// // Copyright (c) 2016-2019 Vinnie Falco (vinnie dot falco at gmail dot com) // // Distributed under the Boost Software License, Version 1.0. (See accompanying // file LICENSE_1_0.txt or copy at http://www.boost.org/LICENSE_1_0.txt) // // Official repository: https://github.com/boostorg/beast // #ifndef BOOST_BEAST_UNIT_TEST_RUNNER_H_INCLUDED #define BOOST_BEAST_UNIT_TEST_RUNNER_H_INCLUDED #include <boost/beast/_experimental/unit_test/suite_info.hpp> #include <boost/assert.hpp> #include <mutex> #include <ostream> #include <string> namespace boost { namespace beast { namespace unit_test { /** Unit test runner interface. Derived classes can customize the reporting behavior. This interface is injected into the unit_test class to receive the results of the tests. */ class runner { std::string arg_; bool default_ = false; bool failed_ = false; bool cond_ = false; std::recursive_mutex mutex_; public: runner() = default; virtual ~runner() = default; runner(runner const&) = delete; runner& operator=(runner const&) = delete; /** Set the argument string. The argument string is available to suites and allows for customization of the test. Each suite defines its own syntax for the argument string. The same argument is passed to all suites. */ void arg(std::string const& s) { arg_ = s; } /** Returns the argument string. */ std::string const& arg() const { return arg_; } /** Run the specified suite. @return `true` if any conditions failed. */ template<class = void> bool run(suite_info const& s); /** Run a sequence of suites. The expression `FwdIter::value_type` must be convertible to `suite_info`. @return `true` if any conditions failed. */ template<class FwdIter> bool run(FwdIter first, FwdIter last); /** Conditionally run a sequence of suites. pred will be called as: @code bool pred(suite_info const&); @endcode @return `true` if any conditions failed. */ template<class FwdIter, class Pred> bool run_if(FwdIter first, FwdIter last, Pred pred = Pred{}); /** Run all suites in a container. @return `true` if any conditions failed. */ template<class SequenceContainer> bool run_each(SequenceContainer const& c); /** Conditionally run suites in a container. pred will be called as: @code bool pred(suite_info const&); @endcode @return `true` if any conditions failed. */ template<class SequenceContainer, class Pred> bool run_each_if(SequenceContainer const& c, Pred pred = Pred{}); protected: /// Called when a new suite starts. virtual void on_suite_begin(suite_info const&) { } /// Called when a suite ends. virtual void on_suite_end() { } /// Called when a new case starts. virtual void on_case_begin(std::string const&) { } /// Called when a new case ends. virtual void on_case_end() { } /// Called for each passing condition. virtual void on_pass() { } /// Called for each failing condition. virtual void on_fail(std::string const&) { } /// Called when a test logs output. virtual void on_log(std::string const&) { } private: friend class suite; // Start a new testcase. template<class = void> void testcase(std::string const& name); template<class = void> void pass(); template<class = void> void fail(std::string const& reason); template<class = void> void log(std::string const& s); }; //------------------------------------------------------------------------------ template<class> bool runner::run(suite_info const& s) { // Enable 'default' testcase default_ = true; failed_ = false; on_suite_begin(s); s.run(*this); // Forgot to call pass or fail. BOOST_ASSERT(cond_); on_case_end(); on_suite_end(); return failed_; } template<class FwdIter> bool runner::run(FwdIter first, FwdIter last) { bool failed(false); for(;first != last; ++first) failed = run(*first) || failed; return failed; } template<class FwdIter, class Pred> bool runner::run_if(FwdIter first, FwdIter last, Pred pred) { bool failed(false); for(;first != last; ++first) if(pred(*first)) failed = run(*first) || failed; return failed; } template<class SequenceContainer> bool runner::run_each(SequenceContainer const& c) { bool failed(false); for(auto const& s : c) failed = run(s) || failed; return failed; } template<class SequenceContainer, class Pred> bool runner::run_each_if(SequenceContainer const& c, Pred pred) { bool failed(false); for(auto const& s : c) if(pred(s)) failed = run(s) || failed; return failed; } template<class> void runner::testcase(std::string const& name) { std::lock_guard<std::recursive_mutex> lock(mutex_); // Name may not be empty BOOST_ASSERT(default_ || ! name.empty()); // Forgot to call pass or fail BOOST_ASSERT(default_ || cond_); if(! default_) on_case_end(); default_ = false; cond_ = false; on_case_begin(name); } template<class> void runner::pass() { std::lock_guard<std::recursive_mutex> lock(mutex_); if(default_) testcase(""); on_pass(); cond_ = true; } template<class> void runner::fail(std::string const& reason) { std::lock_guard<std::recursive_mutex> lock(mutex_); if(default_) testcase(""); on_fail(reason); failed_ = true; cond_ = true; } template<class> void runner::log(std::string const& s) { std::lock_guard<std::recursive_mutex> lock(mutex_); if(default_) testcase(""); on_log(s); } } // unit_test } // beast } // boost #endif