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/*
* Copyright (c) 2011-2021 Scott Vokes <vokes.s@gmail.com>
*
* Permission to use, copy, modify, and/or distribute this software for any
* purpose with or without fee is hereby granted, provided that the above
* copyright notice and this permission notice appear in all copies.
*
* THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES
* WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF
* MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR
* ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES
* WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN
* ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF
* OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.
*/
#ifndef GREATEST_H
#define GREATEST_H
#if defined(__cplusplus) && !defined(GREATEST_NO_EXTERN_CPLUSPLUS)
extern "C" {
#endif
/* 1.5.0 */
#define GREATEST_VERSION_MAJOR 1
#define GREATEST_VERSION_MINOR 5
#define GREATEST_VERSION_PATCH 0
/* A unit testing system for C, contained in 1 file.
* It doesn't use dynamic allocation or depend on anything
* beyond ANSI C89.
*
* An up-to-date version can be found at:
* https://github.com/silentbicycle/greatest/
*/
/*********************************************************************
* Minimal test runner template
*********************************************************************/
#if 0
#include "greatest.h"
TEST foo_should_foo(void) {
PASS();
}
static void setup_cb(void *data) {
printf("setup callback for each test case\n");
}
static void teardown_cb(void *data) {
printf("teardown callback for each test case\n");
}
SUITE(suite) {
/* Optional setup/teardown callbacks which will be run before/after
* every test case. If using a test suite, they will be cleared when
* the suite finishes. */
SET_SETUP(setup_cb, voidp_to_callback_data);
SET_TEARDOWN(teardown_cb, voidp_to_callback_data);
RUN_TEST(foo_should_foo);
}
/* Add definitions that need to be in the test runner's main file. */
GREATEST_MAIN_DEFS();
/* Set up, run suite(s) of tests, report pass/fail/skip stats. */
int run_tests(void) {
GREATEST_INIT(); /* init. greatest internals */
/* List of suites to run (if any). */
RUN_SUITE(suite);
/* Tests can also be run directly, without using test suites. */
RUN_TEST(foo_should_foo);
GREATEST_PRINT_REPORT(); /* display results */
return greatest_all_passed();
}
/* main(), for a standalone command-line test runner.
* This replaces run_tests above, and adds command line option
* handling and exiting with a pass/fail status. */
int main(int argc, char **argv) {
GREATEST_MAIN_BEGIN(); /* init & parse command-line args */
RUN_SUITE(suite);
GREATEST_MAIN_END(); /* display results */
}
#endif
/*********************************************************************/
#include <stdlib.h>
#include <stdio.h>
#include <string.h>
#include <ctype.h>
/***********
* Options *
***********/
/* Default column width for non-verbose output. */
#ifndef GREATEST_DEFAULT_WIDTH
#define GREATEST_DEFAULT_WIDTH 72
#endif
/* FILE *, for test logging. */
#ifndef GREATEST_STDOUT
#define GREATEST_STDOUT stdout
#endif
/* Remove GREATEST_ prefix from most commonly used symbols? */
#ifndef GREATEST_USE_ABBREVS
#define GREATEST_USE_ABBREVS 1
#endif
/* Set to 0 to disable all use of setjmp/longjmp. */
#ifndef GREATEST_USE_LONGJMP
#define GREATEST_USE_LONGJMP 0
#endif
/* Make it possible to replace fprintf with another
* function with the same interface. */
#ifndef GREATEST_FPRINTF
#define GREATEST_FPRINTF fprintf
#endif
#if GREATEST_USE_LONGJMP
#include <setjmp.h>
#endif
/* Set to 0 to disable all use of time.h / clock(). */
#ifndef GREATEST_USE_TIME
#define GREATEST_USE_TIME 1
#endif
#if GREATEST_USE_TIME
#include <time.h>
#endif
/* Floating point type, for ASSERT_IN_RANGE. */
#ifndef GREATEST_FLOAT
#define GREATEST_FLOAT double
#define GREATEST_FLOAT_FMT "%g"
#endif
/* Size of buffer for test name + optional '_' separator and suffix */
#ifndef GREATEST_TESTNAME_BUF_SIZE
#define GREATEST_TESTNAME_BUF_SIZE 128
#endif
/*********
* Types *
*********/
/* Info for the current running suite. */
typedef struct greatest_suite_info {
unsigned int tests_run;
unsigned int passed;
unsigned int failed;
unsigned int skipped;
#if GREATEST_USE_TIME
/* timers, pre/post running suite and individual tests */
clock_t pre_suite;
clock_t post_suite;
clock_t pre_test;
clock_t post_test;
#endif
} greatest_suite_info;
/* Type for a suite function. */
typedef void greatest_suite_cb(void);
/* Types for setup/teardown callbacks. If non-NULL, these will be run
* and passed the pointer to their additional data. */
typedef void greatest_setup_cb(void *udata);
typedef void greatest_teardown_cb(void *udata);
/* Type for an equality comparison between two pointers of the same type.
* Should return non-0 if equal, otherwise 0.
* UDATA is a closure value, passed through from ASSERT_EQUAL_T[m]. */
typedef int greatest_equal_cb(const void *expd, const void *got, void *udata);
/* Type for a callback that prints a value pointed to by T.
* Return value has the same meaning as printf's.
* UDATA is a closure value, passed through from ASSERT_EQUAL_T[m]. */
typedef int greatest_printf_cb(const void *t, void *udata);
/* Callbacks for an arbitrary type; needed for type-specific
* comparisons via GREATEST_ASSERT_EQUAL_T[m].*/
typedef struct greatest_type_info {
greatest_equal_cb *equal;
greatest_printf_cb *print;
} greatest_type_info;
typedef struct greatest_memory_cmp_env {
const unsigned char *exp;
const unsigned char *got;
size_t size;
} greatest_memory_cmp_env;
/* Callbacks for string and raw memory types. */
extern greatest_type_info greatest_type_info_string;
extern greatest_type_info greatest_type_info_memory;
typedef enum {
GREATEST_FLAG_FIRST_FAIL = 0x01,
GREATEST_FLAG_LIST_ONLY = 0x02,
GREATEST_FLAG_ABORT_ON_FAIL = 0x04
} greatest_flag_t;
/* Internal state for a PRNG, used to shuffle test order. */
struct greatest_prng {
unsigned char random_order; /* use random ordering? */
unsigned char initialized; /* is random ordering initialized? */
unsigned char pad_0[6];
unsigned long state; /* PRNG state */
unsigned long count; /* how many tests, this pass */
unsigned long count_ceil; /* total number of tests */
unsigned long count_run; /* total tests run */
unsigned long a; /* LCG multiplier */
unsigned long c; /* LCG increment */
unsigned long m; /* LCG modulus, based on count_ceil */
};
/* Struct containing all test runner state. */
typedef struct greatest_run_info {
unsigned char flags;
unsigned char verbosity;
unsigned char running_test; /* guard for nested RUN_TEST calls */
unsigned char exact_name_match;
unsigned int tests_run; /* total test count */
/* currently running test suite */
greatest_suite_info suite;
/* overall pass/fail/skip counts */
unsigned int passed;
unsigned int failed;
unsigned int skipped;
unsigned int assertions;
/* info to print about the most recent failure */
unsigned int fail_line;
unsigned int pad_1;
const char *fail_file;
const char *msg;
/* current setup/teardown hooks and userdata */
greatest_setup_cb *setup;
void *setup_udata;
greatest_teardown_cb *teardown;
void *teardown_udata;
/* formatting info for ".....s...F"-style output */
unsigned int col;
unsigned int width;
/* only run a specific suite or test */
const char *suite_filter;
const char *test_filter;
const char *test_exclude;
const char *name_suffix; /* print suffix with test name */
char name_buf[GREATEST_TESTNAME_BUF_SIZE];
struct greatest_prng prng[2]; /* 0: suites, 1: tests */
#if GREATEST_USE_TIME
/* overall timers */
clock_t begin;
clock_t end;
#endif
#if GREATEST_USE_LONGJMP
int pad_jmp_buf;
unsigned char pad_2[4];
jmp_buf jump_dest;
#endif
} greatest_run_info;
struct greatest_report_t {
/* overall pass/fail/skip counts */
unsigned int passed;
unsigned int failed;
unsigned int skipped;
unsigned int assertions;
};
/* Global var for the current testing context.
* Initialized by GREATEST_MAIN_DEFS(). */
extern greatest_run_info greatest_info;
/* Type for ASSERT_ENUM_EQ's ENUM_STR argument. */
typedef const char *greatest_enum_str_fun(int value);
/**********************
* Exported functions *
**********************/
/* These are used internally by greatest macros. */
int greatest_test_pre(const char *name);
void greatest_test_post(int res);
int greatest_do_assert_equal_t(const void *expd, const void *got,
greatest_type_info *type_info, void *udata);
void greatest_prng_init_first_pass(int id);
int greatest_prng_init_second_pass(int id, unsigned long seed);
void greatest_prng_step(int id);
/* These are part of the public greatest API. */
void GREATEST_SET_SETUP_CB(greatest_setup_cb *cb, void *udata);
void GREATEST_SET_TEARDOWN_CB(greatest_teardown_cb *cb, void *udata);
void GREATEST_INIT(void);
void GREATEST_PRINT_REPORT(void);
int greatest_all_passed(void);
void greatest_set_suite_filter(const char *filter);
void greatest_set_test_filter(const char *filter);
void greatest_set_test_exclude(const char *filter);
void greatest_set_exact_name_match(void);
void greatest_stop_at_first_fail(void);
void greatest_abort_on_fail(void);
void greatest_list_only(void);
void greatest_get_report(struct greatest_report_t *report);
unsigned int greatest_get_verbosity(void);
void greatest_set_verbosity(unsigned int verbosity);
void greatest_set_flag(greatest_flag_t flag);
void greatest_set_test_suffix(const char *suffix);
/********************
* Language Support *
********************/
/* If __VA_ARGS__ (C99) is supported, allow parametric testing
* without needing to manually manage the argument struct. */
#if (defined(__STDC_VERSION__) && __STDC_VERSION__ >= 19901L) || \
(defined(_MSC_VER) && _MSC_VER >= 1800)
#define GREATEST_VA_ARGS
#endif
/**********
* Macros *
**********/
/* Define a suite. (The duplication is intentional -- it eliminates
* a warning from -Wmissing-declarations.) */
#define GREATEST_SUITE(NAME) void NAME(void); void NAME(void)
/* Declare a suite, provided by another compilation unit. */
#define GREATEST_SUITE_EXTERN(NAME) void NAME(void)
/* Start defining a test function.
* The arguments are not included, to allow parametric testing. */
#define GREATEST_TEST static enum greatest_test_res
/* PASS/FAIL/SKIP result from a test. Used internally. */
typedef enum greatest_test_res {
GREATEST_TEST_RES_PASS = 0,
GREATEST_TEST_RES_FAIL = -1,
GREATEST_TEST_RES_SKIP = 1
} greatest_test_res;
/* Run a suite. */
#define GREATEST_RUN_SUITE(S_NAME) greatest_run_suite(S_NAME, #S_NAME)
/* Run a test in the current suite. */
#define GREATEST_RUN_TEST(TEST) \
do { \
if (greatest_test_pre(#TEST) == 1) { \
enum greatest_test_res res = GREATEST_SAVE_CONTEXT(); \
if (res == GREATEST_TEST_RES_PASS) { \
res = TEST(); \
} \
greatest_test_post(res); \
} \
} while (0)
/* Ignore a test, don't warn about it being unused. */
#define GREATEST_IGNORE_TEST(TEST) (void)TEST
/* Run a test in the current suite with one void * argument,
* which can be a pointer to a struct with multiple arguments. */
#define GREATEST_RUN_TEST1(TEST, ENV) \
do { \
if (greatest_test_pre(#TEST) == 1) { \
enum greatest_test_res res = GREATEST_SAVE_CONTEXT(); \
if (res == GREATEST_TEST_RES_PASS) { \
res = TEST(ENV); \
} \
greatest_test_post(res); \
} \
} while (0)
#ifdef GREATEST_VA_ARGS
#define GREATEST_RUN_TESTp(TEST, ...) \
do { \
if (greatest_test_pre(#TEST) == 1) { \
enum greatest_test_res res = GREATEST_SAVE_CONTEXT(); \
if (res == GREATEST_TEST_RES_PASS) { \
res = TEST(__VA_ARGS__); \
} \
greatest_test_post(res); \
} \
} while (0)
#endif
/* Check if the test runner is in verbose mode. */
#define GREATEST_IS_VERBOSE() ((greatest_info.verbosity) > 0)
#define GREATEST_LIST_ONLY() \
(greatest_info.flags & GREATEST_FLAG_LIST_ONLY)
#define GREATEST_FIRST_FAIL() \
(greatest_info.flags & GREATEST_FLAG_FIRST_FAIL)
#define GREATEST_ABORT_ON_FAIL() \
(greatest_info.flags & GREATEST_FLAG_ABORT_ON_FAIL)
#define GREATEST_FAILURE_ABORT() \
(GREATEST_FIRST_FAIL() && \
(greatest_info.suite.failed > 0 || greatest_info.failed > 0))
/* Message-less forms of tests defined below. */
#define GREATEST_PASS() GREATEST_PASSm(NULL)
#define GREATEST_FAIL() GREATEST_FAILm(NULL)
#define GREATEST_SKIP() GREATEST_SKIPm(NULL)
#define GREATEST_ASSERT(COND) \
GREATEST_ASSERTm(#COND, COND)
#define GREATEST_ASSERT_OR_LONGJMP(COND) \
GREATEST_ASSERT_OR_LONGJMPm(#COND, COND)
#define GREATEST_ASSERT_FALSE(COND) \
GREATEST_ASSERT_FALSEm(#COND, COND)
#define GREATEST_ASSERT_EQ(EXP, GOT) \
GREATEST_ASSERT_EQm(#EXP " != " #GOT, EXP, GOT)
#define GREATEST_ASSERT_NEQ(EXP, GOT) \
GREATEST_ASSERT_NEQm(#EXP " == " #GOT, EXP, GOT)
#define GREATEST_ASSERT_GT(EXP, GOT) \
GREATEST_ASSERT_GTm(#EXP " <= " #GOT, EXP, GOT)
#define GREATEST_ASSERT_GTE(EXP, GOT) \
GREATEST_ASSERT_GTEm(#EXP " < " #GOT, EXP, GOT)
#define GREATEST_ASSERT_LT(EXP, GOT) \
GREATEST_ASSERT_LTm(#EXP " >= " #GOT, EXP, GOT)
#define GREATEST_ASSERT_LTE(EXP, GOT) \
GREATEST_ASSERT_LTEm(#EXP " > " #GOT, EXP, GOT)
#define GREATEST_ASSERT_EQ_FMT(EXP, GOT, FMT) \
GREATEST_ASSERT_EQ_FMTm(#EXP " != " #GOT, EXP, GOT, FMT)
#define GREATEST_ASSERT_IN_RANGE(EXP, GOT, TOL) \
GREATEST_ASSERT_IN_RANGEm(#EXP " != " #GOT " +/- " #TOL, EXP, GOT, TOL)
#define GREATEST_ASSERT_EQUAL_T(EXP, GOT, TYPE_INFO, UDATA) \
GREATEST_ASSERT_EQUAL_Tm(#EXP " != " #GOT, EXP, GOT, TYPE_INFO, UDATA)
#define GREATEST_ASSERT_STR_EQ(EXP, GOT) \
GREATEST_ASSERT_STR_EQm(#EXP " != " #GOT, EXP, GOT)
#define GREATEST_ASSERT_STRN_EQ(EXP, GOT, SIZE) \
GREATEST_ASSERT_STRN_EQm(#EXP " != " #GOT, EXP, GOT, SIZE)
#define GREATEST_ASSERT_MEM_EQ(EXP, GOT, SIZE) \
GREATEST_ASSERT_MEM_EQm(#EXP " != " #GOT, EXP, GOT, SIZE)
#define GREATEST_ASSERT_ENUM_EQ(EXP, GOT, ENUM_STR) \
GREATEST_ASSERT_ENUM_EQm(#EXP " != " #GOT, EXP, GOT, ENUM_STR)
/* The following forms take an additional message argument first,
* to be displayed by the test runner. */
/* Fail if a condition is not true, with message. */
#define GREATEST_ASSERTm(MSG, COND) \
do { \
greatest_info.assertions++; \
if (!(COND)) { GREATEST_FAILm(MSG); } \
} while (0)
/* Fail if a condition is not true, longjmping out of test. */
#define GREATEST_ASSERT_OR_LONGJMPm(MSG, COND) \
do { \
greatest_info.assertions++; \
if (!(COND)) { GREATEST_FAIL_WITH_LONGJMPm(MSG); } \
} while (0)
/* Fail if a condition is not false, with message. */
#define GREATEST_ASSERT_FALSEm(MSG, COND) \
do { \
greatest_info.assertions++; \
if ((COND)) { GREATEST_FAILm(MSG); } \
} while (0)
/* Internal macro for relational assertions */
#define GREATEST__REL(REL, MSG, EXP, GOT) \
do { \
greatest_info.assertions++; \
if (!((EXP) REL (GOT))) { GREATEST_FAILm(MSG); } \
} while (0)
/* Fail if EXP is not ==, !=, >, <, >=, or <= to GOT. */
#define GREATEST_ASSERT_EQm(MSG,E,G) GREATEST__REL(==, MSG,E,G)
#define GREATEST_ASSERT_NEQm(MSG,E,G) GREATEST__REL(!=, MSG,E,G)
#define GREATEST_ASSERT_GTm(MSG,E,G) GREATEST__REL(>, MSG,E,G)
#define GREATEST_ASSERT_GTEm(MSG,E,G) GREATEST__REL(>=, MSG,E,G)
#define GREATEST_ASSERT_LTm(MSG,E,G) GREATEST__REL(<, MSG,E,G)
#define GREATEST_ASSERT_LTEm(MSG,E,G) GREATEST__REL(<=, MSG,E,G)
/* Fail if EXP != GOT (equality comparison by ==).
* Warning: FMT, EXP, and GOT will be evaluated more
* than once on failure. */
#define GREATEST_ASSERT_EQ_FMTm(MSG, EXP, GOT, FMT) \
do { \
greatest_info.assertions++; \
if ((EXP) != (GOT)) { \
GREATEST_FPRINTF(GREATEST_STDOUT, "\nExpected: "); \
GREATEST_FPRINTF(GREATEST_STDOUT, FMT, EXP); \
GREATEST_FPRINTF(GREATEST_STDOUT, "\n Got: "); \
GREATEST_FPRINTF(GREATEST_STDOUT, FMT, GOT); \
GREATEST_FPRINTF(GREATEST_STDOUT, "\n"); \
GREATEST_FAILm(MSG); \
} \
} while (0)
/* Fail if EXP is not equal to GOT, printing enum IDs. */
#define GREATEST_ASSERT_ENUM_EQm(MSG, EXP, GOT, ENUM_STR) \
do { \
int greatest_EXP = (int)(EXP); \
int greatest_GOT = (int)(GOT); \
greatest_enum_str_fun *greatest_ENUM_STR = ENUM_STR; \
if (greatest_EXP != greatest_GOT) { \
GREATEST_FPRINTF(GREATEST_STDOUT, "\nExpected: %s", \
greatest_ENUM_STR(greatest_EXP)); \
GREATEST_FPRINTF(GREATEST_STDOUT, "\n Got: %s\n", \
greatest_ENUM_STR(greatest_GOT)); \
GREATEST_FAILm(MSG); \
} \
} while (0) \
/* Fail if GOT not in range of EXP +|- TOL. */
#define GREATEST_ASSERT_IN_RANGEm(MSG, EXP, GOT, TOL) \
do { \
GREATEST_FLOAT greatest_EXP = (EXP); \
GREATEST_FLOAT greatest_GOT = (GOT); \
GREATEST_FLOAT greatest_TOL = (TOL); \
greatest_info.assertions++; \
if ((greatest_EXP > greatest_GOT && \
greatest_EXP - greatest_GOT > greatest_TOL) || \
(greatest_EXP < greatest_GOT && \
greatest_GOT - greatest_EXP > greatest_TOL)) { \
GREATEST_FPRINTF(GREATEST_STDOUT, \
"\nExpected: " GREATEST_FLOAT_FMT \
" +/- " GREATEST_FLOAT_FMT \
"\n Got: " GREATEST_FLOAT_FMT \
"\n", \
greatest_EXP, greatest_TOL, greatest_GOT); \
GREATEST_FAILm(MSG); \
} \
} while (0)
/* Fail if EXP is not equal to GOT, according to strcmp. */
#define GREATEST_ASSERT_STR_EQm(MSG, EXP, GOT) \
do { \
GREATEST_ASSERT_EQUAL_Tm(MSG, EXP, GOT, \
&greatest_type_info_string, NULL); \
} while (0) \
/* Fail if EXP is not equal to GOT, according to strncmp. */
#define GREATEST_ASSERT_STRN_EQm(MSG, EXP, GOT, SIZE) \
do { \
size_t size = SIZE; \
GREATEST_ASSERT_EQUAL_Tm(MSG, EXP, GOT, \
&greatest_type_info_string, &size); \
} while (0) \
/* Fail if EXP is not equal to GOT, according to memcmp. */
#define GREATEST_ASSERT_MEM_EQm(MSG, EXP, GOT, SIZE) \
do { \
greatest_memory_cmp_env env; \
env.exp = (const unsigned char *)EXP; \
env.got = (const unsigned char *)GOT; \
env.size = SIZE; \
GREATEST_ASSERT_EQUAL_Tm(MSG, env.exp, env.got, \
&greatest_type_info_memory, &env); \
} while (0) \
/* Fail if EXP is not equal to GOT, according to a comparison
* callback in TYPE_INFO. If they are not equal, optionally use a
* print callback in TYPE_INFO to print them. */
#define GREATEST_ASSERT_EQUAL_Tm(MSG, EXP, GOT, TYPE_INFO, UDATA) \
do { \
greatest_type_info *type_info = (TYPE_INFO); \
greatest_info.assertions++; \
if (!greatest_do_assert_equal_t(EXP, GOT, \
type_info, UDATA)) { \
if (type_info == NULL || type_info->equal == NULL) { \
GREATEST_FAILm("type_info->equal callback missing!"); \
} else { \
GREATEST_FAILm(MSG); \
} \
} \
} while (0) \
/* Pass. */
#define GREATEST_PASSm(MSG) \
do { \
greatest_info.msg = MSG; \
return GREATEST_TEST_RES_PASS; \
} while (0)
/* Fail. */
#define GREATEST_FAILm(MSG) \
do { \
greatest_info.fail_file = __FILE__; \
greatest_info.fail_line = __LINE__; \
greatest_info.msg = MSG; \
if (GREATEST_ABORT_ON_FAIL()) { abort(); } \
return GREATEST_TEST_RES_FAIL; \
} while (0)
/* Optional GREATEST_FAILm variant that longjmps. */
#if GREATEST_USE_LONGJMP
#define GREATEST_FAIL_WITH_LONGJMP() GREATEST_FAIL_WITH_LONGJMPm(NULL)
#define GREATEST_FAIL_WITH_LONGJMPm(MSG) \
do { \
greatest_info.fail_file = __FILE__; \
greatest_info.fail_line = __LINE__; \
greatest_info.msg = MSG; \
longjmp(greatest_info.jump_dest, GREATEST_TEST_RES_FAIL); \
} while (0)
#endif
/* Skip the current test. */
#define GREATEST_SKIPm(MSG) \
do { \
greatest_info.msg = MSG; \
return GREATEST_TEST_RES_SKIP; \
} while (0)
/* Check the result of a subfunction using ASSERT, etc. */
#define GREATEST_CHECK_CALL(RES) \
do { \
enum greatest_test_res greatest_RES = RES; \
if (greatest_RES != GREATEST_TEST_RES_PASS) { \
return greatest_RES; \
} \
} while (0) \
#if GREATEST_USE_TIME
#define GREATEST_SET_TIME(NAME) \
NAME = clock(); \
if (NAME == (clock_t) -1) { \
GREATEST_FPRINTF(GREATEST_STDOUT, \
"clock error: %s\n", #NAME); \
exit(EXIT_FAILURE); \
}
#define GREATEST_CLOCK_DIFF(C1, C2) \
GREATEST_FPRINTF(GREATEST_STDOUT, " (%lu ticks, %.3f sec)", \
(long unsigned int) (C2) - (long unsigned int)(C1), \
(double)((C2) - (C1)) / (1.0 * (double)CLOCKS_PER_SEC))
#else
#define GREATEST_SET_TIME(UNUSED)
#define GREATEST_CLOCK_DIFF(UNUSED1, UNUSED2)
#endif
#if GREATEST_USE_LONGJMP
#define GREATEST_SAVE_CONTEXT() \
/* setjmp returns 0 (GREATEST_TEST_RES_PASS) on first call * \
* so the test runs, then RES_FAIL from FAIL_WITH_LONGJMP. */ \
((enum greatest_test_res)(setjmp(greatest_info.jump_dest)))
#else
#define GREATEST_SAVE_CONTEXT() \
/*a no-op, since setjmp/longjmp aren't being used */ \
GREATEST_TEST_RES_PASS
#endif
/* Run every suite / test function run within BODY in pseudo-random
* order, seeded by SEED. (The top 3 bits of the seed are ignored.)
*
* This should be called like:
* GREATEST_SHUFFLE_TESTS(seed, {
* GREATEST_RUN_TEST(some_test);
* GREATEST_RUN_TEST(some_other_test);
* GREATEST_RUN_TEST(yet_another_test);
* });
*
* Note that the body of the second argument will be evaluated
* multiple times. */
#define GREATEST_SHUFFLE_SUITES(SD, BODY) GREATEST_SHUFFLE(0, SD, BODY)
#define GREATEST_SHUFFLE_TESTS(SD, BODY) GREATEST_SHUFFLE(1, SD, BODY)
#define GREATEST_SHUFFLE(ID, SD, BODY) \
do { \
struct greatest_prng *prng = &greatest_info.prng[ID]; \
greatest_prng_init_first_pass(ID); \
do { \
prng->count = 0; \
if (prng->initialized) { greatest_prng_step(ID); } \
BODY; \
if (!prng->initialized) { \
if (!greatest_prng_init_second_pass(ID, SD)) { break; } \
} else if (prng->count_run == prng->count_ceil) { \
break; \
} \
} while (!GREATEST_FAILURE_ABORT()); \
prng->count_run = prng->random_order = prng->initialized = 0; \
} while(0)
/* Include several function definitions in the main test file. */
#define GREATEST_MAIN_DEFS() \
\
/* Is FILTER a subset of NAME? */ \
static int greatest_name_match(const char *name, const char *filter, \
int res_if_none) { \
size_t offset = 0; \
size_t filter_len = filter ? strlen(filter) : 0; \
if (filter_len == 0) { return res_if_none; } /* no filter */ \
if (greatest_info.exact_name_match && strlen(name) != filter_len) { \
return 0; /* ignore substring matches */ \
} \
while (name[offset] != '\0') { \
if (name[offset] == filter[0]) { \
if (0 == strncmp(&name[offset], filter, filter_len)) { \
return 1; \
} \
} \
offset++; \
} \
\
return 0; \
} \
\
static void greatest_buffer_test_name(const char *name) { \
struct greatest_run_info *g = &greatest_info; \
size_t len = strlen(name), size = sizeof(g->name_buf); \
memset(g->name_buf, 0x00, size); \
(void)strncat(g->name_buf, name, size - 1); \
if (g->name_suffix && (len + 1 < size)) { \
g->name_buf[len] = '_'; \
strncat(&g->name_buf[len+1], g->name_suffix, size-(len+2)); \
} \
} \
\
/* Before running a test, check the name filtering and \
* test shuffling state, if applicable, and then call setup hooks. */ \
int greatest_test_pre(const char *name) { \
struct greatest_run_info *g = &greatest_info; \
int match; \
greatest_buffer_test_name(name); \
match = greatest_name_match(g->name_buf, g->test_filter, 1) && \
!greatest_name_match(g->name_buf, g->test_exclude, 0); \
if (GREATEST_LIST_ONLY()) { /* just listing test names */ \
if (match) { \
GREATEST_FPRINTF(GREATEST_STDOUT, " %s\n", g->name_buf); \
} \
goto clear; \
} \
if (match && (!GREATEST_FIRST_FAIL() || g->suite.failed == 0)) { \
struct greatest_prng *p = &g->prng[1]; \
if (p->random_order) { \
p->count++; \
if (!p->initialized || ((p->count - 1) != p->state)) { \
goto clear; /* don't run this test yet */ \
} \
} \
if (g->running_test) { \
fprintf(stderr, "Error: Test run inside another test.\n"); \
return 0; \
} \
GREATEST_SET_TIME(g->suite.pre_test); \
if (g->setup) { g->setup(g->setup_udata); } \
p->count_run++; \
g->running_test = 1; \
return 1; /* test should be run */ \
} else { \
goto clear; /* skipped */ \
} \
clear: \
g->name_suffix = NULL; \
return 0; \
} \
\
static void greatest_do_pass(void) { \
struct greatest_run_info *g = &greatest_info; \
if (GREATEST_IS_VERBOSE()) { \
GREATEST_FPRINTF(GREATEST_STDOUT, "PASS %s: %s", \
g->name_buf, g->msg ? g->msg : ""); \
} else { \
GREATEST_FPRINTF(GREATEST_STDOUT, "."); \
} \
g->suite.passed++; \
} \
\
static void greatest_do_fail(void) { \
struct greatest_run_info *g = &greatest_info; \
if (GREATEST_IS_VERBOSE()) { \
GREATEST_FPRINTF(GREATEST_STDOUT, \
"FAIL %s: %s (%s:%u)", g->name_buf, \
g->msg ? g->msg : "", g->fail_file, g->fail_line); \
} else { \
GREATEST_FPRINTF(GREATEST_STDOUT, "F"); \
g->col++; /* add linebreak if in line of '.'s */ \
if (g->col != 0) { \
GREATEST_FPRINTF(GREATEST_STDOUT, "\n"); \
g->col = 0; \
} \
GREATEST_FPRINTF(GREATEST_STDOUT, "FAIL %s: %s (%s:%u)\n", \
g->name_buf, g->msg ? g->msg : "", \
g->fail_file, g->fail_line); \
} \
g->suite.failed++; \
} \
\
static void greatest_do_skip(void) { \
struct greatest_run_info *g = &greatest_info; \
if (GREATEST_IS_VERBOSE()) { \
GREATEST_FPRINTF(GREATEST_STDOUT, "SKIP %s: %s", \
g->name_buf, g->msg ? g->msg : ""); \
} else { \
GREATEST_FPRINTF(GREATEST_STDOUT, "s"); \
} \
g->suite.skipped++; \
} \
\
void greatest_test_post(int res) { \
GREATEST_SET_TIME(greatest_info.suite.post_test); \
if (greatest_info.teardown) { \
void *udata = greatest_info.teardown_udata; \
greatest_info.teardown(udata); \
} \
\
greatest_info.running_test = 0; \
if (res <= GREATEST_TEST_RES_FAIL) { \
greatest_do_fail(); \
} else if (res >= GREATEST_TEST_RES_SKIP) { \
greatest_do_skip(); \
} else if (res == GREATEST_TEST_RES_PASS) { \
greatest_do_pass(); \
} \
greatest_info.name_suffix = NULL; \
greatest_info.suite.tests_run++; \
greatest_info.col++; \
if (GREATEST_IS_VERBOSE()) { \
GREATEST_CLOCK_DIFF(greatest_info.suite.pre_test, \
greatest_info.suite.post_test); \
GREATEST_FPRINTF(GREATEST_STDOUT, "\n"); \
} else if (greatest_info.col % greatest_info.width == 0) { \
GREATEST_FPRINTF(GREATEST_STDOUT, "\n"); \
greatest_info.col = 0; \
} \
fflush(GREATEST_STDOUT); \
} \
\
static void report_suite(void) { \
if (greatest_info.suite.tests_run > 0) { \
GREATEST_FPRINTF(GREATEST_STDOUT, \
"\n%u test%s - %u passed, %u failed, %u skipped", \
greatest_info.suite.tests_run, \
greatest_info.suite.tests_run == 1 ? "" : "s", \
greatest_info.suite.passed, \
greatest_info.suite.failed, \
greatest_info.suite.skipped); \
GREATEST_CLOCK_DIFF(greatest_info.suite.pre_suite, \
greatest_info.suite.post_suite); \
GREATEST_FPRINTF(GREATEST_STDOUT, "\n"); \
} \
} \
\
static void update_counts_and_reset_suite(void) { \
greatest_info.setup = NULL; \
greatest_info.setup_udata = NULL; \
greatest_info.teardown = NULL; \
greatest_info.teardown_udata = NULL; \
greatest_info.passed += greatest_info.suite.passed; \
greatest_info.failed += greatest_info.suite.failed; \
greatest_info.skipped += greatest_info.suite.skipped; \
greatest_info.tests_run += greatest_info.suite.tests_run; \
memset(&greatest_info.suite, 0, sizeof(greatest_info.suite)); \
greatest_info.col = 0; \
} \
\
static int greatest_suite_pre(const char *suite_name) { \
struct greatest_prng *p = &greatest_info.prng[0]; \
if (!greatest_name_match(suite_name, greatest_info.suite_filter, 1) \
|| (GREATEST_FAILURE_ABORT())) { return 0; } \
if (p->random_order) { \
p->count++; \
if (!p->initialized || ((p->count - 1) != p->state)) { \
return 0; /* don't run this suite yet */ \
} \
} \
p->count_run++; \
update_counts_and_reset_suite(); \
GREATEST_FPRINTF(GREATEST_STDOUT, "\n* Suite %s:\n", suite_name); \
GREATEST_SET_TIME(greatest_info.suite.pre_suite); \
return 1; \
} \
\
static void greatest_suite_post(void) { \
GREATEST_SET_TIME(greatest_info.suite.post_suite); \
report_suite(); \
} \
\
static void greatest_run_suite(greatest_suite_cb *suite_cb, \
const char *suite_name) { \
if (greatest_suite_pre(suite_name)) { \
suite_cb(); \
greatest_suite_post(); \
} \
} \
\
int greatest_do_assert_equal_t(const void *expd, const void *got, \
greatest_type_info *type_info, void *udata) { \
int eq = 0; \
if (type_info == NULL || type_info->equal == NULL) { return 0; } \
eq = type_info->equal(expd, got, udata); \
if (!eq) { \
if (type_info->print != NULL) { \
GREATEST_FPRINTF(GREATEST_STDOUT, "\nExpected: "); \
(void)type_info->print(expd, udata); \
GREATEST_FPRINTF(GREATEST_STDOUT, "\n Got: "); \
(void)type_info->print(got, udata); \
GREATEST_FPRINTF(GREATEST_STDOUT, "\n"); \
} \
} \
return eq; \
} \
\
static void greatest_usage(const char *name) { \
GREATEST_FPRINTF(GREATEST_STDOUT, \
"Usage: %s [-hlfavex] [-s SUITE] [-t TEST] [-x EXCLUDE]\n" \
" -h, --help print this Help\n" \
" -l List suites and tests, then exit (dry run)\n" \
" -f Stop runner after first failure\n" \
" -a Abort on first failure (implies -f)\n" \
" -v Verbose output\n" \
" -s SUITE only run suites containing substring SUITE\n" \
" -t TEST only run tests containing substring TEST\n" \
" -e only run exact name match for -s or -t\n" \
" -x EXCLUDE exclude tests containing substring EXCLUDE\n", \
name); \
} \
\
static void greatest_parse_options(int argc, char **argv) { \
int i = 0; \
for (i = 1; i < argc; i++) { \
if (argv[i][0] == '-') { \
char f = argv[i][1]; \
if ((f == 's' || f == 't' || f == 'x') && argc <= i + 1) { \
greatest_usage(argv[0]); exit(EXIT_FAILURE); \
} \
switch (f) { \
case 's': /* suite name filter */ \
greatest_set_suite_filter(argv[i + 1]); i++; break; \
case 't': /* test name filter */ \
greatest_set_test_filter(argv[i + 1]); i++; break; \
case 'x': /* test name exclusion */ \
greatest_set_test_exclude(argv[i + 1]); i++; break; \
case 'e': /* exact name match */ \
greatest_set_exact_name_match(); break; \
case 'f': /* first fail flag */ \
greatest_stop_at_first_fail(); break; \
case 'a': /* abort() on fail flag */ \
greatest_abort_on_fail(); break; \
case 'l': /* list only (dry run) */ \
greatest_list_only(); break; \
case 'v': /* first fail flag */ \
greatest_info.verbosity++; break; \
case 'h': /* help */ \
greatest_usage(argv[0]); exit(EXIT_SUCCESS); \
default: \
case '-': \
if (0 == strncmp("--help", argv[i], 6)) { \
greatest_usage(argv[0]); exit(EXIT_SUCCESS); \
} else if (0 == strcmp("--", argv[i])) { \
return; /* ignore following arguments */ \
} \
GREATEST_FPRINTF(GREATEST_STDOUT, \
"Unknown argument '%s'\n", argv[i]); \
greatest_usage(argv[0]); \
exit(EXIT_FAILURE); \
} \
} \
} \
} \
\
int greatest_all_passed(void) { return (greatest_info.failed == 0); } \
\
void greatest_set_test_filter(const char *filter) { \
greatest_info.test_filter = filter; \
} \
\
void greatest_set_test_exclude(const char *filter) { \
greatest_info.test_exclude = filter; \
} \
\
void greatest_set_suite_filter(const char *filter) { \
greatest_info.suite_filter = filter; \
} \
\
void greatest_set_exact_name_match(void) { \
greatest_info.exact_name_match = 1; \
} \
\
void greatest_stop_at_first_fail(void) { \
greatest_set_flag(GREATEST_FLAG_FIRST_FAIL); \
} \
\
void greatest_abort_on_fail(void) { \
greatest_set_flag(GREATEST_FLAG_ABORT_ON_FAIL); \
} \
\
void greatest_list_only(void) { \
greatest_set_flag(GREATEST_FLAG_LIST_ONLY); \
} \
\
void greatest_get_report(struct greatest_report_t *report) { \
if (report) { \
report->passed = greatest_info.passed; \
report->failed = greatest_info.failed; \
report->skipped = greatest_info.skipped; \
report->assertions = greatest_info.assertions; \
} \
} \
\
unsigned int greatest_get_verbosity(void) { \
return greatest_info.verbosity; \
} \
\
void greatest_set_verbosity(unsigned int verbosity) { \
greatest_info.verbosity = (unsigned char)verbosity; \
} \
\
void greatest_set_flag(greatest_flag_t flag) { \
greatest_info.flags = (unsigned char)(greatest_info.flags | flag); \
} \
\
void greatest_set_test_suffix(const char *suffix) { \
greatest_info.name_suffix = suffix; \
} \
\
void GREATEST_SET_SETUP_CB(greatest_setup_cb *cb, void *udata) { \
greatest_info.setup = cb; \
greatest_info.setup_udata = udata; \
} \
\
void GREATEST_SET_TEARDOWN_CB(greatest_teardown_cb *cb, void *udata) { \
greatest_info.teardown = cb; \
greatest_info.teardown_udata = udata; \
} \
\
static int greatest_string_equal_cb(const void *expd, const void *got, \
void *udata) { \
size_t *size = (size_t *)udata; \
return (size != NULL \
? (0 == strncmp((const char *)expd, (const char *)got, *size)) \
: (0 == strcmp((const char *)expd, (const char *)got))); \
} \
\
static int greatest_string_printf_cb(const void *t, void *udata) { \
(void)udata; /* note: does not check \0 termination. */ \
return GREATEST_FPRINTF(GREATEST_STDOUT, "%s", (const char *)t); \
} \
\
greatest_type_info greatest_type_info_string = { \
greatest_string_equal_cb, greatest_string_printf_cb, \
}; \
\
static int greatest_memory_equal_cb(const void *expd, const void *got, \
void *udata) { \
greatest_memory_cmp_env *env = (greatest_memory_cmp_env *)udata; \
return (0 == memcmp(expd, got, env->size)); \
} \
\
/* Hexdump raw memory, with differences highlighted */ \
static int greatest_memory_printf_cb(const void *t, void *udata) { \
greatest_memory_cmp_env *env = (greatest_memory_cmp_env *)udata; \
const unsigned char *buf = (const unsigned char *)t; \
unsigned char diff_mark = ' '; \
FILE *out = GREATEST_STDOUT; \
size_t i, line_i, line_len = 0; \
int len = 0; /* format hexdump with differences highlighted */ \
for (i = 0; i < env->size; i+= line_len) { \
diff_mark = ' '; \
line_len = env->size - i; \
if (line_len > 16) { line_len = 16; } \
for (line_i = i; line_i < i + line_len; line_i++) { \
if (env->exp[line_i] != env->got[line_i]) diff_mark = 'X'; \
} \
len += GREATEST_FPRINTF(out, "\n%04x %c ", \
(unsigned int)i, diff_mark); \
for (line_i = i; line_i < i + line_len; line_i++) { \
int m = env->exp[line_i] == env->got[line_i]; /* match? */ \
len += GREATEST_FPRINTF(out, "%02x%c", \
buf[line_i], m ? ' ' : '<'); \
} \
for (line_i = 0; line_i < 16 - line_len; line_i++) { \
len += GREATEST_FPRINTF(out, " "); \
} \
GREATEST_FPRINTF(out, " "); \
for (line_i = i; line_i < i + line_len; line_i++) { \
unsigned char c = buf[line_i]; \
len += GREATEST_FPRINTF(out, "%c", isprint(c) ? c : '.'); \
} \
} \
len += GREATEST_FPRINTF(out, "\n"); \
return len; \
} \
\
void greatest_prng_init_first_pass(int id) { \
greatest_info.prng[id].random_order = 1; \
greatest_info.prng[id].count_run = 0; \
} \
\
int greatest_prng_init_second_pass(int id, unsigned long seed) { \
struct greatest_prng *p = &greatest_info.prng[id]; \
if (p->count == 0) { return 0; } \
p->count_ceil = p->count; \
for (p->m = 1; p->m < p->count; p->m <<= 1) {} \
p->state = seed & 0x1fffffff; /* only use lower 29 bits */ \
p->a = 4LU * p->state; /* to avoid overflow when */ \
p->a = (p->a ? p->a : 4) | 1; /* multiplied by 4 */ \
p->c = 2147483647; /* and so p->c ((2 ** 31) - 1) is */ \
p->initialized = 1; /* always relatively prime to p->a. */ \
fprintf(stderr, "init_second_pass: a %lu, c %lu, state %lu\n", \
p->a, p->c, p->state); \
return 1; \
} \
\
/* Step the pseudorandom number generator until its state reaches \
* another test ID between 0 and the test count. \
* This use a linear congruential pseudorandom number generator, \
* with the power-of-two ceiling of the test count as the modulus, the \
* masked seed as the multiplier, and a prime as the increment. For \
* each generated value < the test count, run the corresponding test. \
* This will visit all IDs 0 <= X < mod once before repeating, \
* with a starting position chosen based on the initial seed. \
* For details, see: Knuth, The Art of Computer Programming \
* Volume. 2, section 3.2.1. */ \
void greatest_prng_step(int id) { \
struct greatest_prng *p = &greatest_info.prng[id]; \
do { \
p->state = ((p->a * p->state) + p->c) & (p->m - 1); \
} while (p->state >= p->count_ceil); \
} \
\
void GREATEST_INIT(void) { \
/* Suppress unused function warning if features aren't used */ \
(void)greatest_run_suite; \
(void)greatest_parse_options; \
(void)greatest_prng_step; \
(void)greatest_prng_init_first_pass; \
(void)greatest_prng_init_second_pass; \
(void)greatest_set_test_suffix; \
\
memset(&greatest_info, 0, sizeof(greatest_info)); \
greatest_info.width = GREATEST_DEFAULT_WIDTH; \
GREATEST_SET_TIME(greatest_info.begin); \
} \
\
/* Report passes, failures, skipped tests, the number of \
* assertions, and the overall run time. */ \
void GREATEST_PRINT_REPORT(void) { \
if (!GREATEST_LIST_ONLY()) { \
update_counts_and_reset_suite(); \
GREATEST_SET_TIME(greatest_info.end); \
GREATEST_FPRINTF(GREATEST_STDOUT, \
"\nTotal: %u test%s", \
greatest_info.tests_run, \
greatest_info.tests_run == 1 ? "" : "s"); \
GREATEST_CLOCK_DIFF(greatest_info.begin, \
greatest_info.end); \
GREATEST_FPRINTF(GREATEST_STDOUT, ", %u assertion%s\n", \
greatest_info.assertions, \
greatest_info.assertions == 1 ? "" : "s"); \
GREATEST_FPRINTF(GREATEST_STDOUT, \
"Pass: %u, fail: %u, skip: %u.\n", \
greatest_info.passed, \
greatest_info.failed, greatest_info.skipped); \
} \
} \
\
greatest_type_info greatest_type_info_memory = { \
greatest_memory_equal_cb, greatest_memory_printf_cb, \
}; \
\
greatest_run_info greatest_info
/* Handle command-line arguments, etc. */
#define GREATEST_MAIN_BEGIN() \
do { \
GREATEST_INIT(); \
greatest_parse_options(argc, argv); \
} while (0)
/* Report results, exit with exit status based on results. */
#define GREATEST_MAIN_END() \
do { \
GREATEST_PRINT_REPORT(); \
return (greatest_all_passed() ? EXIT_SUCCESS : EXIT_FAILURE); \
} while (0)
/* Make abbreviations without the GREATEST_ prefix for the
* most commonly used symbols. */
#if GREATEST_USE_ABBREVS
#define TEST GREATEST_TEST
#define SUITE GREATEST_SUITE
#define SUITE_EXTERN GREATEST_SUITE_EXTERN
#define RUN_TEST GREATEST_RUN_TEST
#define RUN_TEST1 GREATEST_RUN_TEST1
#define RUN_SUITE GREATEST_RUN_SUITE
#define IGNORE_TEST GREATEST_IGNORE_TEST
#define ASSERT GREATEST_ASSERT
#define ASSERTm GREATEST_ASSERTm
#define ASSERT_FALSE GREATEST_ASSERT_FALSE
#define ASSERT_EQ GREATEST_ASSERT_EQ
#define ASSERT_NEQ GREATEST_ASSERT_NEQ
#define ASSERT_GT GREATEST_ASSERT_GT
#define ASSERT_GTE GREATEST_ASSERT_GTE
#define ASSERT_LT GREATEST_ASSERT_LT
#define ASSERT_LTE GREATEST_ASSERT_LTE
#define ASSERT_EQ_FMT GREATEST_ASSERT_EQ_FMT
#define ASSERT_IN_RANGE GREATEST_ASSERT_IN_RANGE
#define ASSERT_EQUAL_T GREATEST_ASSERT_EQUAL_T
#define ASSERT_STR_EQ GREATEST_ASSERT_STR_EQ
#define ASSERT_STRN_EQ GREATEST_ASSERT_STRN_EQ
#define ASSERT_MEM_EQ GREATEST_ASSERT_MEM_EQ
#define ASSERT_ENUM_EQ GREATEST_ASSERT_ENUM_EQ
#define ASSERT_FALSEm GREATEST_ASSERT_FALSEm
#define ASSERT_EQm GREATEST_ASSERT_EQm
#define ASSERT_NEQm GREATEST_ASSERT_NEQm
#define ASSERT_GTm GREATEST_ASSERT_GTm
#define ASSERT_GTEm GREATEST_ASSERT_GTEm
#define ASSERT_LTm GREATEST_ASSERT_LTm
#define ASSERT_LTEm GREATEST_ASSERT_LTEm
#define ASSERT_EQ_FMTm GREATEST_ASSERT_EQ_FMTm
#define ASSERT_IN_RANGEm GREATEST_ASSERT_IN_RANGEm
#define ASSERT_EQUAL_Tm GREATEST_ASSERT_EQUAL_Tm
#define ASSERT_STR_EQm GREATEST_ASSERT_STR_EQm
#define ASSERT_STRN_EQm GREATEST_ASSERT_STRN_EQm
#define ASSERT_MEM_EQm GREATEST_ASSERT_MEM_EQm
#define ASSERT_ENUM_EQm GREATEST_ASSERT_ENUM_EQm
#define PASS GREATEST_PASS
#define FAIL GREATEST_FAIL
#define SKIP GREATEST_SKIP
#define PASSm GREATEST_PASSm
#define FAILm GREATEST_FAILm
#define SKIPm GREATEST_SKIPm
#define SET_SETUP GREATEST_SET_SETUP_CB
#define SET_TEARDOWN GREATEST_SET_TEARDOWN_CB
#define CHECK_CALL GREATEST_CHECK_CALL
#define SHUFFLE_TESTS GREATEST_SHUFFLE_TESTS
#define SHUFFLE_SUITES GREATEST_SHUFFLE_SUITES
#ifdef GREATEST_VA_ARGS
#define RUN_TESTp GREATEST_RUN_TESTp
#endif
#if GREATEST_USE_LONGJMP
#define ASSERT_OR_LONGJMP GREATEST_ASSERT_OR_LONGJMP
#define ASSERT_OR_LONGJMPm GREATEST_ASSERT_OR_LONGJMPm
#define FAIL_WITH_LONGJMP GREATEST_FAIL_WITH_LONGJMP
#define FAIL_WITH_LONGJMPm GREATEST_FAIL_WITH_LONGJMPm
#endif
#endif /* USE_ABBREVS */
#if defined(__cplusplus) && !defined(GREATEST_NO_EXTERN_CPLUSPLUS)
}
#endif
#endif
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