//===----------------------------------------------------------------------===// // // The LLVM Compiler Infrastructure // // This file is distributed under the University of Illinois Open Source // License. See LICENSE.TXT for details. // //===----------------------------------------------------------------------===// // // template // requires HasEqualTo // Iter1 // search(Iter1 first1, Iter1 last1, Iter2 first2, Iter2 last2); #include #include #include "../../iterators.h" struct count_equal { static unsigned count; template bool operator()(const T& x, const T& y) {++count; return x == y;} }; unsigned count_equal::count = 0; template void test() { int ia[] = {0, 1, 2, 3, 4, 5}; const unsigned sa = sizeof(ia)/sizeof(ia[0]); count_equal::count = 0; assert(std::search(Iter1(ia), Iter1(ia+sa), Iter2(ia), Iter2(ia), count_equal()) == Iter1(ia)); assert(count_equal::count <= 0); count_equal::count = 0; assert(std::search(Iter1(ia), Iter1(ia+sa), Iter2(ia), Iter2(ia+1), count_equal()) == Iter1(ia)); assert(count_equal::count <= sa); count_equal::count = 0; assert(std::search(Iter1(ia), Iter1(ia+sa), Iter2(ia+1), Iter2(ia+2), count_equal()) == Iter1(ia+1)); assert(count_equal::count <= sa); count_equal::count = 0; assert(std::search(Iter1(ia), Iter1(ia+sa), Iter2(ia+2), Iter2(ia+2), count_equal()) == Iter1(ia)); assert(count_equal::count <= 0); count_equal::count = 0; assert(std::search(Iter1(ia), Iter1(ia+sa), Iter2(ia+2), Iter2(ia+3), count_equal()) == Iter1(ia+2)); assert(count_equal::count <= sa); count_equal::count = 0; assert(std::search(Iter1(ia), Iter1(ia+sa), Iter2(ia+2), Iter2(ia+3), count_equal()) == Iter1(ia+2)); assert(count_equal::count <= sa); count_equal::count = 0; assert(std::search(Iter1(ia), Iter1(ia), Iter2(ia+2), Iter2(ia+3), count_equal()) == Iter1(ia)); assert(count_equal::count <= 0); count_equal::count = 0; assert(std::search(Iter1(ia), Iter1(ia+sa), Iter2(ia+sa-1), Iter2(ia+sa), count_equal()) == Iter1(ia+sa-1)); assert(count_equal::count <= sa); count_equal::count = 0; assert(std::search(Iter1(ia), Iter1(ia+sa), Iter2(ia+sa-3), Iter2(ia+sa), count_equal()) == Iter1(ia+sa-3)); assert(count_equal::count <= sa*3); count_equal::count = 0; assert(std::search(Iter1(ia), Iter1(ia+sa), Iter2(ia), Iter2(ia+sa), count_equal()) == Iter1(ia)); assert(count_equal::count <= sa*sa); count_equal::count = 0; assert(std::search(Iter1(ia), Iter1(ia+sa-1), Iter2(ia), Iter2(ia+sa), count_equal()) == Iter1(ia+sa-1)); assert(count_equal::count <= (sa-1)*sa); count_equal::count = 0; assert(std::search(Iter1(ia), Iter1(ia+1), Iter2(ia), Iter2(ia+sa), count_equal()) == Iter1(ia+1)); assert(count_equal::count <= sa); count_equal::count = 0; int ib[] = {0, 1, 2, 0, 1, 2, 3, 0, 1, 2, 3, 4}; const unsigned sb = sizeof(ib)/sizeof(ib[0]); int ic[] = {1}; assert(std::search(Iter1(ib), Iter1(ib+sb), Iter2(ic), Iter2(ic+1), count_equal()) == Iter1(ib+1)); assert(count_equal::count <= sb); count_equal::count = 0; int id[] = {1, 2}; assert(std::search(Iter1(ib), Iter1(ib+sb), Iter2(id), Iter2(id+2), count_equal()) == Iter1(ib+1)); assert(count_equal::count <= sb*2); count_equal::count = 0; int ie[] = {1, 2, 3}; assert(std::search(Iter1(ib), Iter1(ib+sb), Iter2(ie), Iter2(ie+3), count_equal()) == Iter1(ib+4)); assert(count_equal::count <= sb*3); count_equal::count = 0; int ig[] = {1, 2, 3, 4}; assert(std::search(Iter1(ib), Iter1(ib+sb), Iter2(ig), Iter2(ig+4), count_equal()) == Iter1(ib+8)); assert(count_equal::count <= sb*4); count_equal::count = 0; int ih[] = {0, 1, 1, 1, 1, 2, 3, 0, 1, 2, 3, 4}; const unsigned sh = sizeof(ih)/sizeof(ih[0]); int ii[] = {1, 1, 2}; assert(std::search(Iter1(ih), Iter1(ih+sh), Iter2(ii), Iter2(ii+3), count_equal()) == Iter1(ih+3)); assert(count_equal::count <= sh*3); } int main() { test, forward_iterator >(); test, bidirectional_iterator >(); test, random_access_iterator >(); test, forward_iterator >(); test, bidirectional_iterator >(); test, random_access_iterator >(); test, forward_iterator >(); test, bidirectional_iterator >(); test, random_access_iterator >(); }