/****************************************************************************** The MIT License(MIT) Embedded Template Library. https://github.com/ETLCPP/etl https://www.etlcpp.com Copyright(c) 2014 John Wellbelove Permission is hereby granted, free of charge, to any person obtaining a copy of this software and associated documentation files(the "Software"), to deal in the Software without restriction, including without limitation the rights to use, copy, modify, merge, publish, distribute, sublicense, and / or sell copies of the Software, and to permit persons to whom the Software is furnished to do so, subject to the following conditions : The above copyright notice and this permission notice shall be included in all copies or substantial portions of the Software. THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT.IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. ******************************************************************************/ #include "unit_test_framework.h" #include #include #include #include #include #include "etl/iterator.h" #include "data.h" #include "iterators_for_unit_tests.h" namespace { using Item = TestDataM; struct input : public etl::iterator { }; struct output : public etl::iterator { }; struct forward : public etl::iterator { }; struct bidirectional : public etl::iterator { }; struct random : public etl::iterator { }; typedef int* pointer; typedef const int* const_pointer; // A sentinel type for non_random_iterator, used to test the // advance(i, n, bound) overload where I != S (different types). template struct non_random_sentinel { non_random_sentinel() : ptr(nullptr) { } non_random_sentinel(T* v) : ptr(v) { } T* ptr; }; template bool operator==(const non_random_iterator& lhs, const non_random_sentinel& rhs) { return lhs.ptr == rhs.ptr; } template bool operator!=(const non_random_iterator& lhs, const non_random_sentinel& rhs) { return lhs.ptr != rhs.ptr; } template bool operator==(const non_random_sentinel& lhs, const non_random_iterator& rhs) { return rhs == lhs; } template bool operator!=(const non_random_sentinel& lhs, const non_random_iterator& rhs) { return rhs != lhs; } const size_t SIZE = 10UL; int dataA[SIZE] = {2, 1, 4, 3, 6, 5, 8, 7, 10, 9}; SUITE(test_iterator) { // NOTE '!!' is required to keep GCC happy. //************************************************************************* TEST(distance_non_random) { ptrdiff_t d = etl::distance(non_random_iterator(&dataA[0]), non_random_iterator(dataA + SIZE)); CHECK_EQUAL(SIZE, d); } //************************************************************************* TEST(distance_random) { ptrdiff_t d = etl::distance(random_iterator(&dataA[0]), random_iterator(dataA + SIZE)); CHECK_EQUAL(SIZE, d); } //************************************************************************* TEST(advance_non_random) { int* itr1 = std::begin(dataA); non_random_iterator itr2 = std::begin(dataA); std::advance(itr1, 4); etl::advance(itr2, 4); CHECK_EQUAL(*itr1, *itr2); std::advance(itr1, -3); etl::advance(itr2, -3); CHECK_EQUAL(*itr1, *itr2); } //************************************************************************* TEST(advance_random) { int* itr1 = std::begin(dataA); random_iterator itr2 = std::begin(dataA); std::advance(itr1, 4); etl::advance(itr2, 4); CHECK_EQUAL(*itr1, *itr2); std::advance(itr1, -3); etl::advance(itr2, -3); CHECK_EQUAL(*itr1, *itr2); } //************************************************************************* TEST(prev) { int data[] = {1, 2, 3, 4, 5, 6, 7}; size_t length = 6UL; int* itr = &data[0] + length; for (size_t i = 1UL; i <= length; ++i) { CHECK_EQUAL(data[length - i], *etl::prev(itr, static_cast(i))); } } //************************************************************************* TEST(next) { int data[] = {1, 2, 3, 4, 5, 6, 7}; size_t length = 6UL; int* itr = &data[0]; for (size_t i = 1UL; i <= length; ++i) { CHECK_EQUAL(data[i], *etl::next(itr, static_cast(i))); } } //************************************************************************* TEST(reverse_iterator) { int data[] = {1, 2, 3, 4, 5, 6, 7}; std::reverse_iterator sri(&data[7]); etl::reverse_iterator eri(&data[7]); CHECK_EQUAL(*sri++, *eri++); CHECK_EQUAL(*sri++, *eri++); CHECK_EQUAL(*sri++, *eri++); CHECK(etl::reverse_iterator(&data[5]) < eri); CHECK(etl::reverse_iterator(&data[3]) > eri); CHECK(etl::reverse_iterator(&data[4]) <= eri); CHECK(etl::reverse_iterator(&data[5]) <= eri); CHECK(etl::reverse_iterator(&data[4]) >= eri); CHECK(etl::reverse_iterator(&data[3]) >= eri); CHECK_EQUAL(*sri++, *eri++); CHECK_EQUAL(*sri++, *eri++); CHECK_EQUAL(*sri++, *eri++); CHECK_EQUAL(*sri, *eri); CHECK(etl::reverse_iterator(&data[1]) == eri); CHECK(etl::reverse_iterator(&data[2]) != eri); CHECK(etl::reverse_iterator(&data[3]) != eri); CHECK(etl::reverse_iterator(&data[4]) != eri); CHECK(etl::reverse_iterator(&data[5]) != eri); CHECK(etl::reverse_iterator(&data[6]) != eri); CHECK(etl::reverse_iterator(&data[7]) != eri); sri = std::reverse_iterator(&data[7]); eri = etl::reverse_iterator(&data[7]); CHECK_EQUAL(sri[0], eri[0]); CHECK_EQUAL(sri[1], eri[1]); CHECK_EQUAL(sri[2], eri[2]); CHECK_EQUAL(sri[3], eri[3]); CHECK_EQUAL(sri[4], eri[4]); CHECK_EQUAL(sri[5], eri[5]); CHECK_EQUAL(sri[6], eri[6]); sri += 4; eri += 4; CHECK_EQUAL(*sri, *eri); sri -= 2; eri -= 2; CHECK_EQUAL(*sri, *eri); std::reverse_iterator sri2 = sri + 3; etl::reverse_iterator eri2 = eri + 3; CHECK_EQUAL(*sri, *eri); sri2 = sri - 3; eri2 = eri - 3; CHECK_EQUAL(*sri, *eri); } //************************************************************************* TEST(reverse_iterator_const) { const int data[] = {1, 2, 3, 4, 5, 6, 7}; std::reverse_iterator sri(&data[7]); etl::reverse_iterator eri(&data[7]); CHECK_EQUAL(*sri++, *eri++); CHECK_EQUAL(*sri++, *eri++); CHECK_EQUAL(*sri++, *eri++); CHECK(etl::reverse_iterator(&data[5]) < eri); CHECK(etl::reverse_iterator(&data[3]) > eri); CHECK(etl::reverse_iterator(&data[4]) <= eri); CHECK(etl::reverse_iterator(&data[5]) <= eri); CHECK(etl::reverse_iterator(&data[4]) >= eri); CHECK(etl::reverse_iterator(&data[3]) >= eri); CHECK_EQUAL(*sri++, *eri++); CHECK_EQUAL(*sri++, *eri++); CHECK_EQUAL(*sri++, *eri++); CHECK_EQUAL(*sri, *eri); CHECK(etl::reverse_iterator(&data[1]) == eri); CHECK(etl::reverse_iterator(&data[2]) != eri); CHECK(etl::reverse_iterator(&data[3]) != eri); CHECK(etl::reverse_iterator(&data[4]) != eri); CHECK(etl::reverse_iterator(&data[5]) != eri); CHECK(etl::reverse_iterator(&data[6]) != eri); CHECK(etl::reverse_iterator(&data[7]) != eri); sri = std::reverse_iterator(&data[7]); eri = etl::reverse_iterator(&data[7]); CHECK_EQUAL(sri[0], eri[0]); CHECK_EQUAL(sri[1], eri[1]); CHECK_EQUAL(sri[2], eri[2]); CHECK_EQUAL(sri[3], eri[3]); CHECK_EQUAL(sri[4], eri[4]); CHECK_EQUAL(sri[5], eri[5]); CHECK_EQUAL(sri[6], eri[6]); CHECK_EQUAL(*sri, *eri); CHECK_EQUAL(*(sri + 1), *(eri + 1)); CHECK_EQUAL(*(sri + 2), *(eri + 2)); CHECK_EQUAL(*(sri + 3), *(eri + 3)); CHECK_EQUAL(*(sri + 4), *(eri + 4)); CHECK_EQUAL(*(sri + 5), *(eri + 5)); CHECK_EQUAL(*(sri + 6), *(eri + 6)); sri += 4; eri += 4; CHECK_EQUAL(*sri, *eri); sri -= 2; eri -= 2; CHECK_EQUAL(*sri, *eri); std::reverse_iterator sri2 = sri + 3; etl::reverse_iterator eri2 = eri + 3; CHECK_EQUAL(*sri, *eri); sri2 = sri - 3; eri2 = eri - 3; CHECK_EQUAL(*sri, *eri); } //************************************************************************* TEST(test_input) { CHECK(!!etl::is_input_iterator::value); CHECK(!etl::is_output_iterator::value); CHECK(!etl::is_forward_iterator::value); CHECK(!etl::is_bidirectional_iterator::value); CHECK(!etl::is_random_iterator::value); CHECK(!!etl::is_input_iterator_concept::value); CHECK(!etl::is_output_iterator_concept::value); CHECK(!etl::is_forward_iterator_concept::value); CHECK(!etl::is_bidirectional_iterator_concept::value); CHECK(!etl::is_random_iterator_concept::value); } //************************************************************************* TEST(test_output) { CHECK(!etl::is_input_iterator::value); CHECK(!!etl::is_output_iterator::value); CHECK(!etl::is_forward_iterator::value); CHECK(!etl::is_bidirectional_iterator::value); CHECK(!etl::is_random_iterator::value); CHECK(!etl::is_input_iterator_concept::value); CHECK(etl::is_output_iterator_concept::value == true); CHECK(!etl::is_forward_iterator_concept::value); CHECK(!etl::is_bidirectional_iterator_concept::value); CHECK(!etl::is_random_iterator_concept::value); } //************************************************************************* TEST(test_forward) { CHECK(!etl::is_input_iterator::value); CHECK(!etl::is_output_iterator::value); CHECK(!!etl::is_forward_iterator::value); CHECK(!etl::is_bidirectional_iterator::value); CHECK(!etl::is_random_iterator::value); CHECK(!!etl::is_input_iterator_concept::value); CHECK(!!etl::is_output_iterator_concept::value); CHECK(!!etl::is_forward_iterator_concept::value); CHECK(!etl::is_bidirectional_iterator_concept::value); CHECK(!etl::is_random_iterator_concept::value); } //************************************************************************* TEST(test_bidirectional) { CHECK(!etl::is_input_iterator::value); CHECK(!etl::is_output_iterator::value); CHECK(!etl::is_forward_iterator::value); CHECK(!!etl::is_bidirectional_iterator::value); CHECK(!etl::is_random_iterator::value); CHECK(!!etl::is_input_iterator_concept::value); CHECK(!!etl::is_output_iterator_concept::value); CHECK(!!etl::is_forward_iterator_concept::value); CHECK(!!etl::is_bidirectional_iterator_concept::value); CHECK(!etl::is_random_iterator_concept::value); } //************************************************************************* TEST(test_random) { CHECK(!etl::is_input_iterator::value); CHECK(!etl::is_output_iterator::value); CHECK(!etl::is_forward_iterator::value); CHECK(!etl::is_bidirectional_iterator::value); CHECK(!!etl::is_random_iterator::value); CHECK(!!etl::is_input_iterator_concept::value); CHECK(!!etl::is_output_iterator_concept::value); CHECK(!!etl::is_forward_iterator_concept::value); CHECK(!!etl::is_bidirectional_iterator_concept::value); CHECK(!!etl::is_random_iterator_concept::value); } //************************************************************************* TEST(test_pointer) { CHECK(!etl::is_input_iterator::value); CHECK(!etl::is_output_iterator::value); CHECK(!etl::is_forward_iterator::value); CHECK(!etl::is_bidirectional_iterator::value); CHECK(!!etl::is_random_iterator::value); CHECK(!!etl::is_input_iterator_concept::value); CHECK(!!etl::is_output_iterator_concept::value); CHECK(!!etl::is_forward_iterator_concept::value); CHECK(!!etl::is_bidirectional_iterator_concept::value); CHECK(!!etl::is_random_iterator_concept::value); } //************************************************************************* TEST(test_const_pointer) { CHECK(!etl::is_input_iterator::value); CHECK(!etl::is_output_iterator::value); CHECK(!etl::is_forward_iterator::value); CHECK(!etl::is_bidirectional_iterator::value); CHECK(!!etl::is_random_iterator::value); CHECK(!!etl::is_input_iterator_concept::value); CHECK(!!etl::is_output_iterator_concept::value); CHECK(!!etl::is_forward_iterator_concept::value); CHECK(!!etl::is_bidirectional_iterator_concept::value); CHECK(!!etl::is_random_iterator_concept::value); } //************************************************************************* TEST(test_move_iterator_constructors) { Item list[] = {Item("1"), Item("2"), Item("3")}; etl::move_iterator mitr1(&list[0]); etl::move_iterator mitr2(&list[1]); etl::move_iterator mitr3(&list[1]); etl::move_iterator mitr4 = etl::make_move_iterator(&list[2]); etl::move_iterator mitr5(mitr4); CHECK(mitr1.base() == &list[0]); CHECK(mitr2.base() == &list[1]); CHECK(mitr3.base() == &list[1]); CHECK(mitr4.base() == &list[2]); CHECK(mitr5.base() == &list[2]); } //************************************************************************* TEST(test_move_iterator_relational_operators) { Item list[] = {Item("1"), Item("2"), Item("3")}; etl::move_iterator mitr1(&list[0]); etl::move_iterator mitr2(&list[1]); etl::move_iterator mitr3(&list[1]); etl::move_iterator mitr4 = etl::make_move_iterator(&list[2]); etl::move_iterator mitr5(mitr4); CHECK(mitr1 < mitr2); CHECK(!(mitr2 < mitr1)); CHECK(!(mitr2 < mitr3)); CHECK(mitr1 <= mitr2); CHECK(mitr2 <= mitr3); CHECK(!(mitr2 <= mitr1)); CHECK(mitr2 > mitr1); CHECK(!(mitr1 > mitr2)); CHECK(!(mitr3 > mitr2)); CHECK(mitr2 >= mitr1); CHECK(mitr3 >= mitr2); CHECK(!(mitr1 >= mitr2)); CHECK(mitr4 == mitr5); CHECK(mitr3 != mitr5); } //************************************************************************* TEST(test_move_iterator_access_operators) { Item item1("1"); etl::move_iterator mitr(&item1); CHECK_EQUAL("1", mitr->value); CHECK_EQUAL(true, mitr->valid); CHECK_EQUAL("1", (*mitr).value); CHECK_EQUAL(true, (*mitr).valid); Item item2 = *mitr; // Move item1 CHECK_EQUAL(false, item1.valid); CHECK_EQUAL("1", item2.value); CHECK_EQUAL(true, item2.valid); } //************************************************************************* TEST(test_move_iterator_index) { Item list[] = {Item("1"), Item("2"), Item("3")}; etl::move_iterator mitr(&list[0]); CHECK_EQUAL("3", mitr[2].value); CHECK_EQUAL(true, mitr[2].valid); } //************************************************************************* TEST(test_move_iterator_increment_decrement) { Item list[] = {Item("1"), Item("2"), Item("3")}; etl::move_iterator mitr(&list[0]); mitr++; ++mitr; CHECK_EQUAL("3", mitr->value); CHECK_EQUAL(true, mitr->valid); mitr--; --mitr; CHECK_EQUAL("1", mitr->value); CHECK_EQUAL(true, mitr->valid); mitr += 1; CHECK_EQUAL("2", mitr->value); CHECK_EQUAL(true, mitr->valid); mitr -= 1; CHECK_EQUAL("1", mitr->value); CHECK_EQUAL(true, mitr->valid); mitr = mitr + 1; CHECK_EQUAL("2", mitr->value); CHECK_EQUAL(true, mitr->valid); mitr = mitr - 1; CHECK_EQUAL("1", mitr->value); CHECK_EQUAL(true, mitr->valid); } //************************************************************************* TEST(test_move_iterator_subtraction) { Item list[] = {Item("1"), Item("2"), Item("3")}; etl::move_iterator mitr1(&list[0]); etl::move_iterator mitr2(&list[1]); etl::move_iterator::difference_type d = mitr2 - mitr1; CHECK_EQUAL(1, d); } //************************************************************************* TEST(test_front_insert_iterator) { std::list input = {0, 1, 2, 3, 4, 5, 6, 7, 8, 9}; std::list expected = {81, 64, 49, 36, 25, 16, 9, 4, 1, 0}; std::list output; auto squared = [](int value) { return value * value; }; std::transform(input.cbegin(), input.cend(), etl::front_inserter(output), squared); CHECK_EQUAL(expected.size(), output.size()); CHECK(std::equal(output.begin(), output.end(), expected.begin())); } //************************************************************************* TEST(test_back_insert_iterator) { std::list input = {0, 1, 2, 3, 4, 5, 6, 7, 8, 9}; std::list expected = {0, 1, 4, 9, 16, 25, 36, 49, 64, 81}; std::list output; auto squared = [](int value) { return value * value; }; std::transform(input.cbegin(), input.cend(), etl::back_inserter(output), squared); CHECK_EQUAL(expected.size(), output.size()); CHECK(std::equal(output.begin(), output.end(), expected.begin())); } //************************************************************************* // TEST(test_push_insert_iterator) //{ // std::list input = { 0, 1, 2, 3, 4, 5, 6, 7, 8, 9 }; // std::list expected = { 0, 1, 4, 9, 16, 25, 36, 49, 64, 81 }; // std::queue output; // auto squared = [](int value) // { // return value * value; // }; // std::transform(input.begin(), input.cend(), etl::push_inserter(output), // squared); // CHECK_EQUAL(expected.size(), output.size()); // CHECK(std::equal(output.begin(), output.end(), expected.begin())); //} #if ETL_USING_CPP17 //************************************************************************* TEST(test_counted_iterator) { std::vector v{1, 2, 3, 4}; etl::counted_iterator::iterator> ci0{}; CHECK_EQUAL(0, ci0.count()); etl::counted_iterator ci1{v.begin(), 3}; etl::counted_iterator ci2{v.begin(), 4}; CHECK_EQUAL(3, ci1.count()); CHECK_NOT_EQUAL(ci1.count(), ci2.count()); CHECK(!(ci1 == ci2)); ci2 = ci1; CHECK_EQUAL(ci1.count(), ci2.count()); CHECK(ci1 == ci2); CHECK(ci1.base() == v.begin()); CHECK(ci1.count() == 3); ci1++; CHECK(ci1.count() == 2); ++ci1; CHECK(ci1.count() == 1); ci1--; CHECK(ci1.count() == 2); --ci1; CHECK(ci1.count() == 3); ci1 += 2; CHECK(ci1.count() == 1); ci1 -= 2; CHECK(ci1.count() == 3); CHECK_EQUAL(ci1[0], 1); CHECK_EQUAL(ci1[1], 2); CHECK_EQUAL(ci1[2], 3); auto ci3 = ci1 + 3; CHECK(ci1.count() == 3); CHECK_EQUAL(ci3.count(), 0); auto ci4 = ci3 - 3; CHECK(ci1.count() == 3); CHECK_EQUAL(ci3.count(), 0); CHECK(ci4.count() == 3); } //************************************************************************* // etl::ranges::advance(i, n) with random access iterator //************************************************************************* TEST(ranges_advance_n_random_access_forward) { int data[] = {0, 1, 2, 3, 4, 5, 6, 7, 8, 9}; int* itr = &data[0]; etl::ranges::advance(itr, 4); CHECK_EQUAL(4, *itr); } //************************************************************************* TEST(ranges_advance_n_random_access_backward) { int data[] = {0, 1, 2, 3, 4, 5, 6, 7, 8, 9}; int* itr = &data[7]; etl::ranges::advance(itr, -3); CHECK_EQUAL(4, *itr); } //************************************************************************* TEST(ranges_advance_n_random_access_zero) { int data[] = {0, 1, 2, 3, 4, 5, 6, 7, 8, 9}; int* itr = &data[5]; etl::ranges::advance(itr, 0); CHECK_EQUAL(5, *itr); } //************************************************************************* // etl::ranges::advance(i, n) with bidirectional (non-random) iterator //************************************************************************* TEST(ranges_advance_n_bidirectional_forward) { std::list data = {0, 1, 2, 3, 4, 5, 6, 7, 8, 9}; auto itr = data.begin(); etl::ranges::advance(itr, 4); CHECK_EQUAL(4, *itr); } //************************************************************************* TEST(ranges_advance_n_bidirectional_backward) { std::list data = {0, 1, 2, 3, 4, 5, 6, 7, 8, 9}; auto itr = data.end(); etl::ranges::advance(itr, -3); CHECK_EQUAL(7, *itr); } //************************************************************************* TEST(ranges_advance_n_bidirectional_zero) { std::list data = {0, 1, 2, 3, 4, 5, 6, 7, 8, 9}; auto itr = data.begin(); etl::ranges::advance(itr, 5); etl::ranges::advance(itr, 0); CHECK_EQUAL(5, *itr); } //************************************************************************* TEST(ranges_advance_n_non_random_iterator_forward) { int data[] = {0, 1, 2, 3, 4, 5, 6, 7, 8, 9}; non_random_iterator itr(&data[0]); etl::ranges::advance(itr, 6); CHECK_EQUAL(6, *itr); } //************************************************************************* TEST(ranges_advance_n_non_random_iterator_backward) { int data[] = {0, 1, 2, 3, 4, 5, 6, 7, 8, 9}; non_random_iterator itr(&data[8]); etl::ranges::advance(itr, -3); CHECK_EQUAL(5, *itr); } //************************************************************************* // etl::ranges::advance(i, bound) — advance to sentinel //************************************************************************* TEST(ranges_advance_to_bound_random_access) { int data[] = {0, 1, 2, 3, 4, 5, 6, 7, 8, 9}; int* itr = &data[0]; int* bound = &data[7]; etl::ranges::advance(itr, bound); CHECK_EQUAL(7, *itr); CHECK(itr == bound); } //************************************************************************* TEST(ranges_advance_to_bound_bidirectional) { std::list data = {0, 1, 2, 3, 4, 5, 6, 7, 8, 9}; auto itr = data.begin(); auto bound = data.end(); etl::ranges::advance(itr, bound); CHECK(itr == bound); } //************************************************************************* TEST(ranges_advance_to_bound_non_random) { int data[] = {0, 1, 2, 3, 4, 5, 6, 7, 8, 9}; non_random_iterator itr(&data[0]); non_random_iterator bound(&data[5]); etl::ranges::advance(itr, bound); CHECK_EQUAL(5, *itr); } //************************************************************************* TEST(ranges_advance_to_bound_already_at_bound) { int data[] = {0, 1, 2, 3, 4, 5, 6, 7, 8, 9}; int* itr = &data[3]; int* bound = &data[3]; etl::ranges::advance(itr, bound); CHECK(itr == bound); CHECK_EQUAL(3, *itr); } //************************************************************************* // etl::ranges::advance(i, n, bound) — advance with bound, returns remainder //************************************************************************* TEST(ranges_advance_n_bound_random_access_not_reaching_bound) { int data[] = {0, 1, 2, 3, 4, 5, 6, 7, 8, 9}; int* itr = &data[0]; int* bound = &data[9]; auto remaining = etl::ranges::advance(itr, 4, bound); CHECK_EQUAL(4, *itr); CHECK_EQUAL(0, remaining); } //************************************************************************* TEST(ranges_advance_n_bound_random_access_reaching_bound) { int data[] = {0, 1, 2, 3, 4, 5, 6, 7, 8, 9}; int* itr = &data[0]; int* bound = &data[3]; auto remaining = etl::ranges::advance(itr, 7, bound); CHECK(itr == bound); CHECK_EQUAL(3, *itr); CHECK_EQUAL(4, remaining); } //************************************************************************* TEST(ranges_advance_n_bound_random_access_exact_bound) { int data[] = {0, 1, 2, 3, 4, 5, 6, 7, 8, 9}; int* itr = &data[0]; int* bound = &data[5]; auto remaining = etl::ranges::advance(itr, 5, bound); CHECK(itr == bound); CHECK_EQUAL(5, *itr); CHECK_EQUAL(0, remaining); } //************************************************************************* TEST(ranges_advance_n_bound_random_access_backward_not_reaching_bound) { int data[] = {0, 1, 2, 3, 4, 5, 6, 7, 8, 9}; int* itr = &data[9]; int* bound = &data[0]; auto remaining = etl::ranges::advance(itr, -4, bound); CHECK_EQUAL(5, *itr); CHECK_EQUAL(0, remaining); } //************************************************************************* TEST(ranges_advance_n_bound_random_access_backward_reaching_bound) { int data[] = {0, 1, 2, 3, 4, 5, 6, 7, 8, 9}; int* itr = &data[5]; int* bound = &data[2]; auto remaining = etl::ranges::advance(itr, -7, bound); CHECK(itr == bound); CHECK_EQUAL(2, *itr); CHECK_EQUAL(-4, remaining); } //************************************************************************* TEST(ranges_advance_n_bound_non_random_forward_not_reaching_bound) { int data[] = {0, 1, 2, 3, 4, 5, 6, 7, 8, 9}; non_random_iterator itr(&data[0]); non_random_sentinel bound(&data[9]); auto remaining = etl::ranges::advance(itr, 4, bound); CHECK_EQUAL(4, *itr); CHECK_EQUAL(0, remaining); } //************************************************************************* TEST(ranges_advance_n_bound_non_random_forward_reaching_bound) { int data[] = {0, 1, 2, 3, 4, 5, 6, 7, 8, 9}; non_random_iterator itr(&data[0]); non_random_sentinel bound(&data[3]); auto remaining = etl::ranges::advance(itr, 7, bound); CHECK_EQUAL(3, *itr); CHECK_EQUAL(4, remaining); } //************************************************************************* TEST(ranges_advance_n_bound_non_random_backward_not_reaching_bound) { int data[] = {0, 1, 2, 3, 4, 5, 6, 7, 8, 9}; non_random_iterator itr(&data[9]); non_random_sentinel bound(&data[0]); auto remaining = etl::ranges::advance(itr, -3, bound); CHECK_EQUAL(6, *itr); CHECK_EQUAL(0, remaining); } //************************************************************************* TEST(ranges_advance_n_bound_non_random_backward_reaching_bound) { int data[] = {0, 1, 2, 3, 4, 5, 6, 7, 8, 9}; non_random_iterator itr(&data[3]); non_random_sentinel bound(&data[1]); auto remaining = etl::ranges::advance(itr, -7, bound); CHECK_EQUAL(1, *itr); CHECK_EQUAL(-5, remaining); } //************************************************************************* TEST(ranges_advance_n_bound_zero_steps) { int data[] = {0, 1, 2, 3, 4, 5, 6, 7, 8, 9}; int* itr = &data[5]; int* bound = &data[8]; auto remaining = etl::ranges::advance(itr, 0, bound); CHECK_EQUAL(5, *itr); CHECK_EQUAL(0, remaining); } //************************************************************************* // etl::ranges::prev(i) with random access iterator //************************************************************************* TEST(ranges_prev_random_access) { int data[] = {0, 1, 2, 3, 4, 5, 6, 7, 8, 9}; int* itr = &data[5]; int* result = etl::ranges::prev(itr); CHECK_EQUAL(4, *result); CHECK_EQUAL(5, *itr); // original unchanged } //************************************************************************* // etl::ranges::prev(i) with bidirectional (non-random) iterator //************************************************************************* TEST(ranges_prev_non_random) { int data[] = {0, 1, 2, 3, 4, 5, 6, 7, 8, 9}; non_random_iterator itr(&data[5]); non_random_iterator result = etl::ranges::prev(itr); CHECK_EQUAL(4, *result); CHECK_EQUAL(5, *itr); // original unchanged } //************************************************************************* // etl::ranges::prev(i, n) with random access iterator — positive n //************************************************************************* TEST(ranges_prev_n_random_access_positive) { int data[] = {0, 1, 2, 3, 4, 5, 6, 7, 8, 9}; int* itr = &data[7]; int* result = etl::ranges::prev(itr, 3); CHECK_EQUAL(4, *result); CHECK_EQUAL(7, *itr); // original unchanged } //************************************************************************* // etl::ranges::prev(i, n) with random access iterator — zero n //************************************************************************* TEST(ranges_prev_n_random_access_zero) { int data[] = {0, 1, 2, 3, 4, 5, 6, 7, 8, 9}; int* itr = &data[5]; int* result = etl::ranges::prev(itr, 0); CHECK_EQUAL(5, *result); } //************************************************************************* // etl::ranges::prev(i, n) with random access iterator — negative n (moves // forward) //************************************************************************* TEST(ranges_prev_n_random_access_negative) { int data[] = {0, 1, 2, 3, 4, 5, 6, 7, 8, 9}; int* itr = &data[3]; int* result = etl::ranges::prev(itr, -2); CHECK_EQUAL(5, *result); CHECK_EQUAL(3, *itr); // original unchanged } //************************************************************************* // etl::ranges::prev(i, n) with bidirectional (non-random) iterator — // positive n //************************************************************************* TEST(ranges_prev_n_non_random_positive) { int data[] = {0, 1, 2, 3, 4, 5, 6, 7, 8, 9}; non_random_iterator itr(&data[7]); non_random_iterator result = etl::ranges::prev(itr, 4); CHECK_EQUAL(3, *result); CHECK_EQUAL(7, *itr); // original unchanged } //************************************************************************* // etl::ranges::prev(i, n) with bidirectional (non-random) iterator — zero n //************************************************************************* TEST(ranges_prev_n_non_random_zero) { int data[] = {0, 1, 2, 3, 4, 5, 6, 7, 8, 9}; non_random_iterator itr(&data[5]); non_random_iterator result = etl::ranges::prev(itr, 0); CHECK_EQUAL(5, *result); } //************************************************************************* // etl::ranges::prev(i, n) with bidirectional (non-random) iterator — // negative n (moves forward) //************************************************************************* TEST(ranges_prev_n_non_random_negative) { int data[] = {0, 1, 2, 3, 4, 5, 6, 7, 8, 9}; non_random_iterator itr(&data[3]); non_random_iterator result = etl::ranges::prev(itr, -2); CHECK_EQUAL(5, *result); CHECK_EQUAL(3, *itr); // original unchanged } //************************************************************************* // etl::ranges::prev(i, n, bound) with random access iterator — not reaching // bound //************************************************************************* TEST(ranges_prev_n_bound_random_access_not_reaching_bound) { int data[] = {0, 1, 2, 3, 4, 5, 6, 7, 8, 9}; int* itr = &data[8]; int* bound = &data[2]; int* result = etl::ranges::prev(itr, 4, bound); CHECK_EQUAL(4, *result); } //************************************************************************* // etl::ranges::prev(i, n, bound) with random access iterator — reaching // bound //************************************************************************* TEST(ranges_prev_n_bound_random_access_reaching_bound) { int data[] = {0, 1, 2, 3, 4, 5, 6, 7, 8, 9}; int* itr = &data[5]; int* bound = &data[3]; int* result = etl::ranges::prev(itr, 7, bound); CHECK_EQUAL(3, *result); CHECK(result == bound); } //************************************************************************* // etl::ranges::prev(i, n, bound) with random access iterator — zero steps //************************************************************************* TEST(ranges_prev_n_bound_random_access_zero_steps) { int data[] = {0, 1, 2, 3, 4, 5, 6, 7, 8, 9}; int* itr = &data[5]; int* bound = &data[2]; int* result = etl::ranges::prev(itr, 0, bound); CHECK_EQUAL(5, *result); } //************************************************************************* // etl::ranges::prev(i, n, bound) with bidirectional (non-random) iterator — // not reaching bound //************************************************************************* TEST(ranges_prev_n_bound_non_random_not_reaching_bound) { int data[] = {0, 1, 2, 3, 4, 5, 6, 7, 8, 9}; non_random_iterator itr(&data[8]); non_random_iterator bound(&data[2]); non_random_iterator result = etl::ranges::prev(itr, 3, bound); CHECK_EQUAL(5, *result); } //************************************************************************* // etl::ranges::prev(i, n, bound) with bidirectional (non-random) iterator — // reaching bound //************************************************************************* TEST(ranges_prev_n_bound_non_random_reaching_bound) { int data[] = {0, 1, 2, 3, 4, 5, 6, 7, 8, 9}; non_random_iterator itr(&data[5]); non_random_iterator bound(&data[3]); non_random_iterator result = etl::ranges::prev(itr, 7, bound); CHECK_EQUAL(3, *result); CHECK(result.ptr == bound.ptr); } //************************************************************************* // etl::ranges::next(i) with random access iterator //************************************************************************* TEST(ranges_next_random_access) { int data[] = {0, 1, 2, 3, 4, 5, 6, 7, 8, 9}; int* itr = &data[5]; int* result = etl::ranges::next(itr); CHECK_EQUAL(6, *result); CHECK_EQUAL(5, *itr); // original unchanged } //************************************************************************* // etl::ranges::next(i) with bidirectional (non-random) iterator //************************************************************************* TEST(ranges_next_non_random) { int data[] = {0, 1, 2, 3, 4, 5, 6, 7, 8, 9}; non_random_iterator itr(&data[5]); non_random_iterator result = etl::ranges::next(itr); CHECK_EQUAL(6, *result); CHECK_EQUAL(5, *itr); // original unchanged } //************************************************************************* // etl::ranges::next(i, n) with random access iterator — positive n //************************************************************************* TEST(ranges_next_n_random_access_positive) { int data[] = {0, 1, 2, 3, 4, 5, 6, 7, 8, 9}; int* itr = &data[2]; int* result = etl::ranges::next(itr, 5); CHECK_EQUAL(7, *result); CHECK_EQUAL(2, *itr); // original unchanged } //************************************************************************* // etl::ranges::next(i, n) with random access iterator — zero n //************************************************************************* TEST(ranges_next_n_random_access_zero) { int data[] = {0, 1, 2, 3, 4, 5, 6, 7, 8, 9}; int* itr = &data[5]; int* result = etl::ranges::next(itr, 0); CHECK_EQUAL(5, *result); } //************************************************************************* // etl::ranges::next(i, n) with random access iterator — negative n (moves // backward) //************************************************************************* TEST(ranges_next_n_random_access_negative) { int data[] = {0, 1, 2, 3, 4, 5, 6, 7, 8, 9}; int* itr = &data[7]; int* result = etl::ranges::next(itr, -3); CHECK_EQUAL(4, *result); CHECK_EQUAL(7, *itr); // original unchanged } //************************************************************************* // etl::ranges::next(i, n) with bidirectional (non-random) iterator — // positive n //************************************************************************* TEST(ranges_next_n_non_random_positive) { int data[] = {0, 1, 2, 3, 4, 5, 6, 7, 8, 9}; non_random_iterator itr(&data[1]); non_random_iterator result = etl::ranges::next(itr, 4); CHECK_EQUAL(5, *result); CHECK_EQUAL(1, *itr); // original unchanged } //************************************************************************* // etl::ranges::next(i, n) with bidirectional (non-random) iterator — zero n //************************************************************************* TEST(ranges_next_n_non_random_zero) { int data[] = {0, 1, 2, 3, 4, 5, 6, 7, 8, 9}; non_random_iterator itr(&data[5]); non_random_iterator result = etl::ranges::next(itr, 0); CHECK_EQUAL(5, *result); } //************************************************************************* // etl::ranges::next(i, n) with bidirectional (non-random) iterator — // negative n (moves backward) //************************************************************************* TEST(ranges_next_n_non_random_negative) { int data[] = {0, 1, 2, 3, 4, 5, 6, 7, 8, 9}; non_random_iterator itr(&data[7]); non_random_iterator result = etl::ranges::next(itr, -3); CHECK_EQUAL(4, *result); CHECK_EQUAL(7, *itr); // original unchanged } //************************************************************************* // etl::ranges::next(i, bound) with random access iterator //************************************************************************* TEST(ranges_next_bound_random_access) { int data[] = {0, 1, 2, 3, 4, 5, 6, 7, 8, 9}; int* itr = &data[0]; int* bound = &data[7]; int* result = etl::ranges::next(itr, bound); CHECK_EQUAL(7, *result); CHECK(result == bound); CHECK_EQUAL(0, *itr); // original unchanged } //************************************************************************* // etl::ranges::next(i, bound) with non-random iterator //************************************************************************* TEST(ranges_next_bound_non_random) { int data[] = {0, 1, 2, 3, 4, 5, 6, 7, 8, 9}; non_random_iterator itr(&data[0]); non_random_sentinel bound(&data[5]); non_random_iterator result = etl::ranges::next(itr, bound); CHECK_EQUAL(5, *result); CHECK_EQUAL(0, *itr); // original unchanged } //************************************************************************* // etl::ranges::next(i, bound) already at bound //************************************************************************* TEST(ranges_next_bound_already_at_bound) { int data[] = {0, 1, 2, 3, 4, 5, 6, 7, 8, 9}; int* itr = &data[4]; int* bound = &data[4]; int* result = etl::ranges::next(itr, bound); CHECK(result == bound); CHECK_EQUAL(4, *result); } //************************************************************************* // etl::ranges::next(i, n, bound) with random access iterator — not reaching // bound //************************************************************************* TEST(ranges_next_n_bound_random_access_not_reaching_bound) { int data[] = {0, 1, 2, 3, 4, 5, 6, 7, 8, 9}; int* itr = &data[0]; int* bound = &data[9]; int* result = etl::ranges::next(itr, 4, bound); CHECK_EQUAL(4, *result); CHECK_EQUAL(0, *itr); // original unchanged } //************************************************************************* // etl::ranges::next(i, n, bound) with random access iterator — reaching // bound //************************************************************************* TEST(ranges_next_n_bound_random_access_reaching_bound) { int data[] = {0, 1, 2, 3, 4, 5, 6, 7, 8, 9}; int* itr = &data[0]; int* bound = &data[3]; int* result = etl::ranges::next(itr, 7, bound); CHECK(result == bound); CHECK_EQUAL(3, *result); } //************************************************************************* // etl::ranges::next(i, n, bound) with random access iterator — exact bound //************************************************************************* TEST(ranges_next_n_bound_random_access_exact_bound) { int data[] = {0, 1, 2, 3, 4, 5, 6, 7, 8, 9}; int* itr = &data[0]; int* bound = &data[5]; int* result = etl::ranges::next(itr, 5, bound); CHECK(result == bound); CHECK_EQUAL(5, *result); } //************************************************************************* // etl::ranges::next(i, n, bound) with random access iterator — backward not // reaching bound //************************************************************************* TEST(ranges_next_n_bound_random_access_backward_not_reaching_bound) { int data[] = {0, 1, 2, 3, 4, 5, 6, 7, 8, 9}; int* itr = &data[9]; int* bound = &data[0]; int* result = etl::ranges::next(itr, -4, bound); CHECK_EQUAL(5, *result); } //************************************************************************* // etl::ranges::next(i, n, bound) with random access iterator — backward // reaching bound //************************************************************************* TEST(ranges_next_n_bound_random_access_backward_reaching_bound) { int data[] = {0, 1, 2, 3, 4, 5, 6, 7, 8, 9}; int* itr = &data[5]; int* bound = &data[2]; int* result = etl::ranges::next(itr, -7, bound); CHECK(result == bound); CHECK_EQUAL(2, *result); } //************************************************************************* // etl::ranges::next(i, n, bound) with random access iterator — zero steps //************************************************************************* TEST(ranges_next_n_bound_random_access_zero_steps) { int data[] = {0, 1, 2, 3, 4, 5, 6, 7, 8, 9}; int* itr = &data[5]; int* bound = &data[8]; int* result = etl::ranges::next(itr, 0, bound); CHECK_EQUAL(5, *result); } //************************************************************************* // etl::ranges::next(i, n, bound) with non-random iterator — forward not // reaching bound //************************************************************************* TEST(ranges_next_n_bound_non_random_forward_not_reaching_bound) { int data[] = {0, 1, 2, 3, 4, 5, 6, 7, 8, 9}; non_random_iterator itr(&data[0]); non_random_sentinel bound(&data[9]); non_random_iterator result = etl::ranges::next(itr, 4, bound); CHECK_EQUAL(4, *result); } //************************************************************************* // etl::ranges::next(i, n, bound) with non-random iterator — forward // reaching bound //************************************************************************* TEST(ranges_next_n_bound_non_random_forward_reaching_bound) { int data[] = {0, 1, 2, 3, 4, 5, 6, 7, 8, 9}; non_random_iterator itr(&data[0]); non_random_sentinel bound(&data[3]); non_random_iterator result = etl::ranges::next(itr, 7, bound); CHECK_EQUAL(3, *result); } //************************************************************************* // etl::ranges::next(i, n, bound) with non-random iterator — backward not // reaching bound //************************************************************************* TEST(ranges_next_n_bound_non_random_backward_not_reaching_bound) { int data[] = {0, 1, 2, 3, 4, 5, 6, 7, 8, 9}; non_random_iterator itr(&data[9]); non_random_sentinel bound(&data[0]); non_random_iterator result = etl::ranges::next(itr, -3, bound); CHECK_EQUAL(6, *result); } //************************************************************************* // etl::ranges::next(i, n, bound) with non-random iterator — backward // reaching bound //************************************************************************* TEST(ranges_next_n_bound_non_random_backward_reaching_bound) { int data[] = {0, 1, 2, 3, 4, 5, 6, 7, 8, 9}; non_random_iterator itr(&data[3]); non_random_sentinel bound(&data[1]); non_random_iterator result = etl::ranges::next(itr, -7, bound); CHECK_EQUAL(1, *result); } TEST(test_is_range) { std::vector vec; int arr[3]{}; int i{}; static_assert(etl::is_range_v == true, "Expected range"); static_assert(etl::is_range_v == true, "Expected range"); static_assert(etl::is_range_v == false, "Expected non range"); } #endif } } // namespace