/* * Copyright (c) 2017 ARM Limited. * * SPDX-License-Identifier: MIT * * Permission is hereby granted, free of charge, to any person obtaining a copy * of this software and associated documentation files (the "Software"), to * deal in the Software without restriction, including without limitation the * rights to use, copy, modify, merge, publish, distribute, sublicense, and/or * sell copies of the Software, and to permit persons to whom the Software is * furnished to do so, subject to the following conditions: * * The above copyright notice and this permission notice shall be included in all * copies or substantial portions of the Software. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE * SOFTWARE. */ #ifndef ARM_COMPUTE_TEST_FRAMEWORK_ASSERTS #define ARM_COMPUTE_TEST_FRAMEWORK_ASSERTS #include "Exceptions.h" #include "Framework.h" #include #include namespace arm_compute { namespace test { namespace framework { // Cast char values to int so that their numeric value are printed. inline int make_printable(int8_t value) { return value; } inline unsigned int make_printable(uint8_t value) { return value; } // Everything else can be printed as its own type. template inline T make_printable(T &&value) { return value; } inline void ARM_COMPUTE_PRINT_INFO() { std::stringstream msg; arm_compute::test::framework::Framework::get().print_test_info(msg); arm_compute::test::framework::Framework::get().log_info(msg.str()); arm_compute::test::framework::Framework::get().clear_test_info(); } #define ARM_COMPUTE_TEST_INFO(INFO) \ { \ std::stringstream info; \ info << INFO; \ arm_compute::test::framework::Framework::get().add_test_info(info.str()); \ } namespace detail { #define ARM_COMPUTE_TEST_COMP_FACTORY(SEVERITY, SEVERITY_NAME, COMP, COMP_NAME, ERROR_CALL) \ template \ void ARM_COMPUTE_##SEVERITY##_##COMP_NAME##_IMPL(T &&x, U &&y, const std::string &x_str, const std::string &y_str, LogLevel level) \ { \ if(!(x COMP y)) \ { \ std::stringstream msg; \ msg << #SEVERITY_NAME " '" << x_str << " " #COMP " " << y_str << "' failed. [" \ << std::boolalpha << arm_compute::test::framework::make_printable(x) \ << " " #COMP " " \ << std::boolalpha << arm_compute::test::framework::make_printable(y) \ << "]\n"; \ arm_compute::test::framework::Framework::get().print_test_info(msg); \ ERROR_CALL \ } \ arm_compute::test::framework::Framework::get().clear_test_info(); \ } ARM_COMPUTE_TEST_COMP_FACTORY(EXPECT, Expectation, ==, EQUAL, arm_compute::test::framework::Framework::get().log_failed_expectation(arm_compute::test::framework::TestError(msg.str(), level));) ARM_COMPUTE_TEST_COMP_FACTORY(EXPECT, Expectation, !=, NOT_EQUAL, arm_compute::test::framework::Framework::get().log_failed_expectation(arm_compute::test::framework::TestError(msg.str(), level));) ARM_COMPUTE_TEST_COMP_FACTORY(ASSERT, Assertion, ==, EQUAL, throw arm_compute::test::framework::TestError(msg.str(), level);) ARM_COMPUTE_TEST_COMP_FACTORY(ASSERT, Assertion, !=, NOT_EQUAL, throw arm_compute::test::framework::TestError(msg.str(), level);) } // namespace detail #define ARM_COMPUTE_ASSERT_NOT_EQUAL(X, Y) \ arm_compute::test::framework::detail::ARM_COMPUTE_ASSERT_NOT_EQUAL_IMPL(X, Y, #X, #Y, LogLevel::ERRORS) #define ARM_COMPUTE_ASSERT_EQUAL(X, Y) \ arm_compute::test::framework::detail::ARM_COMPUTE_ASSERT_EQUAL_IMPL(X, Y, #X, #Y, LogLevel::ERRORS) #define ARM_COMPUTE_EXPECT_EQUAL(X, Y, LEVEL) \ arm_compute::test::framework::detail::ARM_COMPUTE_EXPECT_EQUAL_IMPL(X, Y, #X, #Y, LEVEL) #define ARM_COMPUTE_EXPECT_NOT_EQUAL(X, Y, LEVEL) \ arm_compute::test::framework::detail::ARM_COMPUTE_EXPECT_NOT_EQUAL_IMPL(X, Y, #X, #Y, LEVEL) #define ARM_COMPUTE_ASSERT(X) \ do \ { \ const auto &x = X; \ if(!x) \ { \ std::stringstream msg; \ msg << "Assertion '" #X "' failed.\n"; \ arm_compute::test::framework::Framework::get().print_test_info(msg); \ throw arm_compute::test::framework::TestError(msg.str(), arm_compute::test::framework::LogLevel::ERRORS); \ } \ arm_compute::test::framework::Framework::get().clear_test_info(); \ } while(false) #define ARM_COMPUTE_EXPECT(X, LEVEL) \ do \ { \ const auto &x = X; \ if(!x) \ { \ std::stringstream msg; \ msg << "Expectation '" #X "' failed.\n"; \ arm_compute::test::framework::Framework::get().print_test_info(msg); \ arm_compute::test::framework::Framework::get().log_failed_expectation(arm_compute::test::framework::TestError(msg.str(), LEVEL)); \ } \ arm_compute::test::framework::Framework::get().clear_test_info(); \ } while(false) #define ARM_COMPUTE_ASSERT_FAIL(MSG) \ do \ { \ std::stringstream msg; \ msg << "Assertion '" << MSG << "' failed.\n"; \ arm_compute::test::framework::Framework::get().print_test_info(msg); \ throw arm_compute::test::framework::TestError(msg.str(), arm_compute::test::framework::LogLevel::ERRORS); \ arm_compute::test::framework::Framework::get().clear_test_info(); \ } while(false) #define ARM_COMPUTE_EXPECT_FAIL(MSG, LEVEL) \ do \ { \ std::stringstream msg; \ msg << "Expectation '" << MSG << "' failed.\n"; \ arm_compute::test::framework::Framework::get().print_test_info(msg); \ arm_compute::test::framework::Framework::get().log_failed_expectation(arm_compute::test::framework::TestError(msg.str(), LEVEL)); \ arm_compute::test::framework::Framework::get().clear_test_info(); \ } while(false) } // namespace framework } // namespace test } // namespace arm_compute #endif /* ARM_COMPUTE_TEST_FRAMEWORK_ASSERTS */