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unit_test_framework.h
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unit_test_framework.h
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#ifndef UNIT_TEST_FRAMEWORK_H
#define UNIT_TEST_FRAMEWORK_H
#include <map>
#include <utility>
#include <string>
#include <iostream>
#include <sstream>
#include <cmath>
#include <memory>
#include <vector>
#include <typeinfo>
#include <type_traits>
#include <cstdlib>
#include <iterator>
#include <algorithm>
#include <exception>
#include <stdexcept>
// For compatibility with Visual Studio
#include <ciso646>
// Place the following line of code in your test file to generate a
// main() function:
// TEST_MAIN()
using Test_func_t = void (*)();
#define TEST(name) \
static void name(); \
static TestRegisterer register_##name((#name), name); \
static void name()
#define TEST_MAIN() \
int main(int argc, char** argv) { \
return TestSuite::get().run_tests(argc, argv); \
} \
TEST_SUITE_INSTANCE();
struct TestCase {
TestCase(const std::string& name_, Test_func_t test_func_)
: name(name_), test_func(test_func_) {}
void run(bool quiet_mode);
void print(bool quiet_mode);
std::string name;
Test_func_t test_func;
std::string failure_msg{};
std::string exception_msg{};
};
class TestSuite {
public:
static TestSuite& get() {
if (not instance) {
instance = new TestSuite;
}
return *instance;
}
void add_test(const std::string& test_name, Test_func_t test) {
tests_.insert({test_name, TestCase{test_name, test}});
}
int run_tests(int argc, char** argv);
void print_results();
void enable_quiet_mode() {
quiet_mode = true;
}
std::ostream& print_test_names(std::ostream& os) {
for (const auto& test_pair : tests_) {
os << test_pair.first << '\n';
}
return os;
}
friend class TestSuiteDestroyer;
private:
TestSuite() {
auto func = []() {
if (TestSuite::incomplete) {
std::cout << "ERROR: premature call to exit()" << std::endl;
std::abort();
}
};
std::atexit(func);
#ifdef _GLIBCXX_HAVE_AT_QUICK_EXIT
std::at_quick_exit(func);
#endif
}
TestSuite(const TestSuite&) = delete;
bool operator=(const TestSuite&) = delete;
~TestSuite() {}
std::vector<std::string> get_test_names_to_run(int argc, char** argv);
static TestSuite* instance;
std::map<std::string, TestCase> tests_;
bool quiet_mode = false;
static bool incomplete;
};
class TestSuiteDestroyer {
public:
~TestSuiteDestroyer() {
delete TestSuite::instance;
}
};
class TestRegisterer {
public:
TestRegisterer(const std::string& test_name, Test_func_t test) {
TestSuite::get().add_test(test_name, test);
}
};
class TestFailure {
public:
TestFailure(std::string reason, int line_number)
: reason_m(move(reason)), line_number_m(line_number) {}
std::ostream& print(std::ostream& os) const {
os << "In test " << test_name_m << ", line " << line_number_m << ": \n"
<< reason_m << '\n';
return os;
}
void set_test_name(std::string test_name) {
test_name_m = move(test_name);
}
std::string to_string() const {
std::ostringstream oss;
print(oss);
return oss.str();
}
private:
std::string test_name_m;
std::string reason_m;
int line_number_m;
};
std::ostream& operator<<(std::ostream& os, const TestFailure& test_failure);
// ----------------------------------------------------------------------------
// demangle, print_helper, and print contributed by Amir Kamil <[email protected]>
// Demangles a string produced by std::type_info::name.
std::string demangle(const char* typeinfo_name);
// forward declaration of print
template <class T>
std::ostream& print(std::ostream& os, const T& t);
// This version of print_helper will be called when T has an available
// stream insertion operator overload.
template <class T>
auto print_helper(std::ostream& os, const T& t, int, int)
-> decltype(os << t)& {
return os << t;
}
// This version of print_helper will be called when T is a pair.
template <class First, class Second>
auto print_helper(std::ostream& os, const std::pair<First, Second>& t, int,
int) -> decltype(print(os, t.first), print(os, t.second))& {
os << '(';
print(os, t.first);
os << ',';
print(os, t.second);
return os << ')';
}
// This version of print_helper will be called when T is a sequence.
template <class Sequence>
auto print_helper(std::ostream& os, const Sequence& seq, int, ...)
-> decltype(print(os, *seq.begin()), print(os, *seq.end()))& {
if (seq.begin() == seq.end()) {
return os << "{}";
}
auto it = seq.begin();
os << "{ ";
print(os, *it);
for (++it; it != seq.end(); ++it) {
os << ", ";
print(os, *it);
}
return os << " }";
}
// This version of print_helper will be called when T is an array.
template <class Elem, std::size_t N>
std::ostream& print_helper(std::ostream& os, const Elem (&arr)[N], int, int) {
if (N == 0) {
return os << "{}";
}
auto it = std::begin(arr);
os << "{ ";
print(os, *it);
for (++it; it != std::end(arr); ++it) {
os << ", ";
print(os, *it);
}
return os << " }";
}
// This version of print_helper will be called when T does not have an
// available stream insertion operator overload.
template <class T>
std::ostream& print_helper(std::ostream& os, const T&, ...) {
return os << "<" << demangle(typeid(T).name()) << " object>";
}
// Attempts to print the given object to the given stream.
// If T has an available stream insertion operator overload, that
// operator is used. Otherwise, a generic representation of the object
// is printed to os.
template <class T>
std::ostream& print(std::ostream& os, const T& t) {
// The extra parameters are needed so that the first overload of
// print_helper is preferred, followed by the third one.
return print_helper(os, t, 0, 0);
}
// ----------------------------------------------------------------------------
template <typename First, typename Second>
void assert_equal(First&& first, Second&& second, int line_number);
template <typename First, typename Second>
void assert_not_equal(First&& first, Second&& second, int line_number);
void assert_true(bool value, int line_number);
void assert_false(bool value, int line_number);
void assert_almost_equal(double first, double second, double precision,
int line_number);
#define ASSERT_EQUAL(first, second) assert_equal((first), (second), __LINE__);
#define ASSERT_NOT_EQUAL(first, second) \
assert_not_equal((first), (second), __LINE__);
#define ASSERT_SEQUENCE_EQUAL(first, second) \
assert_sequence_equal((first), (second), __LINE__);
#define ASSERT_TRUE(value) assert_true((value), __LINE__);
#define ASSERT_FALSE(value) assert_false((value), __LINE__);
#define ASSERT_ALMOST_EQUAL(first, second, precision) \
assert_almost_equal((first), (second), (precision), __LINE__);
// Template logic to produce a static assertion failure when comparing
// incomparable types.
template <typename First, typename Second, typename = void>
struct is_equality_comparable : std::false_type {};
template <typename First, typename Second>
using enable_if_equality_comparable = typename std::enable_if<
std::is_same<bool, decltype(std::declval<First>() ==
std::declval<Second>())>::value and
std::is_same<bool, decltype(std::declval<First>() !=
std::declval<Second>())>::value and
(!std::is_array<typename std::remove_reference<First>::type>::value or
!std::is_array<typename std::remove_reference<Second>::type>::value),
void>::type;
template <typename First, typename Second>
struct is_equality_comparable<First, Second,
enable_if_equality_comparable<First, Second>>
: std::true_type {};
template <typename First, typename Second, typename = void>
struct safe_equals {
static_assert(is_equality_comparable<First, Second>::value,
"types cannot be compared with == and !=");
static bool equals(const First& first, const Second& second) {
return first == second;
}
static bool not_equals(const First& first, const Second& second) {
return first != second;
}
};
// Specializations to allow size_t to be compared to int.
template <>
struct safe_equals<std::size_t, int> {
static bool equals(std::size_t first, int second) {
return static_cast<long long>(first) == second;
}
};
template <>
struct safe_equals<int, std::size_t> {
static bool equals(int first, std::size_t second) {
return first == static_cast<long long>(second);
}
};
template <typename First, typename Second>
void assert_equal(First&& first, Second&& second, int line_number) {
if (safe_equals<First, Second>::equals(first, second)) {
return;
}
std::ostringstream reason;
print(reason, first);
reason << " != ";
print(reason, second);
throw TestFailure(reason.str(), line_number);
}
template <typename First, typename Second>
void assert_not_equal(First&& first, Second&& second, int line_number) {
if (safe_equals<First, Second>::not_equals(first, second)) {
return;
}
std::ostringstream reason;
reason << "Values unexpectedly equal: ";
print(reason, first);
reason << " == ";
print(reason, second);
throw TestFailure(reason.str(), line_number);
}
template <typename First, typename Second>
void assert_sequence_equal(First&& first, Second&& second, int line_number) {
using std::begin;
using std::end;
auto it1 = begin(first);
auto it2 = begin(second);
auto end1 = end(first);
auto end2 = end(second);
bool equal = true;
for (; it1 != end1 and it2 != end2; ++it1, ++it2) {
if (not safe_equals<decltype(*it1), decltype(*it2)>::equals(
*it1, *it2)) {
equal = false;
break;
}
}
if (not equal or it1 != end1 or
it2 != end2) { // different number of elements
std::ostringstream reason;
print(reason, first);
reason << " != ";
print(reason, second);
throw TestFailure(reason.str(), line_number);
}
}
//------------------------------------------------------------------------------
// THIS IS PART OF A WORKAROUND TO DEAL WITH STATIC
// INITIALIZATION SHENANIGANS.
// DO NOT CHANGE THIS UNLESS YOU REEEEALLY KNOW WHAT
// YOU'RE DOING. CONTACT [email protected] or [email protected] IF
// YOU HAVE QUESTIONS ABOUT THIS.
#define TEST_SUITE_INSTANCE() \
static TestSuiteDestroyer destroyer; \
bool TestSuite::incomplete = false; \
TestSuite* TestSuite::instance = &TestSuite::get()
void TestCase::run(bool quiet_mode) {
try {
if (not quiet_mode) {
std::cout << "Running test: " << name << std::endl;
}
test_func();
if (not quiet_mode) {
std::cout << "PASS" << std::endl;
}
}
catch (TestFailure& failure) {
failure_msg = failure.to_string();
if (not quiet_mode) {
std::cout << "FAIL" << std::endl;
}
}
catch (std::exception& e) {
std::ostringstream oss;
oss << "Uncaught " << demangle(typeid(e).name()) << " in test \""
<< name << "\": \n";
oss << e.what() << '\n';
exception_msg = oss.str();
if (not quiet_mode) {
std::cout << "ERROR" << std::endl;
}
}
}
void TestCase::print(bool quiet_mode) {
if (quiet_mode) {
std::cout << name << ": ";
}
else {
std::cout << "** Test case \"" << name << "\": ";
}
if (not failure_msg.empty()) {
std::cout << "FAIL" << std::endl;
if (not quiet_mode) {
std::cout << failure_msg << std::endl;
}
}
else if (not exception_msg.empty()) {
std::cout << "ERROR" << std::endl;
if (not quiet_mode) {
std::cout << exception_msg << std::endl;
}
}
else {
std::cout << "PASS" << std::endl;
}
}
// ----------------------------------------------------------------------------
class ExitSuite : public std::exception {
public:
ExitSuite(int status_ = 0) : status(status_) {}
int status;
};
class SetComplete {
public:
SetComplete(bool& incomplete_) : incomplete(incomplete_) {
incomplete = true;
}
~SetComplete() {
incomplete = false;
}
private:
bool& incomplete;
};
int TestSuite::run_tests(int argc, char** argv) {
SetComplete completer(TestSuite::incomplete);
std::vector<std::string> test_names_to_run;
try {
test_names_to_run = get_test_names_to_run(argc, argv);
}
catch (ExitSuite& e) {
return e.status;
}
for (auto test_name : test_names_to_run) {
if (tests_.find(test_name) == end(tests_)) {
throw std::runtime_error("Test " + test_name + " not found");
}
}
for (auto test_name : test_names_to_run) {
tests_.at(test_name).run(quiet_mode);
}
std::cout << "\n*** Results ***" << std::endl;
for (auto test_name : test_names_to_run) {
tests_.at(test_name).print(quiet_mode);
}
auto num_failures =
std::count_if(tests_.begin(), tests_.end(),
[](std::pair<std::string, TestCase> test_pair) {
return not test_pair.second.failure_msg.empty();
});
auto num_errors =
std::count_if(tests_.begin(), tests_.end(),
[](std::pair<std::string, TestCase> test_pair) {
return not test_pair.second.exception_msg.empty();
});
if (not quiet_mode) {
std::cout << "*** Summary ***" << std::endl;
std::cout << "Out of " << test_names_to_run.size()
<< " tests run:" << std::endl;
std::cout << num_failures << " failure(s), " << num_errors
<< " error(s)" << std::endl;
}
if (num_failures == 0 and num_errors == 0) {
return 0;
}
return 1;
}
std::vector<std::string> TestSuite::get_test_names_to_run(int argc,
char** argv) {
std::vector<std::string> test_names_to_run;
for (auto i = 1; i < argc; ++i) {
if (argv[i] == std::string("--show_test_names") or
argv[i] == std::string("-n")) {
TestSuite::get().print_test_names(std::cout);
std::cout << std::flush;
throw ExitSuite();
}
else if (argv[i] == std::string("--quiet") or
argv[i] == std::string("-q")) {
TestSuite::get().enable_quiet_mode();
}
else if (argv[i] == std::string("--help") or
argv[i] == std::string("-h")) {
std::cout << "usage: " << argv[0]
<< " [-h] [-n] [-q] [[TEST_NAME] ...]\n";
std::cout
<< "optional arguments:\n"
<< " -h, --help\t\t show this help message and exit\n"
<< " -n, --show_test_names\t print the names of all "
"discovered test cases and exit\n"
<< " -q, --quiet\t\t print a reduced summary of test results\n"
<< " TEST_NAME ...\t\t run only the test cases whose names "
"are "
"listed here. Note: If no test names are specified, all "
"discovered tests are run by default."
<< std::endl;
throw ExitSuite();
}
else {
test_names_to_run.push_back(argv[i]);
}
}
if (test_names_to_run.empty()) {
transform(
begin(tests_), end(tests_), back_inserter(test_names_to_run),
[](const std::pair<std::string, TestCase>& p) { return p.first; });
}
return test_names_to_run;
}
std::ostream& operator<<(std::ostream& os, const TestFailure& test_failure) {
return test_failure.print(os);
}
//------------------------------------------------------------------------------
#if defined(__clang__) || defined(__GLIBCXX__) || defined(__GLIBCPP__)
#include <cxxabi.h>
#include <cstdlib>
std::string demangle(const char* typeinfo_name) {
int status = 0;
char* demangled =
abi::__cxa_demangle(typeinfo_name, nullptr, nullptr, &status);
if (status == 0) {
std::string result = demangled;
std::free(demangled);
return result;
}
else {
return typeinfo_name;
}
}
#else
std::string demangle(const char* typeinfo_name) {
return typeinfo_name;
}
#endif // defined(__clang__) || defined(__GLIBCXX__) || defined(__GLIBCPP__)
//------------------------------------------------------------------------------
void assert_true(bool value, int line_number) {
if (value) {
return;
}
std::ostringstream reason;
reason << "Expected true, but was false";
throw TestFailure(reason.str(), line_number);
}
void assert_false(bool value, int line_number) {
if (not value) {
return;
}
std::ostringstream reason;
reason << "Expected false, but was true";
throw TestFailure(reason.str(), line_number);
}
void assert_almost_equal(double first, double second, double precision,
int line_number) {
if (std::abs(first - second) <= precision) {
return;
}
std::ostringstream reason;
// For now, we'll just set the precision arbitrarily high.
// In the future, we may decide to add an option to configure
// the output precision.
reason.precision(20);
reason << "Values too far apart: " << first << " and " << second;
throw TestFailure(reason.str(), line_number);
}
#endif // UNIT_TEST_FRAMEWORK_H