, std::min_element(first, last, lc), first );
lc.reset();
rmin = RCIterator(boost::last_min_element(first, last, lc));
rmin = (rmin == rfirst) ? rlast : --rmin;
BOOST_CHECK( counter <= opt_min_count(n) );
CHECK_EQUAL_ITERATORS( rmin, std::min_element(rfirst, rlast, lc), rfirst );
lc.reset();
max = boost::first_max_element(first, last, lc);
BOOST_CHECK( counter <= opt_min_count(n) );
CHECK_EQUAL_ITERATORS( max, std::max_element(first, last, lc), first );
lc.reset();
rmax = RCIterator(boost::last_max_element(first, last, lc));
rmax = (rmax == rfirst) ? rlast : --rmax;
BOOST_CHECK( counter <= opt_min_count(n) );
CHECK_EQUAL_ITERATORS( rmax, std::max_element(rfirst, rlast, lc), rfirst );
lc.reset();
tie( boost::first_min_last_max_element(first, last, lc), min, max );
BOOST_CHECK( counter <= opt_boost_minmax_count(n) );
CHECK_EQUAL_ITERATORS( min, boost::first_min_element(first, last, lc), first );
CHECK_EQUAL_ITERATORS( max, boost::last_max_element(first, last, lc), first );
lc.reset();
tie( boost::last_min_first_max_element(first, last, lc), min, max );
BOOST_CHECK( counter <= opt_boost_minmax_count(n) );
BOOST_CHECK( min == boost::last_min_element(first, last, lc) );
CHECK_EQUAL_ITERATORS( max, boost::first_max_element(first, last, lc), first );
lc.reset();
tie( boost::last_min_last_max_element(first, last, lc), min, max );
BOOST_CHECK( counter <= opt_minmax_count(n) );
CHECK_EQUAL_ITERATORS( min, boost::last_min_element(first, last, lc), first );
CHECK_EQUAL_ITERATORS( max, boost::last_max_element(first, last, lc), first );
}
template <class Container, class Iterator, class Value>
void test_container(Iterator first, Iterator last, int n,
Container* dummy = 0
BOOST_APPEND_EXPLICIT_TEMPLATE_TYPE(Value) )
{
Container c(first, last);
test_minmax(c.begin(), c.end(), n);
}
template <class Iterator>
void test_range(Iterator first, Iterator last, int n)
{
typedef typename std::iterator_traits<Iterator>::value_type Value;
// Test various containers with these values
test_container< std::vector<Value>, Iterator, Value >(first, last, n);
test_container< std::list<Value>, Iterator, Value >(first, last, n);
test_container< std::set<Value>, Iterator, Value >(first, last, n);
}
template <class Value>
void test(int n BOOST_APPEND_EXPLICIT_TEMPLATE_TYPE(Value))
{
// Populate test vector with identical values
std::vector<Value> test_vector(n, Value(1));
typename std::vector<Value>::iterator first( test_vector.begin() );
typename std::vector<Value>::iterator last( test_vector.end() );
test_range(first, last, n);
// Populate test vector with two values
typename std::vector<Value>::iterator middle( first + n/2 );
std::fill(middle, last, Value(2));
test_range(first, last, n);
// Populate test vector with increasing values
std::accumulate(first, last, Value(0));
test_range(first, last, n);
// Populate test vector with decreasing values
std::reverse(first, last);
test_range(first, last, n);
// Populate test vector with random values
std::random_shuffle(first, last);
test_range(first, last, n);
}
BOOST_AUTO_TEST_CASE( test_main )
{
#ifndef BOOST_NO_STDC_NAMESPACE
using std::atoi;
#endif
int n = 100;
test<int>(n);
test<custom>(n);
}
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