// Copyright (c) 2015-2022 The Bitcoin Core developers // Distributed under the MIT software license, see the accompanying // file COPYING or http://www.opensource.org/licenses/mit-license.php. #include #include #include #include #include #include #include #include BOOST_FIXTURE_TEST_SUITE(prevector_tests, TestingSetup) template class prevector_tester { typedef std::vector realtype; realtype real_vector; realtype real_vector_alt; typedef prevector pretype; pretype pre_vector; pretype pre_vector_alt; typedef typename pretype::size_type Size; bool passed = true; FastRandomContext rand_cache; uint256 rand_seed; template void local_check_equal(A a, B b) { local_check(a == b); } void local_check(bool b) { passed &= b; } void test() { const pretype& const_pre_vector = pre_vector; local_check_equal(real_vector.size(), pre_vector.size()); local_check_equal(real_vector.empty(), pre_vector.empty()); for (Size s = 0; s < real_vector.size(); s++) { local_check(real_vector[s] == pre_vector[s]); local_check(&(pre_vector[s]) == &(pre_vector.begin()[s])); local_check(&(pre_vector[s]) == &*(pre_vector.begin() + s)); local_check(&(pre_vector[s]) == &*((pre_vector.end() + s) - real_vector.size())); } // local_check(realtype(pre_vector) == real_vector); local_check(pretype(real_vector.begin(), real_vector.end()) == pre_vector); local_check(pretype(pre_vector.begin(), pre_vector.end()) == pre_vector); size_t pos = 0; for (const T& v : pre_vector) { local_check(v == real_vector[pos++]); } for (const T& v : pre_vector | std::views::reverse) { local_check(v == real_vector[--pos]); } for (const T& v : const_pre_vector) { local_check(v == real_vector[pos++]); } for (const T& v : const_pre_vector | std::views::reverse) { local_check(v == real_vector[--pos]); } DataStream ss1{}; DataStream ss2{}; ss1 << real_vector; ss2 << pre_vector; local_check_equal(ss1.size(), ss2.size()); for (Size s = 0; s < ss1.size(); s++) { local_check_equal(ss1[s], ss2[s]); } } public: void resize(Size s) { real_vector.resize(s); local_check_equal(real_vector.size(), s); pre_vector.resize(s); local_check_equal(pre_vector.size(), s); test(); } void reserve(Size s) { real_vector.reserve(s); local_check(real_vector.capacity() >= s); pre_vector.reserve(s); local_check(pre_vector.capacity() >= s); test(); } void insert(Size position, const T& value) { real_vector.insert(real_vector.begin() + position, value); pre_vector.insert(pre_vector.begin() + position, value); test(); } void insert(Size position, Size count, const T& value) { real_vector.insert(real_vector.begin() + position, count, value); pre_vector.insert(pre_vector.begin() + position, count, value); test(); } template void insert_range(Size position, I first, I last) { real_vector.insert(real_vector.begin() + position, first, last); pre_vector.insert(pre_vector.begin() + position, first, last); test(); } void erase(Size position) { real_vector.erase(real_vector.begin() + position); pre_vector.erase(pre_vector.begin() + position); test(); } void erase(Size first, Size last) { real_vector.erase(real_vector.begin() + first, real_vector.begin() + last); pre_vector.erase(pre_vector.begin() + first, pre_vector.begin() + last); test(); } void update(Size pos, const T& value) { real_vector[pos] = value; pre_vector[pos] = value; test(); } void push_back(const T& value) { real_vector.push_back(value); pre_vector.push_back(value); test(); } void pop_back() { real_vector.pop_back(); pre_vector.pop_back(); test(); } void clear() { real_vector.clear(); pre_vector.clear(); } void assign(Size n, const T& value) { real_vector.assign(n, value); pre_vector.assign(n, value); } Size size() const { return real_vector.size(); } Size capacity() const { return pre_vector.capacity(); } void shrink_to_fit() { pre_vector.shrink_to_fit(); test(); } void swap() noexcept { real_vector.swap(real_vector_alt); pre_vector.swap(pre_vector_alt); test(); } void move() { real_vector = std::move(real_vector_alt); real_vector_alt.clear(); pre_vector = std::move(pre_vector_alt); pre_vector_alt.clear(); } void copy() { real_vector = real_vector_alt; pre_vector = pre_vector_alt; } void resize_uninitialized(realtype values) { size_t r = values.size(); size_t s = real_vector.size() / 2; if (real_vector.capacity() < s + r) { real_vector.reserve(s + r); } real_vector.resize(s); pre_vector.resize_uninitialized(s); for (auto v : values) { real_vector.push_back(v); } auto p = pre_vector.size(); pre_vector.resize_uninitialized(p + r); for (auto v : values) { pre_vector[p] = v; ++p; } test(); } ~prevector_tester() { BOOST_CHECK_MESSAGE(passed, "insecure_rand: " + rand_seed.ToString()); } prevector_tester() { SeedRandomForTest(); rand_seed = InsecureRand256(); rand_cache.Reseed(rand_seed); } }; BOOST_AUTO_TEST_CASE(PrevectorTestInt) { for (int j = 0; j < 64; j++) { prevector_tester<8, int> test; for (int i = 0; i < 2048; i++) { if (InsecureRandBits(2) == 0) { test.insert(InsecureRandRange(test.size() + 1), int(InsecureRand32())); } if (test.size() > 0 && InsecureRandBits(2) == 1) { test.erase(InsecureRandRange(test.size())); } if (InsecureRandBits(3) == 2) { int new_size = std::max(0, std::min(30, (int)test.size() + (int)InsecureRandRange(5) - 2)); test.resize(new_size); } if (InsecureRandBits(3) == 3) { test.insert(InsecureRandRange(test.size() + 1), 1 + InsecureRandBool(), int(InsecureRand32())); } if (InsecureRandBits(3) == 4) { int del = std::min(test.size(), 1 + (InsecureRandBool())); int beg = InsecureRandRange(test.size() + 1 - del); test.erase(beg, beg + del); } if (InsecureRandBits(4) == 5) { test.push_back(int(InsecureRand32())); } if (test.size() > 0 && InsecureRandBits(4) == 6) { test.pop_back(); } if (InsecureRandBits(5) == 7) { int values[4]; int num = 1 + (InsecureRandBits(2)); for (int k = 0; k < num; k++) { values[k] = int(InsecureRand32()); } test.insert_range(InsecureRandRange(test.size() + 1), values, values + num); } if (InsecureRandBits(5) == 8) { int del = std::min(test.size(), 1 + (InsecureRandBits(2))); int beg = InsecureRandRange(test.size() + 1 - del); test.erase(beg, beg + del); } if (InsecureRandBits(5) == 9) { test.reserve(InsecureRandBits(5)); } if (InsecureRandBits(6) == 10) { test.shrink_to_fit(); } if (test.size() > 0) { test.update(InsecureRandRange(test.size()), int(InsecureRand32())); } if (InsecureRandBits(10) == 11) { test.clear(); } if (InsecureRandBits(9) == 12) { test.assign(InsecureRandBits(5), int(InsecureRand32())); } if (InsecureRandBits(3) == 3) { test.swap(); } if (InsecureRandBits(4) == 8) { test.copy(); } if (InsecureRandBits(5) == 18) { test.move(); } if (InsecureRandBits(5) == 19) { unsigned int num = 1 + (InsecureRandBits(4)); std::vector values(num); for (int& v : values) { v = int(InsecureRand32()); } test.resize_uninitialized(values); } } } } BOOST_AUTO_TEST_SUITE_END()