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fuchsia / third_party / android / platform / frameworks / native / refs/tags/android-12.0.0_r25 / . / libs / ftl / static_vector_test.cpp
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/*
* Copyright 2020 The Android Open Source Project
*
* 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 <ftl/static_vector.h>
#include <gtest/gtest.h>
#include <algorithm>
#include <iterator>
#include <string>
#include <utility>
using namespace std::string_literals;
namespace android::test {
using ftl::StaticVector;
// Keep in sync with example usage in header file.
TEST(StaticVector, Example) {
ftl::StaticVector<char, 3> vector;
EXPECT_TRUE(vector.empty());
vector = {'a', 'b'};
EXPECT_EQ(vector.size(), 2u);
vector.push_back('c');
EXPECT_TRUE(vector.full());
EXPECT_FALSE(vector.push_back('d'));
EXPECT_EQ(vector.size(), 3u);
vector.unstable_erase(vector.begin());
EXPECT_EQ(vector, (ftl::StaticVector{'c', 'b'}));
vector.pop_back();
EXPECT_EQ(vector.back(), 'c');
const char array[] = "hi";
vector = ftl::StaticVector(array);
EXPECT_EQ(vector, (ftl::StaticVector{'h', 'i', '\0'}));
ftl::StaticVector strings = ftl::init::list<std::string>("abc")("123456", 3u)(3u, '?');
ASSERT_EQ(strings.size(), 3u);
EXPECT_EQ(strings[0], "abc");
EXPECT_EQ(strings[1], "123");
EXPECT_EQ(strings[2], "???");
}
TEST(StaticVector, Construct) {
{
// Default constructor.
StaticVector<std::string, 2> vector;
EXPECT_TRUE(vector.empty());
}
{
// Array constructor.
const float floats[] = {.1f, .2f, .3f};
StaticVector vector(floats);
EXPECT_EQ(vector, (StaticVector{.1f, .2f, .3f}));
}
{
// Iterator constructor.
const char chars[] = "abcdef";
std::string string(chars);
StaticVector<char, sizeof(chars)> vector(string.begin(), string.end());
EXPECT_STREQ(vector.begin(), chars);
}
{
// Variadic constructor with same types.
StaticVector vector = {1, 2, 3};
static_assert(std::is_same_v<decltype(vector), StaticVector<int, 3>>);
EXPECT_EQ(vector, (StaticVector{1, 2, 3}));
}
{
// Variadic constructor with different types.
const auto copy = "quince"s;
auto move = "tart"s;
StaticVector vector = {copy, std::move(move)};
static_assert(std::is_same_v<decltype(vector), StaticVector<std::string, 2>>);
EXPECT_EQ(vector, (StaticVector{"quince"s, "tart"s}));
}
{
// In-place constructor with same types.
StaticVector vector =
ftl::init::list<std::string>("redolent", 3u)("velveteen", 6u)("cakewalk", 4u);
static_assert(std::is_same_v<decltype(vector), StaticVector<std::string, 3>>);
EXPECT_EQ(vector, (StaticVector{"red"s, "velvet"s, "cake"s}));
}
{
// In-place constructor with different types.
const auto copy = "red"s;
auto move = "velvet"s;
std::initializer_list<char> list = {'c', 'a', 'k', 'e'};
StaticVector vector = ftl::init::list<std::string>(copy.c_str())(std::move(move))(list);
static_assert(std::is_same_v<decltype(vector), StaticVector<std::string, 3>>);
EXPECT_TRUE(move.empty());
EXPECT_EQ(vector, (StaticVector{"red"s, "velvet"s, "cake"s}));
}
{
struct String {
explicit String(const char* str) : str(str) {}
explicit String(const char** ptr) : str(*ptr) {}
const char* str;
};
const char* strings[] = {"a", "b", "c", "d"};
{
// Two iterator-like elements.
StaticVector<String, 3> vector(strings, strings + 3);
ASSERT_EQ(vector.size(), 2u);
EXPECT_STREQ(vector[0].str, "a");
EXPECT_STREQ(vector[1].str, "d");
}
{
// Disambiguating iterator constructor.
StaticVector<String, 3> vector(ftl::kIteratorRange, strings, strings + 3);
ASSERT_EQ(vector.size(), 3u);
EXPECT_STREQ(vector[0].str, "a");
EXPECT_STREQ(vector[1].str, "b");
EXPECT_STREQ(vector[2].str, "c");
}
}
}
TEST(StaticVector, String) {
StaticVector<char, 10> chars;
char c = 'a';
std::generate_n(std::back_inserter(chars), chars.max_size(), [&c] { return c++; });
chars.back() = '\0';
EXPECT_STREQ(chars.begin(), "abcdefghi");
// Constructor takes iterator range.
const char numbers[] = "123456";
StaticVector<char, 10> string(std::begin(numbers), std::end(numbers));
EXPECT_STREQ(string.begin(), "123456");
EXPECT_EQ(string.size(), 7u);
// Similar to emplace, but replaces rather than inserts.
string.replace(string.begin() + 5, '\0');
EXPECT_STREQ(string.begin(), "12345");
swap(chars, string);
EXPECT_STREQ(chars.begin(), "12345");
EXPECT_STREQ(string.begin(), "abcdefghi");
}
TEST(StaticVector, CopyableElement) {
struct Pair {
const int a, b;
bool operator==(Pair p) const { return p.a == a && p.b == b; }
};
StaticVector<Pair, 5> pairs;
EXPECT_TRUE(pairs.empty());
EXPECT_EQ(pairs.max_size(), 5u);
for (size_t i = 0; i < pairs.max_size(); ++i) {
EXPECT_EQ(pairs.size(), i);
const int a = static_cast<int>(i) * 2;
const auto it = pairs.emplace_back(a, a + 1);
ASSERT_NE(it, pairs.end());
EXPECT_EQ(*it, (Pair{a, a + 1}));
}
EXPECT_TRUE(pairs.full());
EXPECT_EQ(pairs.size(), 5u);
// Insertion fails if the vector is full.
const auto it = pairs.emplace_back(10, 11);
EXPECT_EQ(it, pairs.end());
EXPECT_EQ(pairs, (StaticVector{Pair{0, 1}, Pair{2, 3}, Pair{4, 5}, Pair{6, 7}, Pair{8, 9}}));
// Constructor takes at most N elements.
StaticVector<int, 6> sums = {0, 0, 0, 0, 0, -1};
EXPECT_TRUE(sums.full());
// Random-access iterators comply with standard.
std::transform(pairs.begin(), pairs.end(), sums.begin(), [](Pair p) { return p.a + p.b; });
EXPECT_EQ(sums, (StaticVector{1, 5, 9, 13, 17, -1}));
sums.pop_back();
std::reverse(sums.begin(), sums.end());
EXPECT_EQ(sums, (StaticVector{17, 13, 9, 5, 1}));
}
TEST(StaticVector, MovableElement) {
// Construct std::string elements in place from per-element arguments.
StaticVector strings = ftl::init::list<std::string>()()()("cake")("velvet")("red")();
strings.pop_back();
EXPECT_EQ(strings.max_size(), 7u);
EXPECT_EQ(strings.size(), 6u);
// Erase "cake" and append a substring copy.
{
auto it =
std::find_if(strings.begin(), strings.end(), [](const auto& s) { return !s.empty(); });
ASSERT_FALSE(it == strings.end());
EXPECT_EQ(*it, "cake");
strings.unstable_erase(it);
// Construct std::string from first 4 characters of string literal.
it = strings.emplace_back("cakewalk", 4u);
ASSERT_NE(it, strings.end());
EXPECT_EQ(*it, "cake"s);
}
strings[1] = "quince"s;
// Replace last empty string with "tart".
{
const auto rit = std::find(strings.rbegin(), strings.rend(), std::string());
ASSERT_FALSE(rit == strings.rend());
std::initializer_list<char> list = {'t', 'a', 'r', 't'};
strings.replace(rit.base() - 1, list);
}
strings.front().assign("pie");
EXPECT_EQ(strings, (StaticVector{"pie"s, "quince"s, "tart"s, "red"s, "velvet"s, "cake"s}));
}
TEST(StaticVector, Replace) {
// Replacing does not require a copy/move assignment operator.
struct Word {
explicit Word(std::string str) : str(std::move(str)) {}
const std::string str;
};
StaticVector words = ftl::init::list<Word>("red")("velour")("cake");
// The replaced element can be referenced by the replacement.
const auto it = words.begin() + 1;
const Word& word = words.replace(it, it->str.substr(0, 3) + "vet");
EXPECT_EQ(word.str, "velvet");
}
TEST(StaticVector, ReverseTruncate) {
StaticVector<std::string, 10> strings("pie", "quince", "tart", "red", "velvet", "cake");
EXPECT_FALSE(strings.full());
for (auto it = strings.begin(); it != strings.end(); ++it) {
strings.replace(it, strings.back());
strings.pop_back();
}
EXPECT_EQ(strings, (StaticVector{"cake"s, "velvet"s, "red"s}));
}
TEST(StaticVector, Sort) {
StaticVector<std::string, 7> strings("pie", "quince", "tart", "red", "velvet", "cake");
EXPECT_FALSE(strings.full());
auto sorted = std::move(strings);
EXPECT_TRUE(strings.empty());
std::sort(sorted.begin(), sorted.end());
EXPECT_EQ(sorted, (StaticVector{"cake"s, "pie"s, "quince"s, "red"s, "tart"s, "velvet"s}));
// Constructor takes array reference.
{
const char* array[] = {"cake", "lie"};
strings = StaticVector(array);
}
EXPECT_GT(sorted, strings);
swap(sorted, strings);
EXPECT_LT(sorted, strings);
// Append remaining elements, such that "pie" is the only difference.
for (const char* str : {"quince", "red", "tart", "velvet"}) {
sorted.emplace_back(str);
}
EXPECT_NE(sorted, strings);
// Replace second element with "pie".
const auto it = sorted.begin() + 1;
EXPECT_EQ(sorted.replace(it, 'p' + it->substr(1)), "pie");
EXPECT_EQ(sorted, strings);
}
namespace {
struct DestroyCounts {
DestroyCounts(int& live, int& dead) : counts{live, dead} {}
DestroyCounts(const DestroyCounts& other) : counts(other.counts) {}
DestroyCounts(DestroyCounts&& other) : counts(other.counts) { other.alive = false; }
~DestroyCounts() { ++(alive ? counts.live : counts.dead); }
struct {
int& live;
int& dead;
} counts;
bool alive = true;
};
void swap(DestroyCounts& lhs, DestroyCounts& rhs) {
std::swap(lhs.alive, rhs.alive);
}
} // namespace
TEST(StaticVector, Destroy) {
int live = 0;
int dead = 0;
{ StaticVector<DestroyCounts, 5> counts; }
EXPECT_EQ(0, live);
EXPECT_EQ(0, dead);
{
StaticVector<DestroyCounts, 5> counts;
counts.emplace_back(live, dead);
counts.emplace_back(live, dead);
counts.emplace_back(live, dead);
}
EXPECT_EQ(3, live);
EXPECT_EQ(0, dead);
live = 0;
{
StaticVector<DestroyCounts, 5> counts;
counts.emplace_back(live, dead);
counts.emplace_back(live, dead);
counts.emplace_back(live, dead);
auto copy = counts;
}
EXPECT_EQ(6, live);
EXPECT_EQ(0, dead);
live = 0;
{
StaticVector<DestroyCounts, 5> counts;
counts.emplace_back(live, dead);
counts.emplace_back(live, dead);
counts.emplace_back(live, dead);
auto move = std::move(counts);
}
EXPECT_EQ(3, live);
EXPECT_EQ(3, dead);
live = dead = 0;
{
StaticVector<DestroyCounts, 5> counts1;
counts1.emplace_back(live, dead);
counts1.emplace_back(live, dead);
counts1.emplace_back(live, dead);
StaticVector<DestroyCounts, 5> counts2;
counts2.emplace_back(live, dead);
swap(counts1, counts2);
EXPECT_EQ(0, live);
EXPECT_EQ(2, dead);
dead = 0;
}
EXPECT_EQ(4, live);
EXPECT_EQ(0, dead);
}
} // namespace android::test