libs/utility/test/iterators_test.cpp
// Demonstrate and test boost/operators.hpp on std::iterators --------------// // (C) Copyright Jeremy Siek 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 for most recent version including documentation. // Revision History // 29 May 01 Factored implementation, added comparison tests, use Test Tools // library (Daryle Walker) // 12 Dec 99 Initial version with iterator operators (Jeremy Siek) #include <boost/core/lightweight_test.hpp> #include <boost/config.hpp> // for BOOST_STATIC_CONSTANT #include <boost/operators.hpp> // for boost::random_access_iterator_helper #include <cstddef> // for std::ptrdiff_t, std::size_t #include <cstring> // for std::strcmp #include <iostream> // for std::cout (std::endl, ends, and flush indirectly) #include <string> // for std::string #include <sstream> // for std::stringstream # ifdef BOOST_NO_STDC_NAMESPACE namespace std { using ::strcmp; } # endif // Iterator test class template <class T, class R, class P> struct test_iter : public boost::random_access_iterator_helper< test_iter<T,R,P>, T, std::ptrdiff_t, P, R> { typedef test_iter self; typedef R Reference; typedef std::ptrdiff_t Distance; public: explicit test_iter(T* i =0) : _i(i) { } test_iter(const self& x) : _i(x._i) { } self& operator=(const self& x) { _i = x._i; return *this; } Reference operator*() const { return *_i; } self& operator++() { ++_i; return *this; } self& operator--() { --_i; return *this; } self& operator+=(Distance n) { _i += n; return *this; } self& operator-=(Distance n) { _i -= n; return *this; } bool operator==(const self& x) const { return _i == x._i; } bool operator<(const self& x) const { return _i < x._i; } friend Distance operator-(const self& x, const self& y) { return x._i - y._i; } protected: P _i; }; // Iterator operator testing classes class test_opr_base { protected: // Test data and types BOOST_STATIC_CONSTANT( std::size_t, fruit_length = 6u ); typedef std::string fruit_array_type[ fruit_length ]; static fruit_array_type fruit; }; // test_opr_base #ifndef BOOST_NO_INCLASS_MEMBER_INITIALIZATION // A definition is required even for integral static constants const std::size_t test_opr_base::fruit_length; #endif template <typename T, typename R = T&, typename P = T*> class test_opr : public test_opr_base { typedef test_opr<T, R, P> self_type; public: // Types typedef T value_type; typedef R reference; typedef P pointer; typedef test_iter<T, R, P> iter_type; // Test controller static void master_test( char const name[] ); private: // Test data static iter_type const fruit_begin; static iter_type const fruit_end; // Test parts static void post_increment_test(); static void post_decrement_test(); static void indirect_referral_test(); static void offset_addition_test(); static void reverse_offset_addition_test(); static void offset_subtraction_test(); static void comparison_test(); static void indexing_test(); }; // test_opr // Class-static data definitions test_opr_base::fruit_array_type test_opr_base::fruit = { "apple", "orange", "pear", "peach", "grape", "plum" }; template <typename T, typename R, typename P> typename test_opr<T, R, P>::iter_type const test_opr<T, R, P>::fruit_begin = test_iter<T,R,P>( fruit ); template <typename T, typename R, typename P> typename test_opr<T, R, P>::iter_type const test_opr<T, R, P>::fruit_end = test_iter<T,R,P>( fruit + fruit_length ); // Main testing function int main() { using std::string; typedef test_opr<string, string &, string *> test1_type; typedef test_opr<string, string const &, string const *> test2_type; test1_type::master_test( "non-const string" ); test2_type::master_test( "const string" ); return boost::report_errors(); } // Tests for all of the operators added by random_access_iterator_helper template <typename T, typename R, typename P> void test_opr<T, R, P>::master_test ( char const name[] ) { std::cout << "Doing test run for " << name << '.' << std::endl; post_increment_test(); post_decrement_test(); indirect_referral_test(); offset_addition_test(); reverse_offset_addition_test(); offset_subtraction_test(); comparison_test(); indexing_test(); } // Test post-increment template <typename T, typename R, typename P> void test_opr<T, R, P>::post_increment_test ( ) { std::cout << "\tDoing post-increment test." << std::endl; std::stringstream oss; for ( iter_type i = fruit_begin ; i != fruit_end ; ) { oss << *i++ << ' '; } BOOST_TEST( oss.str() == "apple orange pear peach grape plum "); } // Test post-decrement template <typename T, typename R, typename P> void test_opr<T, R, P>::post_decrement_test ( ) { std::cout << "\tDoing post-decrement test." << std::endl; std::stringstream oss; for ( iter_type i = fruit_end ; i != fruit_begin ; ) { i--; oss << *i << ' '; } BOOST_TEST( oss.str() == "plum grape peach pear orange apple "); } // Test indirect structure referral template <typename T, typename R, typename P> void test_opr<T, R, P>::indirect_referral_test ( ) { std::cout << "\tDoing indirect reference test." << std::endl; std::stringstream oss; for ( iter_type i = fruit_begin ; i != fruit_end ; ++i ) { oss << i->size() << ' '; } BOOST_TEST( oss.str() == "5 6 4 5 5 4 "); } // Test offset addition template <typename T, typename R, typename P> void test_opr<T, R, P>::offset_addition_test ( ) { std::cout << "\tDoing offset addition test." << std::endl; std::ptrdiff_t const two = 2; std::stringstream oss; for ( iter_type i = fruit_begin ; i != fruit_end ; i = i + two ) { oss << *i << ' '; } BOOST_TEST( oss.str() == "apple pear grape "); } // Test offset addition, in reverse order template <typename T, typename R, typename P> void test_opr<T, R, P>::reverse_offset_addition_test ( ) { std::cout << "\tDoing reverse offset addition test." << std::endl; std::ptrdiff_t const two = 2; std::stringstream oss; for ( iter_type i = fruit_begin ; i != fruit_end ; i = two + i ) { oss << *i << ' '; } BOOST_TEST( oss.str() == "apple pear grape "); } // Test offset subtraction template <typename T, typename R, typename P> void test_opr<T, R, P>::offset_subtraction_test ( ) { std::cout << "\tDoing offset subtraction test." << std::endl; std::ptrdiff_t const two = 2; std::stringstream oss; for ( iter_type i = fruit_end ; fruit_begin < i ; ) { i = i - two; if ( (fruit_begin < i) || (fruit_begin == i) ) { oss << *i << ' '; } } BOOST_TEST( oss.str() == "grape pear apple "); } // Test comparisons template <typename T, typename R, typename P> void test_opr<T, R, P>::comparison_test ( ) { using std::cout; using std::ptrdiff_t; cout << "\tDoing comparison tests.\n\t\tPass:"; for ( iter_type i = fruit_begin ; i != fruit_end ; ++i ) { ptrdiff_t const i_offset = i - fruit_begin; cout << ' ' << *i << std::flush; for ( iter_type j = fruit_begin ; j != fruit_end ; ++j ) { ptrdiff_t const j_offset = j - fruit_begin; BOOST_TEST( (i != j) == (i_offset != j_offset) ); BOOST_TEST( (i > j) == (i_offset > j_offset) ); BOOST_TEST( (i <= j) == (i_offset <= j_offset) ); BOOST_TEST( (i >= j) == (i_offset >= j_offset) ); } } cout << std::endl; } // Test indexing template <typename T, typename R, typename P> void test_opr<T, R, P>::indexing_test ( ) { std::cout << "\tDoing indexing test." << std::endl; std::stringstream oss; for ( std::size_t k = 0u ; k < fruit_length ; ++k ) { oss << fruit_begin[ k ] << ' '; } BOOST_TEST( oss.str() == "apple orange pear peach grape plum "); }