dynarmic/tests/SelfTest/TestRegistrations.cpp
Merry 6879e5bb1c Squashed 'externals/catch/' content from commit ab6c7375b
git-subtree-dir: externals/catch
git-subtree-split: ab6c7375be9a8e71ee84c6f8537113f9f47daf99
2022-12-31 17:28:39 +00:00

181 lines
6.6 KiB
C++

// Copyright Catch2 Authors
// Distributed under the Boost Software License, Version 1.0.
// (See accompanying file LICENSE.txt or copy at
// https://www.boost.org/LICENSE_1_0.txt)
// SPDX-License-Identifier: BSL-1.0
#include <catch2/catch_tag_alias_autoregistrar.hpp>
#include <catch2/reporters/catch_reporter_event_listener.hpp>
#include <catch2/internal/catch_enforce.hpp>
#include <catch2/catch_test_case_info.hpp>
#include <catch2/reporters/catch_reporter_registrars.hpp>
// Some example tag aliases
CATCH_REGISTER_TAG_ALIAS("[@nhf]", "[failing]~[.]")
CATCH_REGISTER_TAG_ALIAS("[@tricky]", "[tricky]~[.]")
#ifdef __clang__
# pragma clang diagnostic ignored "-Wpadded"
# pragma clang diagnostic ignored "-Wweak-vtables"
# pragma clang diagnostic ignored "-Wc++98-compat"
#endif
/**
* Event listener that internally counts and validates received events.
*
* Currently only performs validation by counting received events, rather
* than performing full matching. This means that it won't fail if the *Ended
* events are provided in wrong order, as long as they come in the right amount
* and with the right nesting.
*/
class ValidatingTestListener : public Catch::EventListenerBase {
struct EventCounter {
int starting = 0;
int ended = 0;
bool hasActiveEvent() const {
return starting > ended;
}
bool hasSingleActiveEvent() const {
return starting - 1 == ended;
}
bool allEventsEnded() const {
return starting == ended;
}
};
public:
static std::string getDescription() {
return "Validates ordering of Catch2's listener events";
}
ValidatingTestListener(Catch::IConfig const* config) :
EventListenerBase(config) {
m_preferences.shouldReportAllAssertions = true;
}
void testRunStarting( Catch::TestRunInfo const& ) override {
CATCH_ENFORCE( m_testRunCounter.starting == 0,
"Test run can only start once" );
++m_testRunCounter.starting;
}
void testCaseStarting(Catch::TestCaseInfo const&) override {
CATCH_ENFORCE( m_testRunCounter.hasActiveEvent(),
"Test case can only be started if the test run has already started" );
CATCH_ENFORCE( m_testCaseCounter.allEventsEnded(),
"Test case cannot start if there is an unfinished one" );
++m_testCaseCounter.starting;
// Reset the part tracking for partial test case events
m_lastSeenPartNumber = uint64_t(-1);
}
void testCasePartialStarting(Catch::TestCaseInfo const&,
uint64_t partNumber) override {
CATCH_ENFORCE( m_testCaseCounter.hasSingleActiveEvent(),
"Test case can only be partially started if the test case has fully started already" );
CATCH_ENFORCE( m_lastSeenPartNumber + 1 == partNumber,
"Partial test case started out of order" );
++m_testCasePartialCounter.starting;
m_lastSeenPartNumber = partNumber;
}
void sectionStarting(Catch::SectionInfo const&) override {
CATCH_ENFORCE( m_testCaseCounter.hasSingleActiveEvent(),
"Section can only start in a test case" );
CATCH_ENFORCE( m_testCasePartialCounter.hasSingleActiveEvent(),
"Section can only start in a test case" );
++m_sectionCounter.starting;
}
void assertionStarting(Catch::AssertionInfo const&) override {
CATCH_ENFORCE( m_testCaseCounter.hasSingleActiveEvent(),
"Assertion can only start if test case is started" );
++m_assertionCounter.starting;
}
void assertionEnded(Catch::AssertionStats const&) override {
// todo:
// * Check that assertions are balanced
// * Check that assertions has started
++m_assertionCounter.ended;
}
void sectionEnded(Catch::SectionStats const&) override {
CATCH_ENFORCE( m_sectionCounter.hasActiveEvent(),
"Section ended without corresponding start" );
// TODO: Check that all assertions ended
++m_sectionCounter.ended;
}
void testCasePartialEnded(Catch::TestCaseStats const&,
uint64_t partNumber) override {
CATCH_ENFORCE( m_lastSeenPartNumber == partNumber,
"Partial test case ended out of order" );
CATCH_ENFORCE( m_testCasePartialCounter.hasSingleActiveEvent(),
"Partial test case ended without corresponding start" );
CATCH_ENFORCE( m_sectionCounter.allEventsEnded(),
"Partial test case ended with unbalanced sections" );
// TODO: Check that all assertions ended
++m_testCasePartialCounter.ended;
}
void testCaseEnded(Catch::TestCaseStats const&) override {
CATCH_ENFORCE( m_testCaseCounter.hasSingleActiveEvent(),
"Test case end is not matched with test case start" );
CATCH_ENFORCE( m_testCasePartialCounter.allEventsEnded(),
"A partial test case has not ended" );
CATCH_ENFORCE( m_sectionCounter.allEventsEnded(),
"Test case ended with unbalanced sections" );
// TODO: Check that all assertions ended
++m_testCaseCounter.ended;
}
void testRunEnded( Catch::TestRunStats const& ) override {
CATCH_ENFORCE( m_testRunCounter.hasSingleActiveEvent(),
"Test run end is not matched with test run start" );
CATCH_ENFORCE( m_testRunCounter.ended == 0,
"Test run can only end once" );
++m_testRunCounter.ended;
}
~ValidatingTestListener() override;
private:
EventCounter m_testRunCounter;
EventCounter m_testCaseCounter;
EventCounter m_testCasePartialCounter;
uint64_t m_lastSeenPartNumber = 0;
EventCounter m_sectionCounter;
EventCounter m_assertionCounter;
};
ValidatingTestListener::~ValidatingTestListener() {
// Throwing from noexcept destructor terminates, but we don't mind
// because this is test-only check and we don't need to try and recover
// from assumption violation here.
CATCH_ENFORCE( m_testRunCounter.ended < 2,
"Test run should be started at most once" );
CATCH_ENFORCE( m_testRunCounter.allEventsEnded(),
"The test run has not finished" );
CATCH_ENFORCE( m_testCaseCounter.allEventsEnded(),
"A test case did not finish" );
// TODO: other counters being balanced?
}
CATCH_REGISTER_LISTENER( ValidatingTestListener )