/***********************************************************************************
test_slist.cpp
* Copyright (c) 1997
* Mark of the Unicorn, Inc.
*
* Permission to use, copy, modify, distribute and sell this software
* and its documentation for any purpose is hereby granted without fee,
* provided that the above copyright notice appear in all copies and
* that both that copyright notice and this permission notice appear
* in supporting documentation. Mark of the Unicorn makes no
* representations about the suitability of this software for any
* purpose. It is provided "as is" without express or implied warranty.
***********************************************************************************/
#include "Tests.h"
#if defined( EH_SLIST_IMPLEMENTED )
# include "TestClass.h"
# include "LeakCheck.h"
# if defined (EH_NEW_HEADERS) && defined (EH_USE_SGI_STL)
# include <slist>
# else
# include <slist.h>
# endif
#include "test_construct.h"
#include "test_assign_op.h"
#include "test_push_back.h"
#include "test_insert.h"
#include "test_push_front.h"
#if defined (__GNUC__) && defined (__APPLE__)
typedef EH_STD::slist<TestClass, eh_allocator(TestClass) > TestSList;
#else
typedef EH_STD::__slist__<TestClass, eh_allocator(TestClass) > TestSList;
#endif
inline sequence_container_tag
container_category(const TestSList&) {
return sequence_container_tag();
}
struct test_slist_sort {
test_slist_sort() {
gTestController.SetCurrentTestName("slist::sort()");
}
void operator()( TestSList& slist ) const {
slist.sort();
for ( TestSList::iterator p = slist.begin(), q; p != slist.end(); q = p, p++ )
if ( p != slist.begin() ) {
EH_ASSERT( *p >= *q );
}
}
};
void test_slist() {
TestSList testSList, testSList2;
size_t slistSize = random_number(random_base);
while (testSList.size() < slistSize) {
TestClass x;
testSList.push_front( x );
testSList2.push_front( TestClass() );
}
StrongCheck( testSList, test_insert_one<TestSList>(testSList) );
StrongCheck( testSList, test_insert_one<TestSList>(testSList, 0) );
StrongCheck( testSList, test_insert_one<TestSList>(testSList, (int)testSList.size()) );
WeakCheck( testSList, test_insert_n<TestSList>(testSList, random_number(random_base) ) );
WeakCheck( testSList, test_insert_n<TestSList>(testSList, random_number(random_base), 0 ) );
WeakCheck( testSList, test_insert_n<TestSList>(testSList, random_number(random_base), (int)testSList.size() ) );
size_t insCnt = random_number(random_base);
TestClass *insFirst = new TestSList::value_type[1+insCnt];
WeakCheck( testSList, insert_range_tester(testSList, insFirst, insFirst+insCnt) );
ConstCheck( 0, test_construct_pointer_range<TestSList>(insFirst, insFirst+insCnt) );
delete[] insFirst;
WeakCheck( testSList, test_insert_range<TestSList,TestSList::iterator>(testSList, testSList2.begin(), testSList2.end() ) );
StrongCheck( testSList, test_push_front<TestSList>(testSList) );
StrongCheck( testSList, test_slist_sort() ); // Simply to verify strength.
ConstCheck( 0, test_default_construct<TestSList>() );
ConstCheck( 0, test_construct_n<TestSList>( random_number(random_base) ) );
ConstCheck( 0, test_construct_n_instance<TestSList>( random_number(random_base) ) );
ConstCheck( 0, test_construct_iter_range<TestSList>( testSList2 ) );
ConstCheck( testSList, test_copy_construct<TestSList>() );
WeakCheck( testSList, test_assign_op<TestSList>( testSList2 ) );
}
#endif // EH_SLIST_IMPLEMENTED