/*
* Copyright (c) 2020, Matthew Olsson <mattco@serenityos.org>
* Copyright (c) 2020-2021, Linus Groh <linusg@serenityos.org>
* Copyright (c) 2021, Ali Mohammad Pur <mpfard@serenityos.org>
* Copyright (c) 2021, Andreas Kling <kling@serenityos.org>
* Copyright (c) 2023, Shannon Booth <shannon@serenityos.org>
*
* SPDX-License-Identifier: BSD-2-Clause
*/
#pragma once
#include <AK/ByteString.h>
#include <AK/Format.h>
#include <AK/JsonObject.h>
#include <AK/JsonValue.h>
#include <AK/LexicalPath.h>
#include <AK/QuickSort.h>
#include <AK/Vector.h>
#include <LibTest/Results.h>
#include <LibTest/TestRunnerUtil.h>
namespace Test {
class TestRunner {
public:
static TestRunner* the()
{
return s_the;
}
TestRunner(ByteString test_root, bool print_times, bool print_progress, bool print_json, bool detailed_json = false)
: m_test_root(move(test_root))
, m_print_times(print_times)
, m_print_progress(print_progress)
, m_print_json(print_json)
, m_detailed_json(detailed_json)
{
VERIFY(!s_the);
s_the = this;
}
virtual ~TestRunner() { s_the = nullptr; }
virtual void run(ByteString test_glob);
Test::Counts const& counts() const { return m_counts; }
bool is_printing_progress() const { return m_print_progress; }
bool needs_detailed_suites() const { return m_detailed_json; }
Vector<Test::Suite> const& suites() const { return *m_suites; }
Vector<Test::Suite>& ensure_suites()
{
if (!m_suites.has_value())
m_suites = Vector<Suite> {};
return *m_suites;
}
protected:
static TestRunner* s_the;
void print_test_results() const;
void print_test_results_as_json() const;
virtual Vector<ByteString> get_test_paths() const = 0;
virtual void do_run_single_test(ByteString const&, size_t current_test_index, size_t num_tests) = 0;
virtual Vector<ByteString> const* get_failed_test_names() const { return nullptr; }
ByteString m_test_root;
bool m_print_times;
bool m_print_progress;
bool m_print_json;
bool m_detailed_json;
double m_total_elapsed_time_in_ms { 0 };
Test::Counts m_counts;
Optional<Vector<Test::Suite>> m_suites;
};
inline void cleanup()
{
// Clear the taskbar progress.
if (TestRunner::the() && TestRunner::the()->is_printing_progress())
warn("\033]9;-1;\033\\");
}
[[noreturn]] inline void cleanup_and_exit()
{
cleanup();
exit(1);
}
inline void TestRunner::run(ByteString test_glob)
{
size_t progress_counter = 0;
auto test_paths = get_test_paths();
for (auto& path : test_paths) {
if (!path.matches(test_glob))
continue;
++progress_counter;
do_run_single_test(path, progress_counter, test_paths.size());
if (m_print_progress)
warn("\033]9;{};{};\033\\", progress_counter, test_paths.size());
}
if (m_print_progress)
warn("\033]9;-1;\033\\");
if (!m_print_json)
print_test_results();
else
print_test_results_as_json();
}
enum Modifier {
BG_RED,
BG_GREEN,
FG_RED,
FG_GREEN,
FG_ORANGE,
FG_GRAY,
FG_BLACK,
FG_BOLD,
ITALIC,
CLEAR,
};
inline void print_modifiers(Vector<Modifier> modifiers)
{
for (auto& modifier : modifiers) {
auto code = [&] {
switch (modifier) {
case BG_RED:
return "\033[41m";
case BG_GREEN:
return "\033[42m";
case FG_RED:
return "\033[31m";
case FG_GREEN:
return "\033[32m";
case FG_ORANGE:
return "\033[33m";
case FG_GRAY:
return "\033[90m";
case FG_BLACK:
return "\033[30m";
case FG_BOLD:
return "\033[1m";
case ITALIC:
return "\033[3m";
case CLEAR:
return "\033[0m";
}
VERIFY_NOT_REACHED();
}();
out("{}", code);
}
}
inline void TestRunner::print_test_results() const
{
out("\nTest Suites: ");
if (m_counts.suites_failed) {
print_modifiers({ FG_RED });
out("{} failed, ", m_counts.suites_failed);
print_modifiers({ CLEAR });
}
if (m_counts.suites_passed) {
print_modifiers({ FG_GREEN });
out("{} passed, ", m_counts.suites_passed);
print_modifiers({ CLEAR });
}
outln("{} total", m_counts.suites_failed + m_counts.suites_passed);
out("Tests: ");
if (m_counts.tests_failed) {
print_modifiers({ FG_RED });
out("{} failed, ", m_counts.tests_failed);
print_modifiers({ CLEAR });
}
if (m_counts.tests_skipped) {
print_modifiers({ FG_ORANGE });
out("{} skipped, ", m_counts.tests_skipped);
print_modifiers({ CLEAR });
}
if (m_counts.tests_expected_failed) {
print_modifiers({ FG_ORANGE });
out("{} expected failed, ", m_counts.tests_expected_failed);
print_modifiers({ CLEAR });
}
if (m_counts.tests_passed) {
print_modifiers({ FG_GREEN });
out("{} passed, ", m_counts.tests_passed);
print_modifiers({ CLEAR });
}
outln("{} total", m_counts.tests_failed + m_counts.tests_skipped + m_counts.tests_passed + m_counts.tests_expected_failed);
outln("Files: {} total", m_counts.files_total);
out("Time: ");
if (m_total_elapsed_time_in_ms < 1000.0) {
outln("{}ms", static_cast<int>(m_total_elapsed_time_in_ms));
} else {
outln("{:>.3}s", m_total_elapsed_time_in_ms / 1000.0);
}
if (auto* failed_tests = get_failed_test_names(); failed_tests && !failed_tests->is_empty()) {
outln("Failed tests: {}", *failed_tests);
}
outln();
}
inline void TestRunner::print_test_results_as_json() const
{
JsonObject root;
if (needs_detailed_suites()) {
auto& suites = this->suites();
u64 duration_us = 0;
JsonObject tests;
for (auto& suite : suites) {
for (auto& case_ : suite.tests) {
duration_us += case_.duration_us;
StringView result_name;
switch (case_.result) {
case Result::Pass:
result_name = "PASSED"sv;
break;
case Result::Fail:
result_name = "FAILED"sv;
break;
case Result::Skip:
result_name = "SKIPPED"sv;
break;
case Result::ExpectedFail:
result_name = "XFAIL"sv;
break;
case Result::Crashed:
result_name = "PROCESS_ERROR"sv;
break;
}
auto name = suite.name;
if (name == "__$$TOP_LEVEL$$__"sv)
name = ByteString::empty();
auto path = LexicalPath::relative_path(suite.path, m_test_root);
tests.set(ByteString::formatted("{}/{}::{}", path, name, case_.name), result_name);
}
}
root.set("duration", static_cast<double>(duration_us) / 1000000.);
root.set("results", move(tests));
} else {
JsonObject suites;
suites.set("failed", m_counts.suites_failed);
suites.set("passed", m_counts.suites_passed);
suites.set("total", m_counts.suites_failed + m_counts.suites_passed);
JsonObject tests;
tests.set("failed", m_counts.tests_failed);
tests.set("passed", m_counts.tests_passed);
tests.set("skipped", m_counts.tests_skipped);
tests.set("xfail", m_counts.tests_expected_failed);
tests.set("total", m_counts.tests_failed + m_counts.tests_passed + m_counts.tests_skipped + m_counts.tests_expected_failed);
JsonObject results;
results.set("suites", suites);
results.set("tests", tests);
root.set("results", results);
root.set("files_total", m_counts.files_total);
root.set("duration", m_total_elapsed_time_in_ms / 1000.0);
}
outln("{}", root.to_byte_string());
}
}