//===----------------------------------------------------------------------===// // // The LLVM Compiler Infrastructure // // This file is dual licensed under the MIT and the University of Illinois Open // Source Licenses. See LICENSE.TXT for details. // //===----------------------------------------------------------------------===// // // template // ForwardIterator // search_n(ForwardIterator first, ForwardIterator last, Size count, // const T& value, BinaryPredicate pred); #include #include #include "test_iterators.h" #include "user_defined_integral.hpp" 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_n(Iter(ia), Iter(ia+sa), 0, 0, count_equal()) == Iter(ia)); assert(count_equal::count <= sa); count_equal::count = 0; assert(std::search_n(Iter(ia), Iter(ia+sa), 1, 0, count_equal()) == Iter(ia+0)); assert(count_equal::count <= sa); count_equal::count = 0; assert(std::search_n(Iter(ia), Iter(ia+sa), 2, 0, count_equal()) == Iter(ia+sa)); assert(count_equal::count <= sa); count_equal::count = 0; assert(std::search_n(Iter(ia), Iter(ia+sa), sa, 0, count_equal()) == Iter(ia+sa)); assert(count_equal::count <= sa); count_equal::count = 0; assert(std::search_n(Iter(ia), Iter(ia+sa), 0, 3, count_equal()) == Iter(ia)); assert(count_equal::count <= sa); count_equal::count = 0; assert(std::search_n(Iter(ia), Iter(ia+sa), 1, 3, count_equal()) == Iter(ia+3)); assert(count_equal::count <= sa); count_equal::count = 0; assert(std::search_n(Iter(ia), Iter(ia+sa), 2, 3, count_equal()) == Iter(ia+sa)); assert(count_equal::count <= sa); count_equal::count = 0; assert(std::search_n(Iter(ia), Iter(ia+sa), sa, 3, count_equal()) == Iter(ia+sa)); assert(count_equal::count <= sa); count_equal::count = 0; assert(std::search_n(Iter(ia), Iter(ia+sa), 0, 5, count_equal()) == Iter(ia)); assert(count_equal::count <= sa); count_equal::count = 0; assert(std::search_n(Iter(ia), Iter(ia+sa), 1, 5, count_equal()) == Iter(ia+5)); assert(count_equal::count <= sa); count_equal::count = 0; assert(std::search_n(Iter(ia), Iter(ia+sa), 2, 5, count_equal()) == Iter(ia+sa)); assert(count_equal::count <= sa); count_equal::count = 0; assert(std::search_n(Iter(ia), Iter(ia+sa), sa, 5, count_equal()) == Iter(ia+sa)); assert(count_equal::count <= sa); count_equal::count = 0; int ib[] = {0, 0, 1, 1, 2, 2}; const unsigned sb = sizeof(ib)/sizeof(ib[0]); assert(std::search_n(Iter(ib), Iter(ib+sb), 0, 0, count_equal()) == Iter(ib)); assert(count_equal::count <= sb); count_equal::count = 0; assert(std::search_n(Iter(ib), Iter(ib+sb), 1, 0, count_equal()) == Iter(ib+0)); assert(count_equal::count <= sb); count_equal::count = 0; assert(std::search_n(Iter(ib), Iter(ib+sb), 2, 0, count_equal()) == Iter(ib+0)); assert(count_equal::count <= sb); count_equal::count = 0; assert(std::search_n(Iter(ib), Iter(ib+sb), 3, 0, count_equal()) == Iter(ib+sb)); assert(count_equal::count <= sb); count_equal::count = 0; assert(std::search_n(Iter(ib), Iter(ib+sb), sb, 0, count_equal()) == Iter(ib+sb)); assert(count_equal::count <= sb); count_equal::count = 0; assert(std::search_n(Iter(ib), Iter(ib+sb), 0, 1, count_equal()) == Iter(ib)); assert(count_equal::count <= sb); count_equal::count = 0; assert(std::search_n(Iter(ib), Iter(ib+sb), 1, 1, count_equal()) == Iter(ib+2)); assert(count_equal::count <= sb); count_equal::count = 0; assert(std::search_n(Iter(ib), Iter(ib+sb), 2, 1, count_equal()) == Iter(ib+2)); assert(count_equal::count <= sb); count_equal::count = 0; assert(std::search_n(Iter(ib), Iter(ib+sb), 3, 1, count_equal()) == Iter(ib+sb)); assert(count_equal::count <= sb); count_equal::count = 0; assert(std::search_n(Iter(ib), Iter(ib+sb), sb, 1, count_equal()) == Iter(ib+sb)); assert(count_equal::count <= sb); count_equal::count = 0; assert(std::search_n(Iter(ib), Iter(ib+sb), 0, 2, count_equal()) == Iter(ib)); assert(count_equal::count <= sb); count_equal::count = 0; assert(std::search_n(Iter(ib), Iter(ib+sb), 1, 2, count_equal()) == Iter(ib+4)); assert(count_equal::count <= sb); count_equal::count = 0; assert(std::search_n(Iter(ib), Iter(ib+sb), 2, 2, count_equal()) == Iter(ib+4)); assert(count_equal::count <= sb); count_equal::count = 0; assert(std::search_n(Iter(ib), Iter(ib+sb), 3, 2, count_equal()) == Iter(ib+sb)); assert(count_equal::count <= sb); count_equal::count = 0; assert(std::search_n(Iter(ib), Iter(ib+sb), sb, 2, count_equal()) == Iter(ib+sb)); assert(count_equal::count <= sb); count_equal::count = 0; int ic[] = {0, 0, 0}; const unsigned sc = sizeof(ic)/sizeof(ic[0]); assert(std::search_n(Iter(ic), Iter(ic+sc), 0, 0, count_equal()) == Iter(ic)); assert(count_equal::count <= sc); count_equal::count = 0; assert(std::search_n(Iter(ic), Iter(ic+sc), 1, 0, count_equal()) == Iter(ic)); assert(count_equal::count <= sc); count_equal::count = 0; assert(std::search_n(Iter(ic), Iter(ic+sc), 2, 0, count_equal()) == Iter(ic)); assert(count_equal::count <= sc); count_equal::count = 0; assert(std::search_n(Iter(ic), Iter(ic+sc), 3, 0, count_equal()) == Iter(ic)); assert(count_equal::count <= sc); count_equal::count = 0; assert(std::search_n(Iter(ic), Iter(ic+sc), 4, 0, count_equal()) == Iter(ic+sc)); assert(count_equal::count <= sc); count_equal::count = 0; // Check that we properly convert the size argument to an integral. std::search_n(Iter(ic), Iter(ic+sc), UserDefinedIntegral(4), 0, count_equal()); count_equal::count = 0; } int main() { test >(); test >(); test >(); }