implemented test_suite

test/CMakeLists.txt

@@ -1,7 +1,10 @@
 cmake_minimum_required(VERSION 3.26)
 
+set(CMAKE_CXX_STANDARD 23)
+
 add_library(test_common INTERFACE)
 target_include_directories(test_common INTERFACE common_helper)
 target_link_libraries(test_common INTERFACE const_container)
+target_compile_options(test_common INTERFACE -fconcepts-diagnostics-depth=2) # for debugging
 
 add_subdirectory(const_vector)

test/common_helper/test_define_test.hpp

@@ -5,75 +5,140 @@
 #ifndef CONST_CONTAINER_TEST_DEFINE_TEST_HPP_
 #define CONST_CONTAINER_TEST_DEFINE_TEST_HPP_
 
+#include <any>
 #include <array>
 #include <concepts>
+#include <iostream>
+#include <ranges>
 #include <tuple>
 
 #include "test_ret_val.h"
+#include "CompileOptional.h"
 
-template<std::invocable Func>
-struct test_def_base {
-	using FuncType = Func;
-	
-	const char *name;
-	Func func;
-	
-	constexpr test_def_base(const char * name, Func func) : name(name), func(func) {}
-	
-	virtual constexpr std::invoke_result_t<Func> operator()() { return std::apply(func, std::make_tuple()); }
+template<typename Suite>
+struct quick_test_def;
+
+enum class EvalFlag { RUNTIME, CONSTEVAL, RUNTIME_CONSTEVAL };
+
+class test_definition {
+	public:
+		[[nodiscard]] virtual constexpr ret_val_s evaluate() const = 0;
+
+		[[nodiscard]] virtual const char *name() const = 0;
+		[[nodiscard]] virtual EvalFlag evalFlag() const = 0;
+		[[nodiscard]] virtual const ret_val_s &c_res() const = 0;
 };
 
 template<std::invocable Func, typename ...Args>
-struct test_definition : public test_def_base<Func> {
-	using base = test_def_base<Func>;
-	static constexpr std::size_t ARG_SIZE = sizeof...(Args);
+class test_definition_impl : public test_definition {
+	public:
+		using FuncType = Func;
+		static constexpr std::size_t ARG_SIZE = sizeof...(Args);
 	
-	std::tuple<Args...> args;
+		constexpr test_definition_impl(const char *name, Func func, EvalFlag evalFlag, Args ...args)
+				: _name(name), _func(func), _evalFlag(evalFlag), _args(std::make_tuple(std::forward(args)...)), 
+				  _c_res(_name, ReturnCode::FAILED, "Could not be evaluated at compile time") {
+			if consteval {
+				if (evalFlag == EvalFlag::RUNTIME_CONSTEVAL || evalFlag == EvalFlag::CONSTEVAL) {
+					_c_res = evaluate();
+				}
+			}
+		}
 	
-	constexpr test_definition(const char *name, Func func, Args ...args) 
-		: test_def_base<Func>(name, func), args(std::make_tuple(args...)) {}
-	
-	constexpr std::invoke_result_t<Func, Args...> operator()() override { return std::apply(base::func, args); }
-};
+		[[nodiscard]] constexpr ret_val_s evaluate() const override { return std::apply(_func, _args); }
 
+		[[nodiscard]] const char *name() const override { return _name; }
+		[[nodiscard]] EvalFlag evalFlag() const override { return _evalFlag; }
+		[[nodiscard]] const ret_val_s &c_res() const override{ return _c_res; }
 
-struct test_suite_base {
-	const char *name;
+	private:
+		const char *_name;
+		EvalFlag _evalFlag;
+		Func _func;
+		std::tuple<Args...> _args;
+		ret_val_s _c_res;
 };
 
 template<typename ...TestDefs>
-	requires (sizeof...(TestDefs) == 0 || (std::derived_from<TestDefs, test_def_base<typename TestDefs::FuncType>> && ...))
-struct test_suite : public test_suite_base {
-	
-	static constexpr std::size_t TEST_NR = sizeof...(TestDefs);
-	
-	std::tuple<TestDefs...> tests;
-	
-	constexpr test_suite(const char *name, std::tuple<TestDefs...> tests) : test_suite_base(name), tests(tests) {}
-	
-	constexpr ret_val<TEST_NR> run() {
+	requires (sizeof...(TestDefs) == 0 || (std::derived_from<TestDefs, test_definition> && ...))
+class test_suite {
+
+	public:
+		static constexpr std::size_t TEST_NR = sizeof...(TestDefs);
+
+		constexpr test_suite(const char *name, std::tuple<TestDefs...> tests) : _name(name), _tests(tests) {}
 		
-		std::vector<ret_val_s> v;
-		std::apply([&v](auto&& ...args) { ((v.push_back(args())), ...); }, tests);
-		
-		ret_val<TEST_NR> ret = { name };
-		std::ranges::move(v, ret.vals.begin());
-		
-		return ret;
-	}
+		int run() const {
+
+			auto test_arr = expand_test_tuple(_tests, std::make_index_sequence<TEST_NR>());
+			
+			std::cout << test_arr.size() << "\n";
+			
+			std::cout << "--------------\n";
+
+			for (auto [i, test_ref] : std::ranges::views::enumerate(test_arr)) {
+				const auto& test = test_ref.get();
+
+				std::cout << "Running Test: \"" << test.name() << "\"\n";
+				if (test.evalFlag() == EvalFlag::RUNTIME || test.evalFlag() == EvalFlag::RUNTIME_CONSTEVAL) {
+					ret_val_s ret;
+					std::string ret_exc_str;
+					try {
+						ret = test.evaluate();
+					} catch (std::exception& e) {
+						ret_exc_str = e.what();
+						ret = ret_val_s(test.name(), ReturnCode::FAILED, ret_exc_str.c_str());
+					}
+
+					std::cout << "Result of Runtime Evaluation of Test \"" << ret.test_name << "\" (number: " << i
+							  << "): "
+							  << (ret.val == ReturnCode::PASSED ? "PASSED" : "FAILED") << "\n"
+							  << "\t" << ret.msg << "\n";
+				}
+
+				if (test.evalFlag() == EvalFlag::CONSTEVAL || test.evalFlag() == EvalFlag::RUNTIME_CONSTEVAL) {
+					const ret_val_s& ret = test.c_res();
+					std::cout << "Result of Consteval Evaluation of Test \"" << ret.test_name << "\" (number: " << i
+							  << "): "
+							  << (ret.val == ReturnCode::PASSED ? "PASSED" : "FAILED") << "\n"
+							  << "\t" << ret.msg << "\n";
+				}
+			}
+
+			return 0;
+		}
+
+	private:
+		const char *_name;
+		std::tuple<TestDefs...> _tests;
+
+		template<std::size_t ...Is>
+		static constexpr auto expand_test_tuple(const auto &tests, std::index_sequence<Is...>) {
+			return std::array { 
+				std::reference_wrapper(
+						dynamic_cast<const test_definition&>(std::get<Is>(tests))
+				)... };
+		}
+
+		friend class quick_test_def<test_suite<TestDefs...>>;
 };
 
 template<typename Suite>
 struct quick_test_def {
 	Suite current;
-	
+
 	template<std::invocable Func, typename ...Args>
 	constexpr auto operator()(const char *name, Func func, Args... args) {
-		auto test = test_definition(name, func, args...);
-		auto new_suite = test_suite(current.name, std::tuple_cat(current.tests, std::make_tuple(test)));
+		return operator()(name, func, EvalFlag::RUNTIME, std::forward(args)...);
+	}
+
+	template<std::invocable Func, typename ...Args>
+	constexpr auto operator()(const char *name, Func func, EvalFlag evalFlag, Args... args) {
+		auto test = test_definition_impl(name, func, evalFlag, args...);
+		auto new_suite = test_suite(current._name, std::tuple_cat(current._tests, std::make_tuple(test)));
 		return quick_test_def<decltype(new_suite)> { new_suite };
 	}
-	
+
 	constexpr operator Suite() {
 		return current;
 	}

test/const_vector/const_vector_constructor.test.cpp

@@ -1,40 +1,40 @@
-#include <any>
-#include <iostream>
-
 #include <const_vector.hpp>
 
 #include "test_define_test.hpp"
 #include "test_util.hpp"
 #include "test_ret_val.h"
 
-test_suite tests = define_tests("Tests")
-		("Test1", [](){
+constexpr test_suite tests = define_tests("Tests")
+		("Test Runtime", [](int = 1) constexpr{
 
-			return TEST_PASS("Test1", "PASS");
-		});
-
-constexpr auto test_func(const char *name) {
-	
-	auto ret_val = run_tests(name,
-	[](){
-
-		return TEST_PASS("Test1", "PASS");
-	});
-	
-	
-	return ret_val;
-}
+			return TEST_PASS("Test Runtime", "PASS");
+		}, EvalFlag::RUNTIME)
+		("Test Consteval 1", [](char = 2) constexpr {
+			if (std::is_constant_evaluated()) {
+				return TEST_PASS("Test Consteval", "PASS");
+			} else {
+				return TEST_FAIL("Test Consteval", "FAIL");
+			}
+		}, EvalFlag::CONSTEVAL)
+		("Test Consteval", [](char = 2) constexpr {
+			//std::cout << "";
+			if (std::is_constant_evaluated()) {
+				return TEST_PASS("Test Consteval", "PASS");
+			} else {
+				return TEST_FAIL("Test Consteval", "FAIL");
+			}
+		}, EvalFlag::CONSTEVAL)
+		("Test Runtime Consteval", [](short = 3) constexpr{
+			if (std::is_constant_evaluated()) {
+				return TEST_PASS("Test Consteval Runtime", "PASS Consteval");
+			} else {
+				return TEST_PASS("Test Consteval", "PASS Runtime");
+			}
+		}, EvalFlag::RUNTIME_CONSTEVAL);
 
 int main() {
-	auto ret = test_func("Test 1");
-	
-	auto cret = consteval_caller(test_func, "Consteval Test");
-	
-	report(ret);
-	report(cret);
 
-	auto sret = tests.run();
-	report(sret);
+	tests.run();
 	
 	return 0;
 }