/* * Copyright 2017 WebAssembly Community Group participants * * Licensed 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. */ #include "gtest/gtest.h" #include #include "wabt/circular-array.h" using namespace wabt; namespace { struct TestObject { static int construct_count; static int destruct_count; TestObject(int data = 0, int data2 = 0) : data(data), data2(data2) { construct_count++; } TestObject(const TestObject& other) { *this = other; construct_count++; } TestObject& operator=(const TestObject& other) { data = other.data; data2 = other.data2; return *this; } TestObject(TestObject&& other) { *this = std::move(other); } TestObject& operator=(TestObject&& other) { data = other.data; data2 = other.data2; other.moved = true; return *this; } ~TestObject() { if (!moved) { destruct_count++; } } int data = 0; int data2 = 0; bool moved = false; }; // static int TestObject::construct_count = 0; // static int TestObject::destruct_count = 0; class CircularArrayTest : public ::testing::Test { protected: virtual void SetUp() { // Reset to 0 even if the previous test leaked objects to keep the tests // independent. TestObject::construct_count = 0; TestObject::destruct_count = 0; } virtual void TearDown() { ASSERT_EQ(0, TestObject::construct_count - TestObject::destruct_count) << "construct count: " << TestObject::construct_count << ", destruct_count: " << TestObject::destruct_count; } template void AssertCircularArrayEq(const CircularArray& ca, const std::vector& expected) { if (expected.empty()) { ASSERT_EQ(0U, ca.size()); ASSERT_TRUE(ca.empty()); } else { ASSERT_EQ(expected.size(), ca.size()); ASSERT_FALSE(ca.empty()); ASSERT_EQ(expected.front(), ca.front().data); ASSERT_EQ(expected.back(), ca.back().data); for (size_t i = 0; i < ca.size(); ++i) { ASSERT_EQ(expected[i], ca.at(i).data); ASSERT_EQ(expected[i], ca[i].data); } } } }; } // end anonymous namespace // Basic API tests TEST_F(CircularArrayTest, default_constructor) { CircularArray ca; } TEST_F(CircularArrayTest, at) { CircularArray ca; ca.push_back(TestObject(1)); ca.push_back(TestObject(2)); ASSERT_EQ(1, ca.at(0).data); ASSERT_EQ(2, ca.at(1).data); } TEST_F(CircularArrayTest, const_at) { CircularArray ca; const auto& cca = ca; ca.push_back(TestObject(1)); ca.push_back(TestObject(2)); ASSERT_EQ(1, cca.at(0).data); ASSERT_EQ(2, cca.at(1).data); } TEST_F(CircularArrayTest, operator_brackets) { CircularArray ca; ca.push_back(TestObject(1)); ca.push_back(TestObject(2)); ASSERT_EQ(1, ca[0].data); ASSERT_EQ(2, ca[1].data); } TEST_F(CircularArrayTest, const_operator_brackets) { CircularArray ca; const auto& cca = ca; ca.push_back(TestObject(1)); ca.push_back(TestObject(2)); ASSERT_EQ(1, cca[0].data); ASSERT_EQ(2, cca[1].data); } TEST_F(CircularArrayTest, back) { CircularArray ca; ca.push_back(TestObject(1)); ASSERT_EQ(1, ca.back().data); ca.push_back(TestObject(2)); ASSERT_EQ(2, ca.back().data); } TEST_F(CircularArrayTest, const_back) { CircularArray ca; const auto& cca = ca; ca.push_back(TestObject(1)); ASSERT_EQ(1, cca.back().data); ca.push_back(TestObject(2)); ASSERT_EQ(2, cca.back().data); } TEST_F(CircularArrayTest, empty) { CircularArray ca; ASSERT_TRUE(ca.empty()); ca.push_back(TestObject(1)); ASSERT_FALSE(ca.empty()); ca.push_back(TestObject(2)); ASSERT_FALSE(ca.empty()); ca.pop_back(); ASSERT_FALSE(ca.empty()); ca.pop_back(); ASSERT_TRUE(ca.empty()); } TEST_F(CircularArrayTest, front) { CircularArray ca; ca.push_back(TestObject(1)); ASSERT_EQ(1, ca.front().data); ca.push_back(TestObject(2)); ASSERT_EQ(1, ca.front().data); } TEST_F(CircularArrayTest, const_front) { CircularArray ca; const auto& cca = ca; ca.push_back(TestObject(1)); ASSERT_EQ(1, cca.front().data); ca.push_back(TestObject(2)); ASSERT_EQ(1, cca.front().data); } TEST_F(CircularArrayTest, size) { CircularArray ca; ASSERT_EQ(0U, ca.size()); ca.push_back(TestObject(1)); ASSERT_EQ(1U, ca.size()); ca.push_back(TestObject(2)); ASSERT_EQ(2U, ca.size()); ca.pop_back(); ASSERT_EQ(1U, ca.size()); ca.pop_back(); ASSERT_EQ(0U, ca.size()); } TEST_F(CircularArrayTest, clear) { CircularArray ca; ca.push_back(TestObject(1)); ca.push_back(TestObject(2)); ASSERT_EQ(2U, ca.size()); ca.clear(); ASSERT_EQ(0U, ca.size()); } // More involved tests TEST_F(CircularArrayTest, circular) { CircularArray ca; ca.push_back(TestObject(1)); AssertCircularArrayEq(ca, {1}); ca.push_back(TestObject(2)); AssertCircularArrayEq(ca, {1, 2}); ca.push_back(TestObject(3)); AssertCircularArrayEq(ca, {1, 2, 3}); ca.pop_front(); AssertCircularArrayEq(ca, {2, 3}); ca.push_back(TestObject(4)); AssertCircularArrayEq(ca, {2, 3, 4}); ca.pop_front(); AssertCircularArrayEq(ca, {3, 4}); ca.pop_front(); AssertCircularArrayEq(ca, {4}); ca.push_back(TestObject(5)); AssertCircularArrayEq(ca, {4, 5}); ca.push_back(TestObject(6)); AssertCircularArrayEq(ca, {4, 5, 6}); ca.pop_back(); AssertCircularArrayEq(ca, {4, 5}); ca.pop_back(); AssertCircularArrayEq(ca, {4}); ca.pop_front(); AssertCircularArrayEq(ca, {}); }