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avoid msvc-9.0 adl bug by qualifying calls

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[SVN r80804]
This commit is contained in:
Eric Niebler
2012-10-01 07:23:12 +00:00
parent 8c03db9e38
commit 8de23029bc
1 changed files with 31 additions and 46 deletions
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77
test/algorithm/querying.cpp
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@@ -52,24 +52,23 @@ namespace
void find_test()
{
using boost::phoenix::find;
using boost::phoenix::arg_names::arg1;
int array[] = {1,2,3};
BOOST_TEST(find(arg1,2)(array) == array + 1);
BOOST_TEST(boost::phoenix::find(arg1,2)(array) == array + 1);
std::set<int> s(array, array + 3);
BOOST_TEST(find(arg1, 2)(s) == s.find(2));
BOOST_TEST(boost::phoenix::find(arg1, 2)(s) == s.find(2));
std::map<int, int> m = boost::assign::map_list_of(0, 1)(2, 3)(4, 5);
BOOST_TEST(find(arg1, 2)(m) == m.find(2));
BOOST_TEST(boost::phoenix::find(arg1, 2)(m) == m.find(2));
#ifdef BOOST_PHOENIX_HAS_HASH
BOOST_PHOENIX_HASH_NAMESPACE::hash_set<int> hs(array, array + 3);
BOOST_TEST(find(arg1, 2)(hs) == hs.find(2));
BOOST_TEST(boost::phoenix::find(arg1, 2)(hs) == hs.find(2));
BOOST_PHOENIX_HASH_NAMESPACE::hash_map<int, int> hm = boost::assign::map_list_of(0, 1)(2, 3)(4, 5);
BOOST_TEST(find(arg1, 2)(hm) == hm.find(2));
BOOST_TEST(boost::phoenix::find(arg1, 2)(hm) == hm.find(2));
#endif
@@ -79,91 +78,83 @@ namespace
void find_if_test()
{
using boost::phoenix::find_if;
using boost::phoenix::arg_names::arg1;
int array[] = {1,2,3};
BOOST_TEST(find_if(arg1, even())(array) == array + 1);
BOOST_TEST(boost::phoenix::find_if(arg1, even())(array) == array + 1);
return;
}
void find_end_test()
{
using boost::phoenix::find_end;
using boost::phoenix::arg_names::arg1;
using boost::phoenix::arg_names::arg2;
int array[] = {1,2,3,1,2,3,1};
int pattern[] = {1,2,3};
BOOST_TEST(find_end(arg1, arg2)(array, pattern) == array + 3);
BOOST_TEST(boost::phoenix::find_end(arg1, arg2)(array, pattern) == array + 3);
int pattern2[] = {5,6,5};
BOOST_TEST(find_end(arg1, arg2, mod_2_comparison())(array, pattern2) == array + 3);
BOOST_TEST(boost::phoenix::find_end(arg1, arg2, mod_2_comparison())(array, pattern2) == array + 3);
return;
}
void find_first_of_test()
{
using boost::phoenix::find_first_of;
using boost::phoenix::arg_names::arg1;
using boost::phoenix::arg_names::arg2;
int array[] = {1,2,3};
int search_for[] = {2,3,4};
BOOST_TEST(find_first_of(arg1, arg2)(array, search_for) == array + 1);
BOOST_TEST(boost::phoenix::find_first_of(arg1, arg2)(array, search_for) == array + 1);
int search_for2[] = {0};
BOOST_TEST(find_first_of(arg1, arg2, mod_2_comparison())(array, search_for2) == array + 1);
BOOST_TEST(boost::phoenix::find_first_of(arg1, arg2, mod_2_comparison())(array, search_for2) == array + 1);
return;
}
void adjacent_find_test()
{
using boost::phoenix::adjacent_find;
using boost::phoenix::arg_names::arg1;
int array[] = {0,1,3,4,4};
BOOST_TEST(adjacent_find(arg1)(array) == array + 3);
BOOST_TEST(adjacent_find(arg1, mod_2_comparison())(array) == array + 1);
BOOST_TEST(boost::phoenix::adjacent_find(arg1)(array) == array + 3);
BOOST_TEST(boost::phoenix::adjacent_find(arg1, mod_2_comparison())(array) == array + 1);
return;
}
void count_test()
{
using boost::phoenix::count;
using boost::phoenix::arg_names::arg1;
int array[] = {1,1,0,1,1};
BOOST_TEST(count(arg1, 1)(array) == 4);
BOOST_TEST(boost::phoenix::count(arg1, 1)(array) == 4);
return;
}
void count_if_test()
{
using boost::phoenix::count_if;
using boost::phoenix::arg_names::arg1;
int array[] = {1,2,3,4,5};
BOOST_TEST(count_if(arg1, even())(array) == 2);
BOOST_TEST(boost::phoenix::count_if(arg1, even())(array) == 2);
return;
}
void distance_test()
{
using boost::phoenix::distance;
using boost::phoenix::arg_names::arg1;
int array[] = {1,1,0,1,1};
BOOST_TEST(distance(arg1)(array) == 5);
BOOST_TEST(boost::phoenix::distance(arg1)(array) == 5);
return;
}
void mismatch_test()
{
using boost::phoenix::mismatch;
using boost::phoenix::arg_names::arg1;
using boost::phoenix::arg_names::arg2;
int array[] = {1,2,3,4,5};
int search[] = {1,2,4};
BOOST_TEST(
mismatch(arg1, arg2)(array, search) ==
boost::phoenix::mismatch(arg1, arg2)(array, search) ==
std::make_pair(array + 2, search + 2));
int search2[] = {1,2,1,1};
BOOST_TEST(
mismatch(arg1, arg2, mod_2_comparison())(array, search2)
boost::phoenix::mismatch(arg1, arg2, mod_2_comparison())(array, search2)
== std::make_pair(array + 3, search2 + 3));
return;
@@ -171,47 +162,44 @@ namespace
void equal_test()
{
using boost::phoenix::equal;
using boost::phoenix::arg_names::arg1;
using boost::phoenix::arg_names::arg2;
int array[] = {1,2,3};
int array2[] = {1,2,3};
int array3[] = {1,2,4};
BOOST_TEST(
equal(arg1, arg2)(array, array2));
boost::phoenix::equal(arg1, arg2)(array, array2));
BOOST_TEST(
!equal(arg1, arg2)(array, array3));
!boost::phoenix::equal(arg1, arg2)(array, array3));
BOOST_TEST(
equal(arg1, arg2, mod_2_comparison())(array, array2));
boost::phoenix::equal(arg1, arg2, mod_2_comparison())(array, array2));
BOOST_TEST(
!equal(arg1, arg2, mod_2_comparison())(array, array3));
!boost::phoenix::equal(arg1, arg2, mod_2_comparison())(array, array3));
return;
}
void search_test()
{
using boost::phoenix::search;
using boost::phoenix::arg_names::arg1;
using boost::phoenix::arg_names::arg2;
int array[] = {1,2,3,1,2,3};
int pattern[] = {2,3};
BOOST_TEST(
search(arg1, arg2)(array, pattern) == array + 1);
boost::phoenix::search(arg1, arg2)(array, pattern) == array + 1);
int pattern2[] = {1,1};
BOOST_TEST(
search(arg1, arg2, mod_2_comparison())(array, pattern2) == array + 2);
boost::phoenix::search(arg1, arg2, mod_2_comparison())(array, pattern2) == array + 2);
return;
}
void lower_bound_test()
{
using boost::phoenix::lower_bound;
using boost::phoenix::arg_names::arg1;
int array[] = {1,2,3};
const std::set<int> test_set(array, array + 3);
BOOST_TEST(lower_bound(arg1, 2)(array) == array + 1);
BOOST_TEST(lower_bound(arg1, 2)(test_set) == test_set.lower_bound(2));
BOOST_TEST(boost::phoenix::lower_bound(arg1, 2)(array) == array + 1);
BOOST_TEST(boost::phoenix::lower_bound(arg1, 2)(test_set) == test_set.lower_bound(2));
int array2[] = {3,2,1};
const std::set<int, std::greater<int> > test_set2(array2, array2 + 3);
@@ -224,7 +212,6 @@ namespace
void upper_bound_test()
{
using boost::phoenix::upper_bound;
using boost::phoenix::arg_names::arg1;
int array[] = {1,2,3};
const std::set<int> test_set(array, array + 3);
@@ -242,18 +229,17 @@ namespace
void equal_range_test()
{
using boost::phoenix::equal_range;
using boost::phoenix::arg_names::arg1;
int array[] = {1,2,2,3};
const std::set<int> test_set(array, array + 4);
BOOST_TEST(equal_range(arg1, 2)(array).first ==
BOOST_TEST(boost::phoenix::equal_range(arg1, 2)(array).first ==
array + 1);
BOOST_TEST(equal_range(arg1, 2)(array).second ==
BOOST_TEST(boost::phoenix::equal_range(arg1, 2)(array).second ==
array + 3);
BOOST_TEST(equal_range(arg1, 2)(test_set).first ==
BOOST_TEST(boost::phoenix::equal_range(arg1, 2)(test_set).first ==
test_set.equal_range(2).first);
BOOST_TEST(equal_range(arg1, 2)(test_set).second ==
BOOST_TEST(boost::phoenix::equal_range(arg1, 2)(test_set).second ==
test_set.equal_range(2).second);
int array2[] = {3,2,2,1};
@@ -273,11 +259,10 @@ namespace
void binary_search_test()
{
using boost::phoenix::binary_search;
using boost::phoenix::arg_names::arg1;
int array[] = {1,2,3};
BOOST_TEST(binary_search(arg1, 2)(array));
BOOST_TEST(!binary_search(arg1, 4)(array));
BOOST_TEST(boost::phoenix::binary_search(arg1, 2)(array));
BOOST_TEST(!boost::phoenix::binary_search(arg1, 4)(array));
return;
}