/*************************************************************************** * * 25. set.intersection.cpp - test exercising lib.set.intersection * * $Id: 25.set.intersection.cpp 510970 2007-02-23 14:57:45Z faridz $ * *************************************************************************** * * Licensed to the Apache Software Foundation (ASF) under one or more * contributor license agreements. See the NOTICE file distributed * with this work for additional information regarding copyright * ownership. The ASF licenses this file to you under the Apache * License, Version 2.0 (the "License"); you may not use this file * except in compliance with the License. You may obtain a copy of * the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or * implied. See the License for the specific language governing * permissions and limitations under the License. * * Copyright 1994-2006 Rogue Wave Software. * **************************************************************************/ #include // for set_intersection #include // for size_t #include #include // for UserClass #include // for rw_test() /**************************************************************************/ _RWSTD_NAMESPACE (std) { // disable explicit instantiation for compilers (like MSVC) // that can't handle it #ifndef _RWSTD_NO_EXPLICIT_INSTANTIATION template OutputIter > > > set_intersection (InputIter > > >, InputIter > > >, InputIter > > >, InputIter > > >, OutputIter > > >); template OutputIter > > > set_intersection (InputIter > > >, InputIter > > >, InputIter > > >, InputIter > > >, OutputIter > > >, binary_predicate > > >); #endif // _RWSTD_NO_EXPLICIT_INSTANTIATION } // namespace std /**************************************************************************/ struct Less { static std::size_t funcalls_; // dummy arguments provided to prevent the class from being // default constructible and implicit conversion from int Less (int /* dummy */, int /* dummy */) { funcalls_ = 0; } // return a type other than bool but one that is implicitly // convertible to bool to detect incorrect assumptions conv_to_bool operator() (const UserClass &x, const UserClass &y) /* non-const */ { ++funcalls_; return conv_to_bool::make (x.data_.val_ < y.data_.val_); } private: void operator= (Less&); // not assignable }; std::size_t Less::funcalls_; /**************************************************************************/ struct SetIntersectionBase { virtual ~SetIntersectionBase() {} const char* iter_names [3]; // pure virtual virtual UserClass* set_intersection (const UserClass*, const UserClass*, const UserClass*, const UserClass*, UserClass*, UserClass*, const Less*) const = 0; }; template struct SetIntersection: SetIntersectionBase { SetIntersection () { iter_names [0] = type_name (InputIterator1 (0, 0, 0), (UserClass*)0); iter_names [1] = type_name (InputIterator2 (0, 0, 0), (UserClass*)0); iter_names [2] = type_name (OutputIterator (0, 0, 0), (UserClass*)0); } virtual UserClass* set_intersection (const UserClass *xsrc1, const UserClass *xsrc1_end, const UserClass *xsrc2, const UserClass *xsrc2_end, UserClass *xdst, UserClass *xdst_end, const Less *ppred) const { const InputIterator1 first1 (xsrc1, xsrc1, xsrc1_end); const InputIterator1 last1 (xsrc1_end, xsrc1, xsrc1_end); const InputIterator2 first2 (xsrc2, xsrc2, xsrc2_end); const InputIterator2 last2 (xsrc2_end, xsrc2, xsrc2_end); const OutputIterator result (xdst, xdst, xdst_end); const OutputIterator ret = ppred ? std::set_intersection (first1, last1, first2, last2, result, *ppred) : std::set_intersection (first1, last1, first2, last2, result); // silence EDG eccp 3.7 and prior remark #550-D: // variable was set but never used _RWSTD_UNUSED (ret); return ret.cur_; } }; /**************************************************************************/ void test_set_intersection (int line, const char *src1, std::size_t nsrc1, const char *src2, std::size_t nsrc2, const char *res, std::size_t ndst, bool predicate, const SetIntersectionBase &alg) { const char* const it1name = alg.iter_names [0]; const char* const it2name = alg.iter_names [1]; const char* const outname = alg.iter_names [2]; const char* const fname = "set_intersection"; const char* const funname = predicate ? "Less" : 0; UserClass* const xsrc1 = UserClass::from_char (src1, nsrc1, true /* must be sorted */); UserClass* const xsrc2 = UserClass::from_char (src2, nsrc2, true /* must be sorted */); // assert that the sequences have been successfully created RW_ASSERT (0 == nsrc1 || xsrc1); RW_ASSERT (0 == nsrc2 || xsrc2); UserClass* const xdst = new UserClass [ndst]; const int max1_id = nsrc1 > 0 ? xsrc1[nsrc1 - 1].id_ : -1; UserClass* const xsrc1_end = xsrc1 + nsrc1; UserClass* const xsrc2_end = xsrc2 + nsrc2; UserClass* const xdst_end = xdst + ndst; const std::size_t last_n_op_lt = UserClass::n_total_op_lt_; const Less pred (0, 0); const Less* const ppred = predicate ? &pred : 0; const UserClass* const xdst_res = alg.set_intersection (xsrc1, xsrc1_end, xsrc2, xsrc2_end, xdst, xdst_end, ppred); // check the returned value bool success = xdst_res == xdst_end; rw_assert (success, 0, line, "line %d: %s<%s, %s, %s%{?}, %s%{;}> (\"%s\", \"%s\", ...) " "got res + %td, expected res + %zu", __LINE__, fname, it1name, it2name, outname, predicate, funname, src1, src2, xdst_res - xdst, ndst); // quit here to avoid the running out of the array boundaries if (!success) { delete[] xsrc1; delete[] xsrc2; delete[] xdst; return; } const std::size_t n_ops_lt = ppred ? Less::funcalls_ : UserClass::n_total_op_lt_ - last_n_op_lt; // check the algorithm correctness std::size_t i = 0; std::size_t n1 = 0; std::size_t n2 = 0; for ( ; i < ndst; i++) { xdst[i].origin_ <= max1_id ? n1++ : n2++; success = xdst[i].data_.val_ == res[i]; if (!success) break; } // to avoid errors in --trace mode i = i < ndst ? i : ndst - 1; rw_assert (success, 0, line, "line %d: %s<%s, %s, %s%{?}, %s%{;}> (\"%s\", \"%s\", ...) " " ==> \"%{X=*.*}\", expected \"%s\"", __LINE__, fname, it1name, it2name, outname, predicate, funname, src1, src2, int (ndst), i, xdst, res); // check that the operation is stable : for two equal elements // one from the first sequence should be taken success = n2 == 0; rw_assert (success, 0, line, "line %d: %s<%s, %s, %s%{?}, %s%{;}> (\"%s\", \"%s\", ...) " " ==> \"%{X=*.*}\" got %zu elements from first sequence and " "%zu from second, expected %zu from first and 0 from second", __LINE__, fname, it1name, it2name, outname, predicate, funname, src1, src2, int (ndst), -1, xdst, n1, n2, ndst); // check the complexity const std::size_t n_exp_ops = nsrc1 + nsrc2 > 0 ? 2 * (nsrc1 + nsrc2) - 1 : 0; rw_assert (n_ops_lt <= n_exp_ops, 0, line, "line %d: %s<%s, %s, %s%{?}, %s%{;}> (\"%s\", \"%s\", ...) " "complexity: got %zu, expected no more than %zu", __LINE__, fname, it1name, it2name, outname, predicate, funname, src1, src2, n_ops_lt, n_exp_ops); delete[] xsrc1; delete[] xsrc2; delete[] xdst; } /**************************************************************************/ void test_set_intersection (const SetIntersectionBase &alg, bool predicate) { const char* const it1name = alg.iter_names [0]; const char* const it2name = alg.iter_names [1]; const char* const outname = alg.iter_names [2]; const char* const fname = "set_intersection"; const char* const funname = predicate ? "Less" : 0; rw_info (0, 0, 0, "%s std::%s(%s, %3$s, %s, %4$s, %1$s%{?}, %s%{;})", outname, fname, it1name, it2name, predicate, funname); #define TEST(src1, src2, res) \ test_set_intersection (__LINE__, src1, sizeof src1 - 1, \ src2, sizeof src2 - 1, \ res, sizeof res - 1, \ predicate, alg) TEST ("a", "", ""); TEST ("abcde", "", ""); TEST ("", "a", ""); TEST ("", "abcde", ""); TEST ("a", "b", ""); TEST ("b", "a", ""); TEST ("aa", "aa", "aa"); TEST ("ab", "ab", "ab"); TEST ("aa", "ab", "a"); TEST ("ab", "bb", "b"); TEST ("aa", "bb", ""); TEST ("ac", "bb", ""); TEST ("ace", "bdf", ""); TEST ("acf", "bdf", "f"); TEST ("ade", "bdf", "d"); TEST ("bce", "bdf", "b"); TEST ("aacee", "aacee", "aacee"); TEST ("aacee", "aaace", "aace"); TEST ("aacee", "aaaae", "aae"); TEST ("aacee", "aaaaa", "aa"); TEST ("aaaae", "aacee", "aae"); TEST ("aaaaa", "aacee", "aa"); TEST ("aacee", "aaabd", "aa"); TEST ("aaabd", "aacee", "aa"); TEST ("aacee", "aabee", "aaee"); } /**************************************************************************/ /* extern */ int rw_opt_no_predicate; // --no-predicate /* extern */ int rw_opt_no_input_iter; // --no-InputIterator /* extern */ int rw_opt_no_output_iter; // --no-OutputIterator /* extern */ int rw_opt_no_fwd_iter; // --no-ForwardIterator /* extern */ int rw_opt_no_bidir_iter; // --no-BidirectionalIterator /* extern */ int rw_opt_no_rnd_iter; // --no-RandomAccessIterator /**************************************************************************/ template void gen_set_intersection_test (const InputIterator1&, const InputIterator2&, const OutputIterator&, bool predicate) { const SetIntersection alg; test_set_intersection (alg, predicate); } /**************************************************************************/ template void gen_set_intersection_test (const InputIterator1 &it1, const InputIterator2 &it2, bool predicate) { if (0 == rw_opt_no_output_iter) gen_set_intersection_test ( it1, it2, OutputIter(0, 0, 0), predicate); if (0 == rw_opt_no_fwd_iter) gen_set_intersection_test ( it1, it2, FwdIter(0, 0, 0), predicate); if (0 == rw_opt_no_bidir_iter) gen_set_intersection_test ( it1, it2, BidirIter(0, 0, 0), predicate); if (0 == rw_opt_no_rnd_iter) gen_set_intersection_test ( it1, it2, RandomAccessIter(0, 0, 0), predicate); } template void gen_set_intersection_test (const InputIterator1 &it1, bool predicate) { if (0 == rw_opt_no_input_iter) gen_set_intersection_test ( it1, InputIter(0, 0, 0), predicate); if (0 == rw_opt_no_fwd_iter) gen_set_intersection_test ( it1, ConstFwdIter(0, 0, 0), predicate); if (0 == rw_opt_no_bidir_iter) gen_set_intersection_test ( it1, ConstBidirIter(0, 0, 0), predicate); if (0 == rw_opt_no_rnd_iter) gen_set_intersection_test ( it1, ConstRandomAccessIter(0, 0, 0), predicate); } // generates a specialization of the set_intersection test for each of // the required iterator categopries static void gen_set_intersection_test (bool predicate) { rw_info (0, 0, 0, "template %3$s " "set_intersection(%1$s, %1$s, %2$s, %2$s, %3$s%{?}, %s%{;})", "InputIterator1", "InputIterator2", "OutputIterator", predicate, "Compare", predicate, "Compare"); if (rw_opt_no_output_iter) rw_note (0, 0, 0, "OutputIterator test disabled"); if (rw_opt_no_input_iter) rw_note (0, 0, 0, "InputIterator test disabled"); else gen_set_intersection_test (InputIter(0, 0, 0), predicate); if (rw_opt_no_fwd_iter) rw_note (0, 0, 0, "ForwardIterator test disabled"); else gen_set_intersection_test (ConstFwdIter(0, 0, 0), predicate); if (rw_opt_no_bidir_iter) rw_note (0, 0, 0, "BidirectionalIterator test disabled"); else gen_set_intersection_test (ConstBidirIter(0, 0, 0), predicate); if (rw_opt_no_rnd_iter) rw_note (0, 0, 0, "RandomAccessIterator test disabled"); else gen_set_intersection_test ( ConstRandomAccessIter(0, 0, 0), predicate); } /**************************************************************************/ static int run_test (int, char*[]) { if (rw_opt_no_predicate) rw_note (0, 0, 0, "predicate test disabled"); const int niters = rw_opt_no_predicate ? 1 : 2; ////////////////////////////////////////////////////////////////// for (int i = 0; i != niters; ++i) { gen_set_intersection_test (1 == i); } return 0; } /**************************************************************************/ int main (int argc, char *argv[]) { return rw_test (argc, argv, __FILE__, "lib.set.intersection", 0 /* no comment */, run_test, "|-no-predicate#" "|-no-InputIterator# " "|-no-OutputIterator# " "|-no-ForwardIterator# " "|-no-BidirectionalIterator# " "|-no-RandomAccessIterator#", &rw_opt_no_predicate, &rw_opt_no_input_iter, &rw_opt_no_output_iter, &rw_opt_no_fwd_iter, &rw_opt_no_bidir_iter, &rw_opt_no_rnd_iter); }