libs/smart_ptr/test/smart_ptr_test.cpp
// smart pointer test program ----------------------------------------------// // Copyright Beman Dawes 1998, 1999. Distributed under 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) // See http://www.boost.org/libs/smart_ptr for documentation. // Revision History // 24 May 01 use Boost test library for error detection, reporting, add tests // for operations on incomplete types (Beman Dawes) // 29 Nov 99 added std::swap and associative container tests (Darin Adler) // 25 Sep 99 added swap tests // 20 Jul 99 header name changed to .hpp // 20 Apr 99 additional error tests added. #include <boost/config.hpp> #if defined(BOOST_MSVC) # pragma warning(disable: 4786) // identifier truncated in debug info # pragma warning(disable: 4710) // function not inlined # pragma warning(disable: 4711) // function selected for automatic inline expansion # pragma warning(disable: 4514) // unreferenced inline removed #if (BOOST_MSVC >= 1310) # pragma warning(disable: 4675) // resolved overload found with Koenig lookup #endif #endif #ifdef __BORLANDC__ # pragma warn -8092 // template argument passed to 'find' is not an iterator #endif #include <boost/smart_ptr.hpp> #include <boost/detail/lightweight_test.hpp> #include <iostream> #include <set> #include <string.h> class Incomplete; Incomplete * get_ptr( boost::shared_ptr<Incomplete>& incomplete ) { return incomplete.get(); } template<class T> void ck( const T* v1, T v2 ) { BOOST_TEST( *v1 == v2 ); } namespace { int UDT_use_count; // independent of pointer maintained counts } // user defined type -------------------------------------------------------// class UDT { long value_; public: explicit UDT( long value=0 ) : value_(value) { ++UDT_use_count; } ~UDT() { --UDT_use_count; std::cout << "UDT with value " << value_ << " being destroyed\n"; } long value() const { return value_; } void value( long v ) { value_ = v;; } }; // UDT // tests on incomplete types -----------------------------------------------// // Certain smart pointer operations are specified to work on incomplete types, // and some uses depend upon this feature. These tests verify compilation // only - the functions aren't actually invoked. class Incomplete; Incomplete * check_incomplete( boost::scoped_ptr<Incomplete>& incomplete ) { return incomplete.get(); } Incomplete * check_incomplete( boost::shared_ptr<Incomplete>& incomplete, boost::shared_ptr<Incomplete>& i2 ) { incomplete.swap(i2); std::cout << incomplete.use_count() << ' ' << incomplete.unique() << '\n'; return incomplete.get(); } // This isn't a very systematic test; it just hits some of the basics. void test() { BOOST_TEST( UDT_use_count == 0 ); // reality check // test scoped_ptr with a built-in type long * lp = new long; boost::scoped_ptr<long> sp ( lp ); BOOST_TEST( sp.get() == lp ); BOOST_TEST( lp == sp.get() ); BOOST_TEST( &*sp == lp ); *sp = 1234568901L; BOOST_TEST( *sp == 1234568901L ); BOOST_TEST( *lp == 1234568901L ); ck( static_cast<long*>(sp.get()), 1234568901L ); ck( lp, *sp ); sp.reset(); BOOST_TEST( sp.get() == 0 ); // test scoped_ptr with a user defined type boost::scoped_ptr<UDT> udt_sp ( new UDT( 999888777 ) ); BOOST_TEST( udt_sp->value() == 999888777 ); udt_sp.reset(); udt_sp.reset( new UDT( 111222333 ) ); BOOST_TEST( udt_sp->value() == 111222333 ); udt_sp.reset( new UDT( 333222111 ) ); BOOST_TEST( udt_sp->value() == 333222111 ); // test scoped_array with a build-in type char * sap = new char [ 100 ]; boost::scoped_array<char> sa ( sap ); BOOST_TEST( sa.get() == sap ); BOOST_TEST( sap == sa.get() ); strcpy( sa.get(), "Hot Dog with mustard and relish" ); BOOST_TEST( strcmp( sa.get(), "Hot Dog with mustard and relish" ) == 0 ); BOOST_TEST( strcmp( sap, "Hot Dog with mustard and relish" ) == 0 ); BOOST_TEST( sa[0] == 'H' ); BOOST_TEST( sa[30] == 'h' ); sa[0] = 'N'; sa[4] = 'd'; BOOST_TEST( strcmp( sap, "Not dog with mustard and relish" ) == 0 ); sa.reset(); BOOST_TEST( sa.get() == 0 ); // test shared_ptr with a built-in type int * ip = new int; boost::shared_ptr<int> cp ( ip ); BOOST_TEST( ip == cp.get() ); BOOST_TEST( cp.use_count() == 1 ); *cp = 54321; BOOST_TEST( *cp == 54321 ); BOOST_TEST( *ip == 54321 ); ck( static_cast<int*>(cp.get()), 54321 ); ck( static_cast<int*>(ip), *cp ); boost::shared_ptr<int> cp2 ( cp ); BOOST_TEST( ip == cp2.get() ); BOOST_TEST( cp.use_count() == 2 ); BOOST_TEST( cp2.use_count() == 2 ); BOOST_TEST( *cp == 54321 ); BOOST_TEST( *cp2 == 54321 ); ck( static_cast<int*>(cp2.get()), 54321 ); ck( static_cast<int*>(ip), *cp2 ); boost::shared_ptr<int> cp3 ( cp ); BOOST_TEST( cp.use_count() == 3 ); BOOST_TEST( cp2.use_count() == 3 ); BOOST_TEST( cp3.use_count() == 3 ); cp.reset(); BOOST_TEST( cp2.use_count() == 2 ); BOOST_TEST( cp3.use_count() == 2 ); cp.reset( new int ); *cp = 98765; BOOST_TEST( *cp == 98765 ); *cp3 = 87654; BOOST_TEST( *cp3 == 87654 ); BOOST_TEST( *cp2 == 87654 ); cp.swap( cp3 ); BOOST_TEST( *cp == 87654 ); BOOST_TEST( *cp2 == 87654 ); BOOST_TEST( *cp3 == 98765 ); cp.swap( cp3 ); BOOST_TEST( *cp == 98765 ); BOOST_TEST( *cp2 == 87654 ); BOOST_TEST( *cp3 == 87654 ); cp2 = cp2; BOOST_TEST( cp2.use_count() == 2 ); BOOST_TEST( *cp2 == 87654 ); cp = cp2; BOOST_TEST( cp2.use_count() == 3 ); BOOST_TEST( *cp2 == 87654 ); BOOST_TEST( cp.use_count() == 3 ); BOOST_TEST( *cp == 87654 ); #if defined( BOOST_NO_ARGUMENT_DEPENDENT_LOOKUP ) using boost::swap; #endif boost::shared_ptr<int> cp4; swap( cp2, cp4 ); BOOST_TEST( cp4.use_count() == 3 ); BOOST_TEST( *cp4 == 87654 ); BOOST_TEST( cp2.get() == 0 ); std::set< boost::shared_ptr<int> > scp; scp.insert(cp4); BOOST_TEST( scp.find(cp4) != scp.end() ); BOOST_TEST( scp.find(cp4) == scp.find( boost::shared_ptr<int>(cp4) ) ); // test shared_array with a built-in type char * cap = new char [ 100 ]; boost::shared_array<char> ca ( cap ); BOOST_TEST( ca.get() == cap ); BOOST_TEST( cap == ca.get() ); BOOST_TEST( &ca[0] == cap ); strcpy( ca.get(), "Hot Dog with mustard and relish" ); BOOST_TEST( strcmp( ca.get(), "Hot Dog with mustard and relish" ) == 0 ); BOOST_TEST( strcmp( cap, "Hot Dog with mustard and relish" ) == 0 ); BOOST_TEST( ca[0] == 'H' ); BOOST_TEST( ca[30] == 'h' ); boost::shared_array<char> ca2 ( ca ); boost::shared_array<char> ca3 ( ca2 ); ca[0] = 'N'; ca[4] = 'd'; BOOST_TEST( strcmp( ca.get(), "Not dog with mustard and relish" ) == 0 ); BOOST_TEST( strcmp( ca2.get(), "Not dog with mustard and relish" ) == 0 ); BOOST_TEST( strcmp( ca3.get(), "Not dog with mustard and relish" ) == 0 ); BOOST_TEST( ca.use_count() == 3 ); BOOST_TEST( ca2.use_count() == 3 ); BOOST_TEST( ca3.use_count() == 3 ); ca2.reset(); BOOST_TEST( ca.use_count() == 2 ); BOOST_TEST( ca3.use_count() == 2 ); BOOST_TEST( ca2.use_count() == 1 ); ca.reset(); BOOST_TEST( ca.get() == 0 ); boost::shared_array<char> ca4; swap( ca3, ca4 ); BOOST_TEST( ca4.use_count() == 1 ); BOOST_TEST( strcmp( ca4.get(), "Not dog with mustard and relish" ) == 0 ); BOOST_TEST( ca3.get() == 0 ); std::set< boost::shared_array<char> > sca; sca.insert(ca4); BOOST_TEST( sca.find(ca4) != sca.end() ); BOOST_TEST( sca.find(ca4) == sca.find( boost::shared_array<char>(ca4) ) ); // test shared_array with user defined type boost::shared_array<UDT> udta ( new UDT[3] ); udta[0].value( 111 ); udta[1].value( 222 ); udta[2].value( 333 ); boost::shared_array<UDT> udta2 ( udta ); BOOST_TEST( udta[0].value() == 111 ); BOOST_TEST( udta[1].value() == 222 ); BOOST_TEST( udta[2].value() == 333 ); BOOST_TEST( udta2[0].value() == 111 ); BOOST_TEST( udta2[1].value() == 222 ); BOOST_TEST( udta2[2].value() == 333 ); udta2.reset(); BOOST_TEST( udta2.get() == 0 ); BOOST_TEST( udta.use_count() == 1 ); BOOST_TEST( udta2.use_count() == 1 ); BOOST_TEST( UDT_use_count == 4 ); // reality check // test shared_ptr with a user defined type UDT * up = new UDT; boost::shared_ptr<UDT> sup ( up ); BOOST_TEST( up == sup.get() ); BOOST_TEST( sup.use_count() == 1 ); sup->value( 54321 ) ; BOOST_TEST( sup->value() == 54321 ); BOOST_TEST( up->value() == 54321 ); boost::shared_ptr<UDT> sup2; sup2 = sup; BOOST_TEST( sup2->value() == 54321 ); BOOST_TEST( sup.use_count() == 2 ); BOOST_TEST( sup2.use_count() == 2 ); sup2 = sup2; BOOST_TEST( sup2->value() == 54321 ); BOOST_TEST( sup.use_count() == 2 ); BOOST_TEST( sup2.use_count() == 2 ); std::cout << "OK\n"; new char[12345]; // deliberate memory leak to verify leaks detected } int main() { test(); return boost::report_errors(); }