/* * Acutest -- Another C/C++ Unit Test facility * * * Copyright 2013-2020 Martin Mitas * Copyright 2019 Garrett D'Amore * * 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 ACUTEST_H #define ACUTEST_H /************************ *** Public interface *** ************************/ /* By default, "acutest.h" provides the main program entry point (function * main()). However, if the test suite is composed of multiple source files * which include "acutest.h", then this causes a problem of multiple main() * definitions. To avoid this problem, #define macro TEST_NO_MAIN in all * compilation units but one. */ /* Macro to specify list of unit tests in the suite. * The unit test implementation MUST provide list of unit tests it implements * with this macro: * * TEST_LIST = { * { "test1_name", test1_func_ptr }, * { "test2_name", test2_func_ptr }, * ... * { NULL, NULL } // zeroed record marking the end of the list * }; * * The list specifies names of each test (must be unique) and pointer to * a function implementing it. The function does not take any arguments * and has no return values, i.e. every test function has to be compatible * with this prototype: * * void test_func(void); * * Note the list has to be ended with a zeroed record. */ #define TEST_LIST const struct acutest_test_ acutest_list_[] /* Macros for testing whether an unit test succeeds or fails. These macros * can be used arbitrarily in functions implementing the unit tests. * * If any condition fails throughout execution of a test, the test fails. * * TEST_CHECK takes only one argument (the condition), TEST_CHECK_ allows * also to specify an error message to print out if the condition fails. * (It expects printf-like format string and its parameters). The macros * return non-zero (condition passes) or 0 (condition fails). * * That can be useful when more conditions should be checked only if some * preceding condition passes, as illustrated in this code snippet: * * SomeStruct* ptr = allocate_some_struct(); * if(TEST_CHECK(ptr != NULL)) { * TEST_CHECK(ptr->member1 < 100); * TEST_CHECK(ptr->member2 > 200); * } */ #define TEST_CHECK_(cond, ...) \ acutest_check_((cond), __FILE__, __LINE__, __VA_ARGS__) #define TEST_CHECK(cond) acutest_check_((cond), __FILE__, __LINE__, "%s", #cond) /* These macros are the same as TEST_CHECK_ and TEST_CHECK except that if the * condition fails, the currently executed unit test is immediately aborted. * * That is done either by calling abort() if the unit test is executed as a * child process; or via longjmp() if the unit test is executed within the * main Acutest process. * * As a side effect of such abortion, your unit tests may cause memory leaks, * unflushed file descriptors, and other phenomena caused by the abortion. * * Therefore you should not use these as a general replacement for TEST_CHECK. * Use it with some caution, especially if your test causes some other side * effects to the outside world (e.g. communicating with some server, inserting * into a database etc.). */ #define TEST_ASSERT_(cond, ...) \ do { \ if (!acutest_check_((cond), __FILE__, __LINE__, __VA_ARGS__)) \ acutest_abort_(); \ } while (0) #define TEST_ASSERT(cond) \ do { \ if (!acutest_check_((cond), __FILE__, __LINE__, "%s", #cond)) \ acutest_abort_(); \ } while (0) #ifdef __cplusplus /* Macros to verify that the code (the 1st argument) throws exception of given * type (the 2nd argument). (Note these macros are only available in C++.) * * TEST_EXCEPTION_ is like TEST_EXCEPTION but accepts custom printf-like * message. * * For example: * * TEST_EXCEPTION(function_that_throw(), ExpectedExceptionType); * * If the function_that_throw() throws ExpectedExceptionType, the check passes. * If the function throws anything incompatible with ExpectedExceptionType * (or if it does not thrown an exception at all), the check fails. */ #define TEST_EXCEPTION(code, exctype) \ do { \ bool exc_ok_ = false; \ const char *msg_ = NULL; \ try { \ code; \ msg_ = "No exception thrown."; \ } catch (exctype const &) { \ exc_ok_ = true; \ } catch (...) { \ msg_ = "Unexpected exception thrown."; \ } \ acutest_check_(exc_ok_, __FILE__, __LINE__, \ #code " throws " #exctype); \ if (msg_ != NULL) \ acutest_message_("%s", msg_); \ } while (0) #define TEST_EXCEPTION_(code, exctype, ...) \ do { \ bool exc_ok_ = false; \ const char *msg_ = NULL; \ try { \ code; \ msg_ = "No exception thrown."; \ } catch (exctype const &) { \ exc_ok_ = true; \ } catch (...) { \ msg_ = "Unexpected exception thrown."; \ } \ acutest_check_(exc_ok_, __FILE__, __LINE__, __VA_ARGS__); \ if (msg_ != NULL) \ acutest_message_("%s", msg_); \ } while (0) #endif /* #ifdef __cplusplus */ /* Sometimes it is useful to split execution of more complex unit tests to some * smaller parts and associate those parts with some names. * * This is especially handy if the given unit test is implemented as a loop * over some vector of multiple testing inputs. Using these macros allow to use * sort of subtitle for each iteration of the loop (e.g. outputting the input * itself or a name associated to it), so that if any TEST_CHECK condition * fails in the loop, it can be easily seen which iteration triggers the * failure, without the need to manually output the iteration-specific data in * every single TEST_CHECK inside the loop body. * * TEST_CASE allows to specify only single string as the name of the case, * TEST_CASE_ provides all the power of printf-like string formatting. * * Note that the test cases cannot be nested. Starting a new test case ends * implicitly the previous one. To end the test case explicitly (e.g. to end * the last test case after exiting the loop), you may use TEST_CASE(NULL). */ #define TEST_CASE_(...) acutest_case_(__VA_ARGS__) #define TEST_CASE(name) acutest_case_("%s", name) /* Maximal output per TEST_CASE call. Longer messages are cut. * You may define another limit prior including "acutest.h" */ #ifndef TEST_CASE_MAXSIZE #define TEST_CASE_MAXSIZE 64 #endif /* printf-like macro for outputting an extra information about a failure. * * Intended use is to output some computed output versus the expected value, * e.g. like this: * * if(!TEST_CHECK(produced == expected)) { * TEST_MSG("Expected: %d", expected); * TEST_MSG("Produced: %d", produced); * } * * Note the message is only written down if the most recent use of any checking * macro (like e.g. TEST_CHECK or TEST_EXCEPTION) in the current test failed. * This means the above is equivalent to just this: * * TEST_CHECK(produced == expected); * TEST_MSG("Expected: %d", expected); * TEST_MSG("Produced: %d", produced); * * The macro can deal with multi-line output fairly well. It also automatically * adds a final new-line if there is none present. */ #define TEST_MSG(...) acutest_message_(__VA_ARGS__) /* Maximal output per TEST_MSG call. Longer messages are cut. * You may define another limit prior including "acutest.h" */ #ifndef TEST_MSG_MAXSIZE #define TEST_MSG_MAXSIZE 1024 #endif /* Macro for dumping a block of memory. * * Its intended use is very similar to what TEST_MSG is for, but instead of * generating any printf-like message, this is for dumping raw block of a * memory in a hexadecimal form: * * TEST_CHECK(size_produced == size_expected && * memcmp(addr_produced, addr_expected, size_produced) == 0); * TEST_DUMP("Expected:", addr_expected, size_expected); * TEST_DUMP("Produced:", addr_produced, size_produced); */ #define TEST_DUMP(title, addr, size) acutest_dump_(title, addr, size) /* Maximal output per TEST_DUMP call (in bytes to dump). Longer blocks are cut. * You may define another limit prior including "acutest.h" */ #ifndef TEST_DUMP_MAXSIZE #define TEST_DUMP_MAXSIZE 1024 #endif /* Common test initialiation/clean-up * * In some test suites, it may be needed to perform some sort of the same * initialization and/or clean-up in all the tests. * * Such test suites may use macros TEST_INIT and/or TEST_FINI prior including * this header. The expansion of the macro is then used as a body of helper * function called just before executing every single (TEST_INIT) or just after * it ends (TEST_FINI). * * Examples of various ways how to use the macro TEST_INIT: * * #define TEST_INIT my_init_func(); * #define TEST_INIT my_init_func() // Works even without the * semicolon #define TEST_INIT setlocale(LC_ALL, NULL); #define TEST_INIT * { setlocale(LC_ALL, NULL); my_init_func(); } * * TEST_FINI is to be used in the same way. */ /********************** *** Implementation *** **********************/ /* The unit test files should not rely on anything below. */ #include #include #include #include #include #include #if defined(unix) || defined(__unix__) || defined(__unix) || \ defined(__APPLE__) || defined(__HAIKU__) #define ACUTEST_UNIX_ 1 #include #include #include #include #include #include #include #if defined CLOCK_PROCESS_CPUTIME_ID && defined CLOCK_MONOTONIC #define ACUTEST_HAS_POSIX_TIMER_ 1 #endif #endif #if defined(_gnu_linux_) || defined(__linux__) #define ACUTEST_LINUX_ 1 #include #include #endif #if defined(_WIN32) || defined(__WIN32__) || defined(__WINDOWS__) #define ACUTEST_WIN_ 1 #include #include #endif #if defined(__APPLE__) #define ACUTEST_MACOS_ #include #include #include #include #include #endif #ifdef __cplusplus #include #endif #ifdef __has_include #if __has_include() #include #endif #endif /* Enable the use of the non-standard keyword __attribute__ to silence warnings * under some compilers */ #if defined(__GNUC__) || defined(__clang__) #define ACUTEST_ATTRIBUTE_(attr) __attribute__((attr)) #else #define ACUTEST_ATTRIBUTE_(attr) #endif /* Note our global private identifiers end with '_' to mitigate risk of clash * with the unit tests implementation. */ #ifdef __cplusplus extern "C" { #endif #ifdef _MSC_VER /* In the multi-platform code like ours, we cannot use the non-standard * "safe" functions from Microsoft C lib like e.g. sprintf_s() instead of * standard sprintf(). Hence, lets disable the warning C4996. */ #pragma warning(push) #pragma warning(disable : 4996) #endif struct acutest_test_ { const char *name; void (*func)(void); }; struct acutest_test_data_ { unsigned char flags; double duration; }; enum { ACUTEST_FLAG_RUN_ = 1 << 0, ACUTEST_FLAG_SUCCESS_ = 1 << 1, ACUTEST_FLAG_FAILURE_ = 1 << 2, }; extern const struct acutest_test_ acutest_list_[]; int acutest_check_(int cond, const char *file, int line, const char *fmt, ...); void acutest_case_(const char *fmt, ...); void acutest_message_(const char *fmt, ...); void acutest_dump_(const char *title, const void *addr, size_t size); void acutest_abort_(void) ACUTEST_ATTRIBUTE_(noreturn); #ifndef TEST_NO_MAIN static char *acutest_argv0_ = NULL; static size_t acutest_list_size_ = 0; static struct acutest_test_data_ *acutest_test_data_ = NULL; static size_t acutest_count_ = 0; static int acutest_no_exec_ = -1; static int acutest_no_summary_ = 0; static int acutest_tap_ = 0; static int acutest_skip_mode_ = 0; static int acutest_worker_ = 0; static int acutest_worker_index_ = 0; static int acutest_cond_failed_ = 0; static int acutest_was_aborted_ = 0; static FILE *acutest_xml_output_ = NULL; static int acutest_stat_failed_units_ = 0; static int acutest_stat_run_units_ = 0; static const struct acutest_test_ *acutest_current_test_ = NULL; static int acutest_current_index_ = 0; static char acutest_case_name_[TEST_CASE_MAXSIZE] = ""; static int acutest_test_already_logged_ = 0; static int acutest_case_already_logged_ = 0; static int acutest_verbose_level_ = 2; static int acutest_test_failures_ = 0; static int acutest_colorize_ = 0; static int acutest_timer_ = 0; static int acutest_abort_has_jmp_buf_ = 0; static jmp_buf acutest_abort_jmp_buf_; static void acutest_cleanup_(void) { free((void *)acutest_test_data_); } static void ACUTEST_ATTRIBUTE_(noreturn) acutest_exit_(int exit_code) { acutest_cleanup_(); exit(exit_code); } #if defined ACUTEST_WIN_ typedef LARGE_INTEGER acutest_timer_type_; static LARGE_INTEGER acutest_timer_freq_; static acutest_timer_type_ acutest_timer_start_; static acutest_timer_type_ acutest_timer_end_; static void acutest_timer_init_(void) { QueryPerformanceFrequency(´st_timer_freq_); } static void acutest_timer_get_time_(LARGE_INTEGER *ts) { QueryPerformanceCounter(ts); } static double acutest_timer_diff_(LARGE_INTEGER start, LARGE_INTEGER end) { double duration = (double)(end.QuadPart - start.QuadPart); duration /= (double)acutest_timer_freq_.QuadPart; return duration; } static void acutest_timer_print_diff_(void) { printf("%.6lf secs", acutest_timer_diff_(acutest_timer_start_, acutest_timer_end_)); } #elif defined ACUTEST_HAS_POSIX_TIMER_ static clockid_t acutest_timer_id_; typedef struct timespec acutest_timer_type_; static acutest_timer_type_ acutest_timer_start_; static acutest_timer_type_ acutest_timer_end_; static void acutest_timer_init_(void) { if (acutest_timer_ == 1) acutest_timer_id_ = CLOCK_MONOTONIC; else if (acutest_timer_ == 2) acutest_timer_id_ = CLOCK_PROCESS_CPUTIME_ID; } static void acutest_timer_get_time_(struct timespec *ts) { clock_gettime(acutest_timer_id_, ts); } static double acutest_timer_diff_(struct timespec start, struct timespec end) { double endns; double startns; endns = end.tv_sec; endns *= 1e9; endns += end.tv_nsec; startns = start.tv_sec; startns *= 1e9; startns += start.tv_nsec; return ((endns - startns) / 1e9); } static void acutest_timer_print_diff_(void) { printf("%.6lf secs", acutest_timer_diff_(acutest_timer_start_, acutest_timer_end_)); } #else typedef int acutest_timer_type_; static acutest_timer_type_ acutest_timer_start_; static acutest_timer_type_ acutest_timer_end_; void acutest_timer_init_(void) {} static void acutest_timer_get_time_(int *ts) { (void)ts; } static double acutest_timer_diff_(int start, int end) { (void)start; (void)end; return 0.0; } static void acutest_timer_print_diff_(void) {} #endif #define ACUTEST_COLOR_DEFAULT_ 0 #define ACUTEST_COLOR_GREEN_ 1 #define ACUTEST_COLOR_RED_ 2 #define ACUTEST_COLOR_DEFAULT_INTENSIVE_ 3 #define ACUTEST_COLOR_GREEN_INTENSIVE_ 4 #define ACUTEST_COLOR_RED_INTENSIVE_ 5 static int ACUTEST_ATTRIBUTE_(format(printf, 2, 3)) acutest_colored_printf_(int color, const char *fmt, ...) { va_list args; char buffer[256]; int n; va_start(args, fmt); vsnprintf(buffer, sizeof(buffer), fmt, args); va_end(args); buffer[sizeof(buffer) - 1] = '\0'; if (!acutest_colorize_) { return printf("%s", buffer); } #if defined ACUTEST_UNIX_ { const char *col_str; switch (color) { case ACUTEST_COLOR_GREEN_: col_str = "\033[0;32m"; break; case ACUTEST_COLOR_RED_: col_str = "\033[0;31m"; break; case ACUTEST_COLOR_GREEN_INTENSIVE_: col_str = "\033[1;32m"; break; case ACUTEST_COLOR_RED_INTENSIVE_: col_str = "\033[1;31m"; break; case ACUTEST_COLOR_DEFAULT_INTENSIVE_: col_str = "\033[1m"; break; default: col_str = "\033[0m"; break; } printf("%s", col_str); n = printf("%s", buffer); printf("\033[0m"); return n; } #elif defined ACUTEST_WIN_ { HANDLE h; CONSOLE_SCREEN_BUFFER_INFO info; WORD attr; h = GetStdHandle(STD_OUTPUT_HANDLE); GetConsoleScreenBufferInfo(h, &info); switch (color) { case ACUTEST_COLOR_GREEN_: attr = FOREGROUND_GREEN; break; case ACUTEST_COLOR_RED_: attr = FOREGROUND_RED; break; case ACUTEST_COLOR_GREEN_INTENSIVE_: attr = FOREGROUND_GREEN | FOREGROUND_INTENSITY; break; case ACUTEST_COLOR_RED_INTENSIVE_: attr = FOREGROUND_RED | FOREGROUND_INTENSITY; break; case ACUTEST_COLOR_DEFAULT_INTENSIVE_: attr = FOREGROUND_BLUE | FOREGROUND_GREEN | FOREGROUND_RED | FOREGROUND_INTENSITY; break; default: attr = 0; break; } if (attr != 0) SetConsoleTextAttribute(h, attr); n = printf("%s", buffer); SetConsoleTextAttribute(h, info.wAttributes); return n; } #else n = printf("%s", buffer); return n; #endif } static void acutest_begin_test_line_(const struct acutest_test_ *test) { if (!acutest_tap_) { if (acutest_verbose_level_ >= 3) { acutest_colored_printf_(ACUTEST_COLOR_DEFAULT_INTENSIVE_, "Test %s:\n", test->name); acutest_test_already_logged_++; } else if (acutest_verbose_level_ >= 1) { int n; char spaces[48]; n = acutest_colored_printf_(ACUTEST_COLOR_DEFAULT_INTENSIVE_, "Test %s... ", test->name); memset(spaces, ' ', sizeof(spaces)); if (n < (int)sizeof(spaces)) printf("%.*s", (int)sizeof(spaces) - n, spaces); } else { acutest_test_already_logged_ = 1; } } } static void acutest_finish_test_line_(int result) { if (acutest_tap_) { const char *str = (result == 0) ? "ok" : "not ok"; printf("%s %d - %s\n", str, acutest_current_index_ + 1, acutest_current_test_->name); if (result == 0 && acutest_timer_) { printf("# Duration: "); acutest_timer_print_diff_(); printf("\n"); } } else { int color = (result == 0) ? ACUTEST_COLOR_GREEN_INTENSIVE_ : ACUTEST_COLOR_RED_INTENSIVE_; const char *str = (result == 0) ? "OK" : "FAILED"; printf("[ "); acutest_colored_printf_(color, "%s", str); printf(" ]"); if (result == 0 && acutest_timer_) { printf(" "); acutest_timer_print_diff_(); } printf("\n"); } } static void acutest_line_indent_(int level) { static const char spaces[] = " "; int n = level * 2; if (acutest_tap_ && n > 0) { n--; printf("#"); } while (n > 16) { printf("%s", spaces); n -= 16; } printf("%.*s", n, spaces); } int ACUTEST_ATTRIBUTE_(format(printf, 4, 5)) acutest_check_(int cond, const char *file, int line, const char *fmt, ...) { const char *result_str; int result_color; int verbose_level; if (cond) { result_str = "ok"; result_color = ACUTEST_COLOR_GREEN_; verbose_level = 3; } else { if (!acutest_test_already_logged_ && acutest_current_test_ != NULL) acutest_finish_test_line_(-1); result_str = "failed"; result_color = ACUTEST_COLOR_RED_; verbose_level = 2; acutest_test_failures_++; acutest_test_already_logged_++; } if (acutest_verbose_level_ >= verbose_level) { va_list args; if (!acutest_case_already_logged_ && acutest_case_name_[0]) { acutest_line_indent_(1); acutest_colored_printf_(ACUTEST_COLOR_DEFAULT_INTENSIVE_, "Case %s:\n", acutest_case_name_); acutest_test_already_logged_++; acutest_case_already_logged_++; } acutest_line_indent_(acutest_case_name_[0] ? 2 : 1); if (file != NULL) { #ifdef ACUTEST_WIN_ const char *lastsep1 = strrchr(file, '\\'); const char *lastsep2 = strrchr(file, '/'); if (lastsep1 == NULL) lastsep1 = file - 1; if (lastsep2 == NULL) lastsep2 = file - 1; file = (lastsep1 > lastsep2 ? lastsep1 : lastsep2) + 1; #else const char *lastsep = strrchr(file, '/'); if (lastsep != NULL) file = lastsep + 1; #endif printf("%s:%d: Check ", file, line); } va_start(args, fmt); vprintf(fmt, args); va_end(args); printf("... "); acutest_colored_printf_(result_color, "%s", result_str); printf("\n"); acutest_test_already_logged_++; } acutest_cond_failed_ = (cond == 0); return !acutest_cond_failed_; } void ACUTEST_ATTRIBUTE_(format(printf, 1, 2)) acutest_case_(const char *fmt, ...) { va_list args; if (acutest_verbose_level_ < 2) return; if (acutest_case_name_[0]) { acutest_case_already_logged_ = 0; acutest_case_name_[0] = '\0'; } if (fmt == NULL) return; va_start(args, fmt); vsnprintf(acutest_case_name_, sizeof(acutest_case_name_) - 1, fmt, args); va_end(args); acutest_case_name_[sizeof(acutest_case_name_) - 1] = '\0'; if (acutest_verbose_level_ >= 3) { acutest_line_indent_(1); acutest_colored_printf_(ACUTEST_COLOR_DEFAULT_INTENSIVE_, "Case %s:\n", acutest_case_name_); acutest_test_already_logged_++; acutest_case_already_logged_++; } } void ACUTEST_ATTRIBUTE_(format(printf, 1, 2)) acutest_message_(const char *fmt, ...) { char buffer[TEST_MSG_MAXSIZE]; char *line_beg; char *line_end; va_list args; if (acutest_verbose_level_ < 2) return; /* We allow extra message only when something is already wrong in the * current test. */ if (acutest_current_test_ == NULL || !acutest_cond_failed_) return; va_start(args, fmt); vsnprintf(buffer, TEST_MSG_MAXSIZE, fmt, args); va_end(args); buffer[TEST_MSG_MAXSIZE - 1] = '\0'; line_beg = buffer; while (1) { line_end = strchr(line_beg, '\n'); if (line_end == NULL) break; acutest_line_indent_(acutest_case_name_[0] ? 3 : 2); printf("%.*s\n", (int)(line_end - line_beg), line_beg); line_beg = line_end + 1; } if (line_beg[0] != '\0') { acutest_line_indent_(acutest_case_name_[0] ? 3 : 2); printf("%s\n", line_beg); } } void acutest_dump_(const char *title, const void *addr, size_t size) { static const size_t BYTES_PER_LINE = 16; size_t line_beg; size_t truncate = 0; if (acutest_verbose_level_ < 2) return; /* We allow extra message only when something is already wrong in the * current test. */ if (acutest_current_test_ == NULL || !acutest_cond_failed_) return; if (size > TEST_DUMP_MAXSIZE) { truncate = size - TEST_DUMP_MAXSIZE; size = TEST_DUMP_MAXSIZE; } acutest_line_indent_(acutest_case_name_[0] ? 3 : 2); printf((title[strlen(title) - 1] == ':') ? "%s\n" : "%s:\n", title); for (line_beg = 0; line_beg < size; line_beg += BYTES_PER_LINE) { size_t line_end = line_beg + BYTES_PER_LINE; size_t off; acutest_line_indent_(acutest_case_name_[0] ? 4 : 3); printf("%08lx: ", (unsigned long)line_beg); for (off = line_beg; off < line_end; off++) { if (off < size) printf(" %02x", ((const unsigned char *)addr)[off]); else printf(" "); } printf(" "); for (off = line_beg; off < line_end; off++) { unsigned char byte = ((const unsigned char *)addr)[off]; if (off < size) printf("%c", (iscntrl(byte) ? '.' : byte)); else break; } printf("\n"); } if (truncate > 0) { acutest_line_indent_(acutest_case_name_[0] ? 4 : 3); printf(" ... (and more %u bytes)\n", (unsigned)truncate); } } /* This is called just before each test */ static void acutest_init_(const char *test_name) { #ifdef TEST_INIT TEST_INIT; /* Allow for a single unterminated function call */ #endif /* Suppress any warnings about unused variable. */ (void)test_name; } /* This is called after each test */ static void acutest_fini_(const char *test_name) { #ifdef TEST_FINI TEST_FINI; /* Allow for a single unterminated function call */ #endif /* Suppress any warnings about unused variable. */ (void)test_name; } void acutest_abort_(void) { if (acutest_abort_has_jmp_buf_) { longjmp(acutest_abort_jmp_buf_, 1); } else { if (acutest_current_test_ != NULL) acutest_fini_(acutest_current_test_->name); abort(); } } static void acutest_list_names_(void) { const struct acutest_test_ *test; printf("Unit tests:\n"); for (test = ´st_list_[0]; test->func != NULL; test++) printf(" %s\n", test->name); } static void acutest_remember_(int i) { if (acutest_test_data_[i].flags & ACUTEST_FLAG_RUN_) return; acutest_test_data_[i].flags |= ACUTEST_FLAG_RUN_; acutest_count_++; } static void acutest_set_success_(int i, int success) { acutest_test_data_[i].flags |= success ? ACUTEST_FLAG_SUCCESS_ : ACUTEST_FLAG_FAILURE_; } static void acutest_set_duration_(int i, double duration) { acutest_test_data_[i].duration = duration; } static int acutest_name_contains_word_(const char *name, const char *pattern) { static const char word_delim[] = " \t-_/.,:;"; const char *substr; size_t pattern_len; pattern_len = strlen(pattern); substr = strstr(name, pattern); while (substr != NULL) { int starts_on_word_boundary = (substr == name || strchr(word_delim, substr[-1]) != NULL); int ends_on_word_boundary = (substr[pattern_len] == '\0' || strchr(word_delim, substr[pattern_len]) != NULL); if (starts_on_word_boundary && ends_on_word_boundary) return 1; substr = strstr(substr + 1, pattern); } return 0; } static int acutest_lookup_(const char *pattern) { int i; int n = 0; /* Try exact match. */ for (i = 0; i < (int)acutest_list_size_; i++) { if (strcmp(acutest_list_[i].name, pattern) == 0) { acutest_remember_(i); n++; break; } } if (n > 0) return n; /* Try word match. */ for (i = 0; i < (int)acutest_list_size_; i++) { if (acutest_name_contains_word_(acutest_list_[i].name, pattern)) { acutest_remember_(i); n++; } } if (n > 0) return n; /* Try relaxed match. */ for (i = 0; i < (int)acutest_list_size_; i++) { if (strstr(acutest_list_[i].name, pattern) != NULL) { acutest_remember_(i); n++; } } return n; } /* Called if anything goes bad in Acutest, or if the unit test ends in other * way then by normal returning from its function (e.g. exception or some * abnormal child process termination). */ static void ACUTEST_ATTRIBUTE_(format(printf, 1, 2)) acutest_error_(const char *fmt, ...) { if (acutest_verbose_level_ == 0) return; if (acutest_verbose_level_ >= 2) { va_list args; acutest_line_indent_(1); if (acutest_verbose_level_ >= 3) acutest_colored_printf_(ACUTEST_COLOR_RED_INTENSIVE_, "ERROR: "); va_start(args, fmt); vprintf(fmt, args); va_end(args); printf("\n"); } if (acutest_verbose_level_ >= 3) { printf("\n"); } } /* Call directly the given test unit function. */ static int acutest_do_run_(const struct acutest_test_ *test, int index) { int status = -1; acutest_was_aborted_ = 0; acutest_current_test_ = test; acutest_current_index_ = index; acutest_test_failures_ = 0; acutest_test_already_logged_ = 0; acutest_cond_failed_ = 0; #ifdef __cplusplus try { #endif acutest_init_(test->name); acutest_begin_test_line_(test); /* This is good to do in case the test unit crashes. */ fflush(stdout); fflush(stderr); if (!acutest_worker_) { acutest_abort_has_jmp_buf_ = 1; if (setjmp(acutest_abort_jmp_buf_) != 0) { acutest_was_aborted_ = 1; goto aborted; } } acutest_timer_get_time_(´st_timer_start_); test->func(); aborted: acutest_abort_has_jmp_buf_ = 0; acutest_timer_get_time_(´st_timer_end_); if (acutest_verbose_level_ >= 3) { acutest_line_indent_(1); if (acutest_test_failures_ == 0) { acutest_colored_printf_(ACUTEST_COLOR_GREEN_INTENSIVE_, "SUCCESS: "); printf("All conditions have passed.\n"); if (acutest_timer_) { acutest_line_indent_(1); printf("Duration: "); acutest_timer_print_diff_(); printf("\n"); } } else { acutest_colored_printf_(ACUTEST_COLOR_RED_INTENSIVE_, "FAILED: "); if (!acutest_was_aborted_) { printf("%d condition%s %s failed.\n", acutest_test_failures_, (acutest_test_failures_ == 1) ? "" : "s", (acutest_test_failures_ == 1) ? "has" : "have"); } else { printf("Aborted.\n"); } } printf("\n"); } else if (acutest_verbose_level_ >= 1 && acutest_test_failures_ == 0) { acutest_finish_test_line_(0); } status = (acutest_test_failures_ == 0) ? 0 : -1; #ifdef __cplusplus } catch (std::exception &e) { const char *what = e.what(); acutest_check_(0, NULL, 0, "Threw std::exception"); if (what != NULL) acutest_message_("std::exception::what(): %s", what); if (acutest_verbose_level_ >= 3) { acutest_line_indent_(1); acutest_colored_printf_(ACUTEST_COLOR_RED_INTENSIVE_, "FAILED: "); printf("C++ exception.\n\n"); } } catch (...) { acutest_check_(0, NULL, 0, "Threw an exception"); if (acutest_verbose_level_ >= 3) { acutest_line_indent_(1); acutest_colored_printf_(ACUTEST_COLOR_RED_INTENSIVE_, "FAILED: "); printf("C++ exception.\n\n"); } } #endif acutest_fini_(test->name); acutest_case_(NULL); acutest_current_test_ = NULL; return status; } /* Trigger the unit test. If possible (and not suppressed) it starts a child * process who calls acutest_do_run_(), otherwise it calls acutest_do_run_() * directly. */ static void acutest_run_(const struct acutest_test_ *test, int index, int master_index) { int failed = 1; acutest_timer_type_ start, end; acutest_current_test_ = test; acutest_test_already_logged_ = 0; acutest_timer_get_time_(&start); if (!acutest_no_exec_) { #if defined(ACUTEST_UNIX_) pid_t pid; int exit_code; /* Make sure the child starts with empty I/O buffers. */ fflush(stdout); fflush(stderr); pid = fork(); if (pid == (pid_t)-1) { acutest_error_("Cannot fork. %s [%d]", strerror(errno), errno); failed = 1; } else if (pid == 0) { /* Child: Do the test. */ acutest_worker_ = 1; failed = (acutest_do_run_(test, index) != 0); acutest_exit_(failed ? 1 : 0); } else { /* Parent: Wait until child terminates and analyze its exit code. */ waitpid(pid, &exit_code, 0); if (WIFEXITED(exit_code)) { switch (WEXITSTATUS(exit_code)) { case 0: failed = 0; break; /* test has passed. */ case 1: /* noop */ break; /* "normal" failure. */ default: acutest_error_("Unexpected exit code [%d]", WEXITSTATUS(exit_code)); } } else if (WIFSIGNALED(exit_code)) { char tmp[32]; const char *signame; switch (WTERMSIG(exit_code)) { case SIGINT: signame = "SIGINT"; break; case SIGHUP: signame = "SIGHUP"; break; case SIGQUIT: signame = "SIGQUIT"; break; case SIGABRT: signame = "SIGABRT"; break; case SIGKILL: signame = "SIGKILL"; break; case SIGSEGV: signame = "SIGSEGV"; break; case SIGILL: signame = "SIGILL"; break; case SIGTERM: signame = "SIGTERM"; break; default: sprintf(tmp, "signal %d", WTERMSIG(exit_code)); signame = tmp; break; } acutest_error_("Test interrupted by %s.", signame); } else { acutest_error_("Test ended in an unexpected way [%d].", exit_code); } } #elif defined(ACUTEST_WIN_) char buffer[512] = {0}; STARTUPINFOA startupInfo; PROCESS_INFORMATION processInfo; DWORD exitCode; /* Windows has no fork(). So we propagate all info into the child * through a command line arguments. */ _snprintf(buffer, sizeof(buffer) - 1, "%s --worker=%d %s --no-exec --no-summary %s --verbose=%d " "--color=%s -- \"%s\"", acutest_argv0_, index, acutest_timer_ ? "--time" : "", acutest_tap_ ? "--tap" : "", acutest_verbose_level_, acutest_colorize_ ? "always" : "never", test->name); memset(&startupInfo, 0, sizeof(startupInfo)); startupInfo.cb = sizeof(STARTUPINFO); if (CreateProcessA(NULL, buffer, NULL, NULL, FALSE, 0, NULL, NULL, &startupInfo, &processInfo)) { WaitForSingleObject(processInfo.hProcess, INFINITE); GetExitCodeProcess(processInfo.hProcess, &exitCode); CloseHandle(processInfo.hThread); CloseHandle(processInfo.hProcess); failed = (exitCode != 0); if (exitCode > 1) { switch (exitCode) { case 3: acutest_error_("Aborted."); break; case 0xC0000005: acutest_error_("Access violation."); break; default: acutest_error_("Test ended in an unexpected way [%lu].", exitCode); break; } } } else { acutest_error_("Cannot create unit test subprocess [%ld].", GetLastError()); failed = 1; } #else /* A platform where we don't know how to run child process. */ failed = (acutest_do_run_(test, index) != 0); #endif } else { /* Child processes suppressed through --no-exec. */ failed = (acutest_do_run_(test, index) != 0); } acutest_timer_get_time_(&end); acutest_current_test_ = NULL; acutest_stat_run_units_++; if (failed) acutest_stat_failed_units_++; acutest_set_success_(master_index, !failed); acutest_set_duration_(master_index, acutest_timer_diff_(start, end)); } #if defined(ACUTEST_WIN_) /* Callback for SEH events. */ static LONG CALLBACK acutest_seh_exception_filter_(EXCEPTION_POINTERS *ptrs) { acutest_check_(0, NULL, 0, "Unhandled SEH exception"); acutest_message_("Exception code: 0x%08lx", ptrs->ExceptionRecord->ExceptionCode); acutest_message_("Exception address: 0x%p", ptrs->ExceptionRecord->ExceptionAddress); fflush(stdout); fflush(stderr); return EXCEPTION_EXECUTE_HANDLER; } #endif #define ACUTEST_CMDLINE_OPTFLAG_OPTIONALARG_ 0x0001 #define ACUTEST_CMDLINE_OPTFLAG_REQUIREDARG_ 0x0002 #define ACUTEST_CMDLINE_OPTID_NONE_ 0 #define ACUTEST_CMDLINE_OPTID_UNKNOWN_ (-0x7fffffff + 0) #define ACUTEST_CMDLINE_OPTID_MISSINGARG_ (-0x7fffffff + 1) #define ACUTEST_CMDLINE_OPTID_BOGUSARG_ (-0x7fffffff + 2) typedef struct acutest_test_CMDLINE_OPTION_ { char shortname; const char *longname; int id; unsigned flags; } ACUTEST_CMDLINE_OPTION_; static int acutest_cmdline_handle_short_opt_group_( const ACUTEST_CMDLINE_OPTION_ *options, const char *arggroup, int (*callback)(int /*optval*/, const char * /*arg*/)) { const ACUTEST_CMDLINE_OPTION_ *opt; int i; int ret = 0; for (i = 0; arggroup[i] != '\0'; i++) { for (opt = options; opt->id != 0; opt++) { if (arggroup[i] == opt->shortname) break; } if (opt->id != 0 && !(opt->flags & ACUTEST_CMDLINE_OPTFLAG_REQUIREDARG_)) { ret = callback(opt->id, NULL); } else { /* Unknown option. */ char badoptname[3]; badoptname[0] = '-'; badoptname[1] = arggroup[i]; badoptname[2] = '\0'; ret = callback((opt->id != 0 ? ACUTEST_CMDLINE_OPTID_MISSINGARG_ : ACUTEST_CMDLINE_OPTID_UNKNOWN_), badoptname); } if (ret != 0) break; } return ret; } #define ACUTEST_CMDLINE_AUXBUF_SIZE_ 32 static int acutest_cmdline_read_(const ACUTEST_CMDLINE_OPTION_ *options, int argc, char **argv, int (*callback)(int /*optval*/, const char * /*arg*/)) { const ACUTEST_CMDLINE_OPTION_ *opt; char auxbuf[ACUTEST_CMDLINE_AUXBUF_SIZE_ + 1]; int after_doubledash = 0; int i = 1; int ret = 0; auxbuf[ACUTEST_CMDLINE_AUXBUF_SIZE_] = '\0'; while (i < argc) { if (after_doubledash || strcmp(argv[i], "-") == 0) { /* Non-option argument. */ ret = callback(ACUTEST_CMDLINE_OPTID_NONE_, argv[i]); } else if (strcmp(argv[i], "--") == 0) { /* End of options. All the remaining members are non-option * arguments. */ after_doubledash = 1; } else if (argv[i][0] != '-') { /* Non-option argument. */ ret = callback(ACUTEST_CMDLINE_OPTID_NONE_, argv[i]); } else { for (opt = options; opt->id != 0; opt++) { if (opt->longname != NULL && strncmp(argv[i], "--", 2) == 0) { size_t len = strlen(opt->longname); if (strncmp(argv[i] + 2, opt->longname, len) == 0) { /* Regular long option. */ if (argv[i][2 + len] == '\0') { /* with no argument provided. */ if (!(opt->flags & ACUTEST_CMDLINE_OPTFLAG_REQUIREDARG_)) ret = callback(opt->id, NULL); else ret = callback( ACUTEST_CMDLINE_OPTID_MISSINGARG_, argv[i]); break; } else if (argv[i][2 + len] == '=') { /* with an argument provided. */ if (opt->flags & (ACUTEST_CMDLINE_OPTFLAG_OPTIONALARG_ | ACUTEST_CMDLINE_OPTFLAG_REQUIREDARG_)) { ret = callback(opt->id, argv[i] + 2 + len + 1); } else { sprintf(auxbuf, "--%s", opt->longname); ret = callback(ACUTEST_CMDLINE_OPTID_BOGUSARG_, auxbuf); } break; } else { continue; } } } else if (opt->shortname != '\0' && argv[i][0] == '-') { if (argv[i][1] == opt->shortname) { /* Regular short option. */ if (opt->flags & ACUTEST_CMDLINE_OPTFLAG_REQUIREDARG_) { if (argv[i][2] != '\0') ret = callback(opt->id, argv[i] + 2); else if (i + 1 < argc) ret = callback(opt->id, argv[++i]); else ret = callback( ACUTEST_CMDLINE_OPTID_MISSINGARG_, argv[i]); break; } else { ret = callback(opt->id, NULL); /* There might be more (argument-less) short options * grouped together. */ if (ret == 0 && argv[i][2] != '\0') ret = acutest_cmdline_handle_short_opt_group_( options, argv[i] + 2, callback); break; } } } } if (opt->id == 0) { /* still not handled? */ if (argv[i][0] != '-') { /* Non-option argument. */ ret = callback(ACUTEST_CMDLINE_OPTID_NONE_, argv[i]); } else { /* Unknown option. */ char *badoptname = argv[i]; if (strncmp(badoptname, "--", 2) == 0) { /* Strip any argument from the long option. */ char *assignment = strchr(badoptname, '='); if (assignment != NULL) { size_t len = assignment - badoptname; if (len > ACUTEST_CMDLINE_AUXBUF_SIZE_) len = ACUTEST_CMDLINE_AUXBUF_SIZE_; strncpy(auxbuf, badoptname, len); auxbuf[len] = '\0'; badoptname = auxbuf; } } ret = callback(ACUTEST_CMDLINE_OPTID_UNKNOWN_, badoptname); } } } if (ret != 0) return ret; i++; } return ret; } static void acutest_help_(void) { printf("Usage: %s [options] [test...]\n", acutest_argv0_); printf("\n"); printf("Run the specified unit tests; or if the option '--skip' is used, " "run all\n"); printf("tests in the suite but those listed. By default, if no tests are " "specified\n"); printf("on the command line, all unit tests in the suite are run.\n"); printf("\n"); printf("Options:\n"); printf( " -s, --skip Execute all unit tests but the listed ones\n"); printf(" --exec[=WHEN] If supported, execute unit tests as child " "processes\n"); printf(" (WHEN is one of 'auto', 'always', " "'never')\n"); printf(" -E, --no-exec Same as --exec=never\n"); #if defined ACUTEST_WIN_ printf(" -t, --time Measure test duration\n"); #elif defined ACUTEST_HAS_POSIX_TIMER_ printf(" -t, --time Measure test duration (real time)\n"); printf( " --time=TIMER Measure test duration, using given timer\n"); printf(" (TIMER is one of 'real', 'cpu')\n"); #endif printf( " --no-summary Suppress printing of test results summary\n"); printf(" --tap Produce TAP-compliant output\n"); printf(" (See https://testanything.org/)\n"); printf(" -x, --xml-output=FILE Enable XUnit output to the given file\n"); printf(" -l, --list List unit tests in the suite and exit\n"); printf(" -v, --verbose Make output more verbose\n"); printf(" --verbose=LEVEL Set verbose level to LEVEL:\n"); printf(" 0 ... Be silent\n"); printf(" 1 ... Output one line per test (and " "summary)\n"); printf(" 2 ... As 1 and failed conditions (this " "is default)\n"); printf(" 3 ... As 1 and all conditions (and " "extended summary)\n"); printf(" -q, --quiet Same as --verbose=0\n"); printf(" --color[=WHEN] Enable colorized output\n"); printf(" (WHEN is one of 'auto', 'always', " "'never')\n"); printf(" --no-color Same as --color=never\n"); printf(" -h, --help Display this help and exit\n"); if (acutest_list_size_ < 16) { printf("\n"); acutest_list_names_(); } } static const ACUTEST_CMDLINE_OPTION_ acutest_cmdline_options_[] = { {'s', "skip", 's', 0}, {0, "exec", 'e', ACUTEST_CMDLINE_OPTFLAG_OPTIONALARG_}, {'E', "no-exec", 'E', 0}, #if defined ACUTEST_WIN_ {'t', "time", 't', 0}, {0, "timer", 't', 0}, /* kept for compatibility */ #elif defined ACUTEST_HAS_POSIX_TIMER_ {'t', "time", 't', ACUTEST_CMDLINE_OPTFLAG_OPTIONALARG_}, {0, "timer", 't', ACUTEST_CMDLINE_OPTFLAG_OPTIONALARG_}, /* kept for compatibility */ #endif {0, "no-summary", 'S', 0}, {0, "tap", 'T', 0}, {'l', "list", 'l', 0}, {'v', "verbose", 'v', ACUTEST_CMDLINE_OPTFLAG_OPTIONALARG_}, {'q', "quiet", 'q', 0}, {0, "color", 'c', ACUTEST_CMDLINE_OPTFLAG_OPTIONALARG_}, {0, "no-color", 'C', 0}, {'h', "help", 'h', 0}, {0, "worker", 'w', ACUTEST_CMDLINE_OPTFLAG_REQUIREDARG_}, /* internal */ {'x', "xml-output", 'x', ACUTEST_CMDLINE_OPTFLAG_REQUIREDARG_}, {0, NULL, 0, 0}}; static int acutest_cmdline_callback_(int id, const char *arg) { switch (id) { case 's': acutest_skip_mode_ = 1; break; case 'e': if (arg == NULL || strcmp(arg, "always") == 0) { acutest_no_exec_ = 0; } else if (strcmp(arg, "never") == 0) { acutest_no_exec_ = 1; } else if (strcmp(arg, "auto") == 0) { /*noop*/ } else { fprintf(stderr, "%s: Unrecognized argument '%s' for option --exec.\n", acutest_argv0_, arg); fprintf(stderr, "Try '%s --help' for more information.\n", acutest_argv0_); acutest_exit_(2); } break; case 'E': acutest_no_exec_ = 1; break; case 't': #if defined ACUTEST_WIN_ || defined ACUTEST_HAS_POSIX_TIMER_ if (arg == NULL || strcmp(arg, "real") == 0) { acutest_timer_ = 1; #ifndef ACUTEST_WIN_ } else if (strcmp(arg, "cpu") == 0) { acutest_timer_ = 2; #endif } else { fprintf(stderr, "%s: Unrecognized argument '%s' for option --time.\n", acutest_argv0_, arg); fprintf(stderr, "Try '%s --help' for more information.\n", acutest_argv0_); acutest_exit_(2); } #endif break; case 'S': acutest_no_summary_ = 1; break; case 'T': acutest_tap_ = 1; break; case 'l': acutest_list_names_(); acutest_exit_(0); break; case 'v': acutest_verbose_level_ = (arg != NULL ? atoi(arg) : acutest_verbose_level_ + 1); break; case 'q': acutest_verbose_level_ = 0; break; case 'c': if (arg == NULL || strcmp(arg, "always") == 0) { acutest_colorize_ = 1; } else if (strcmp(arg, "never") == 0) { acutest_colorize_ = 0; } else if (strcmp(arg, "auto") == 0) { /*noop*/ } else { fprintf(stderr, "%s: Unrecognized argument '%s' for option --color.\n", acutest_argv0_, arg); fprintf(stderr, "Try '%s --help' for more information.\n", acutest_argv0_); acutest_exit_(2); } break; case 'C': acutest_colorize_ = 0; break; case 'h': acutest_help_(); acutest_exit_(0); break; case 'w': acutest_worker_ = 1; acutest_worker_index_ = atoi(arg); break; case 'x': acutest_xml_output_ = fopen(arg, "w"); if (!acutest_xml_output_) { fprintf(stderr, "Unable to open '%s': %s\n", arg, strerror(errno)); acutest_exit_(2); } break; case 0: if (acutest_lookup_(arg) == 0) { fprintf(stderr, "%s: Unrecognized unit test '%s'\n", acutest_argv0_, arg); fprintf(stderr, "Try '%s --list' for list of unit tests.\n", acutest_argv0_); acutest_exit_(2); } break; case ACUTEST_CMDLINE_OPTID_UNKNOWN_: fprintf(stderr, "Unrecognized command line option '%s'.\n", arg); fprintf(stderr, "Try '%s --help' for more information.\n", acutest_argv0_); acutest_exit_(2); break; case ACUTEST_CMDLINE_OPTID_MISSINGARG_: fprintf(stderr, "The command line option '%s' requires an argument.\n", arg); fprintf(stderr, "Try '%s --help' for more information.\n", acutest_argv0_); acutest_exit_(2); break; case ACUTEST_CMDLINE_OPTID_BOGUSARG_: fprintf(stderr, "The command line option '%s' does not expect an argument.\n", arg); fprintf(stderr, "Try '%s --help' for more information.\n", acutest_argv0_); acutest_exit_(2); break; } return 0; } #ifdef ACUTEST_LINUX_ static int acutest_is_tracer_present_(void) { /* Must be large enough so the line 'TracerPid: ${PID}' can fit in. */ static const int OVERLAP = 32; char buf[256 + OVERLAP + 1]; int tracer_present = 0; int fd; size_t n_read = 0; fd = open("/proc/self/status", O_RDONLY); if (fd == -1) return 0; while (1) { static const char pattern[] = "TracerPid:"; const char *field; while (n_read < sizeof(buf) - 1) { ssize_t n; n = read(fd, buf + n_read, sizeof(buf) - 1 - n_read); if (n <= 0) break; n_read += n; } buf[n_read] = '\0'; field = strstr(buf, pattern); if (field != NULL && field < buf + sizeof(buf) - OVERLAP) { pid_t tracer_pid = (pid_t)atoi(field + sizeof(pattern) - 1); tracer_present = (tracer_pid != 0); break; } if (n_read == sizeof(buf) - 1) { memmove(buf, buf + sizeof(buf) - 1 - OVERLAP, OVERLAP); n_read = OVERLAP; } else { break; } } close(fd); return tracer_present; } #endif #ifdef ACUTEST_MACOS_ static bool acutest_AmIBeingDebugged(void) { int junk; int mib[4]; struct kinfo_proc info; size_t size; // Initialize the flags so that, if sysctl fails for some bizarre // reason, we get a predictable result. info.kp_proc.p_flag = 0; // Initialize mib, which tells sysctl the info we want, in this case // we're looking for information about a specific process ID. mib[0] = CTL_KERN; mib[1] = KERN_PROC; mib[2] = KERN_PROC_PID; mib[3] = getpid(); // Call sysctl. size = sizeof(info); junk = sysctl(mib, sizeof(mib) / sizeof(*mib), &info, &size, NULL, 0); assert(junk == 0); // We're being debugged if the P_TRACED flag is set. return ((info.kp_proc.p_flag & P_TRACED) != 0); } #endif int main(int argc, char **argv) { int i; acutest_argv0_ = argv[0]; #if defined ACUTEST_UNIX_ acutest_colorize_ = isatty(STDOUT_FILENO); #elif defined ACUTEST_WIN_ #if defined _BORLANDC_ acutest_colorize_ = isatty(_fileno(stdout)); #else acutest_colorize_ = _isatty(_fileno(stdout)); #endif #else acutest_colorize_ = 0; #endif /* Count all test units */ acutest_list_size_ = 0; for (i = 0; acutest_list_[i].func != NULL; i++) acutest_list_size_++; acutest_test_data_ = (struct acutest_test_data_ *)calloc( acutest_list_size_, sizeof(struct acutest_test_data_)); if (acutest_test_data_ == NULL) { fprintf(stderr, "Out of memory.\n"); acutest_exit_(2); } /* Parse options */ acutest_cmdline_read_(acutest_cmdline_options_, argc, argv, acutest_cmdline_callback_); /* Initialize the proper timer. */ acutest_timer_init_(); #if defined(ACUTEST_WIN_) SetUnhandledExceptionFilter(acutest_seh_exception_filter_); #ifdef _MSC_VER _set_abort_behavior(0, _WRITE_ABORT_MSG); #endif #endif /* By default, we want to run all tests. */ if (acutest_count_ == 0) { for (i = 0; acutest_list_[i].func != NULL; i++) acutest_remember_(i); } /* Guess whether we want to run unit tests as child processes. */ if (acutest_no_exec_ < 0) { acutest_no_exec_ = 0; if (acutest_count_ <= 1) { acutest_no_exec_ = 1; } else { #ifdef ACUTEST_WIN_ if (IsDebuggerPresent()) acutest_no_exec_ = 1; #endif #ifdef ACUTEST_LINUX_ if (acutest_is_tracer_present_()) acutest_no_exec_ = 1; #endif #ifdef ACUTEST_MACOS_ if (acutest_AmIBeingDebugged()) acutest_no_exec_ = 1; #endif #ifdef RUNNING_ON_VALGRIND /* RUNNING_ON_VALGRIND is provided by optionally included * */ if (RUNNING_ON_VALGRIND) acutest_no_exec_ = 1; #endif } } if (acutest_tap_) { /* TAP requires we know test result ("ok", "not ok") before we output * anything about the test, and this gets problematic for larger verbose * levels. */ if (acutest_verbose_level_ > 2) acutest_verbose_level_ = 2; /* TAP harness should provide some summary. */ acutest_no_summary_ = 1; if (!acutest_worker_) printf("1..%d\n", (int)acutest_count_); } int index = acutest_worker_index_; for (i = 0; acutest_list_[i].func != NULL; i++) { int run = (acutest_test_data_[i].flags & ACUTEST_FLAG_RUN_); if (acutest_skip_mode_) /* Run all tests except those listed. */ run = !run; if (run) acutest_run_(´st_list_[i], index++, i); } /* Write a summary */ if (!acutest_no_summary_ && acutest_verbose_level_ >= 1) { if (acutest_verbose_level_ >= 3) { acutest_colored_printf_(ACUTEST_COLOR_DEFAULT_INTENSIVE_, "Summary:\n"); printf(" Count of all unit tests: %4d\n", (int)acutest_list_size_); printf(" Count of run unit tests: %4d\n", acutest_stat_run_units_); printf(" Count of failed unit tests: %4d\n", acutest_stat_failed_units_); printf(" Count of skipped unit tests: %4d\n", (int)acutest_list_size_ - acutest_stat_run_units_); } if (acutest_stat_failed_units_ == 0) { acutest_colored_printf_(ACUTEST_COLOR_GREEN_INTENSIVE_, "SUCCESS:"); printf(" All unit tests have passed.\n"); } else { acutest_colored_printf_(ACUTEST_COLOR_RED_INTENSIVE_, "FAILED:"); printf(" %d of %d unit tests %s failed.\n", acutest_stat_failed_units_, acutest_stat_run_units_, (acutest_stat_failed_units_ == 1) ? "has" : "have"); } if (acutest_verbose_level_ >= 3) printf("\n"); } if (acutest_xml_output_) { #if defined ACUTEST_UNIX_ char *suite_name = basename(argv[0]); #elif defined ACUTEST_WIN_ char suite_name[_MAX_FNAME]; _splitpath(argv[0], NULL, NULL, suite_name, NULL); #else const char *suite_name = argv[0]; #endif fprintf(acutest_xml_output_, "\n"); fprintf(acutest_xml_output_, "\n", suite_name, (int)acutest_list_size_, acutest_stat_failed_units_, acutest_stat_failed_units_, (int)acutest_list_size_ - acutest_stat_run_units_); for (i = 0; acutest_list_[i].func != NULL; i++) { struct acutest_test_data_ *details = ´st_test_data_[i]; fprintf(acutest_xml_output_, " \n", acutest_list_[i].name, details->duration); if (details->flags & ACUTEST_FLAG_FAILURE_) fprintf(acutest_xml_output_, " \n"); if (!(details->flags & ACUTEST_FLAG_FAILURE_) && !(details->flags & ACUTEST_FLAG_SUCCESS_)) fprintf(acutest_xml_output_, " \n"); fprintf(acutest_xml_output_, " \n"); } fprintf(acutest_xml_output_, "\n"); fclose(acutest_xml_output_); } acutest_cleanup_(); return (acutest_stat_failed_units_ == 0) ? 0 : 1; } #endif /* #ifndef TEST_NO_MAIN */ #ifdef _MSC_VER #pragma warning(pop) #endif #ifdef __cplusplus } /* extern "C" */ #endif #endif /* #ifndef ACUTEST_H */