/*
* SPDX-License-Identifier: BSD-2-Clause
*
* Copyright (C) 2017, 2021 embedded brains GmbH
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
*
* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
* AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
* ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE
* LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
* CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
* SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
* INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
* CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
* ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
* POSSIBILITY OF SUCH DAMAGE.
*/
#ifndef THE_T_TEST_FRAMEWORK_H
#define THE_T_TEST_FRAMEWORK_H
#include <stdarg.h>
#include <stdbool.h>
#include <stddef.h>
#include <stdint.h>
#include <string.h>
#ifdef __rtems__
#include <rtems/score/cpu.h>
#include <rtems/rtems/status.h>
#endif
#ifdef __cplusplus
extern "C" {
#endif /* __cplusplus */
/**
* @defgroup RTEMSTestFramework RTEMS Test Framework
*
* @ingroup RTEMSAPI
*
* @brief The RTEMS Test Framework helps you to write tests.
*
* @{
*/
typedef enum {
T_QUIET,
T_NORMAL,
T_VERBOSE
} T_verbosity;
typedef struct T_fixture {
void (*setup)(void *);
void (*stop)(void *);
void (*teardown)(void *);
size_t (*scope)(void *, char *, size_t);
void *initial_context;
} T_fixture;
typedef struct T_fixture_node {
struct T_fixture_node *next;
struct T_fixture_node *previous;
const T_fixture *fixture;
void *context;
unsigned int next_planned_steps;
unsigned int next_steps;
unsigned int failures;
} T_fixture_node;
#define T_ARRAY_SIZE(array) (sizeof(array) / sizeof((array)[0]))
/*
* The __FILE__ includes the full file path from the command line. Enable the
* build system to give a sorter file name via a command line define.
*/
#ifndef T_FILE_NAME
#define T_FILE_NAME __FILE__
#endif
#if defined(__GNUC__) || __STDC_VERSION__ >= 199409L
#define T_ZERO_LENGTH_ARRAY
#else
#define T_ZERO_LENGTH_ARRAY 1
#endif
/** @} */
/**
* @defgroup RTEMSTestFrameworkImpl RTEMS Test Framework Implementation
*
* @ingroup RTEMSTestFramework
*
* @brief Implementation details.
*
* @{
*/
#ifdef __cplusplus
#define T_NO_RETURN [[ noreturn ]]
#else
#define T_NO_RETURN _Noreturn
#endif
typedef struct T_case_context {
const char *name;
void (*body)(void);
const T_fixture *fixture;
const struct T_case_context *next;
} T_case_context;
void T_case_register(T_case_context *);
#define T_CHECK_STOP 1U
#define T_CHECK_QUIET 2U
/* If you change this value, you have to adjust T_VA_ARGS_KIND() as well */
#define T_CHECK_FMT 4U
#define T_CHECK_STEP_FLAG 8U
#define T_CHECK_STEP_TO_FLAGS(step) ((unsigned int)(step) << 8)
#define T_CHECK_STEP_FROM_FLAGS(flags) ((flags) >> 8)
#define T_CHECK_STEP(step) (T_CHECK_STEP_TO_FLAGS(step) | T_CHECK_STEP_FLAG)
typedef struct {
const char *file;
int line;
unsigned int flags;
} T_check_context;
typedef struct {
T_check_context base;
const char *msg;
} T_check_context_msg;
#define T_VA_ARGS_FIRST(...) T_VA_ARGS_FIRST_SELECT(__VA_ARGS__, throw_away)
#define T_VA_ARGS_FIRST_SELECT(first, ...) first
/*
* The T_VA_ARGS_MORE() supports up to nine arguments. It expands to nothing
* if only one argument is given. It expands to a comma and the second and
* following arguments if at least two arguments are present. The 4U shall
* correspond to T_CHECK_FMT.
*/
#define T_VA_ARGS_MORE(...) \
T_VA_ARGS_XEXPAND(T_VA_ARGS_KIND(__VA_ARGS__), __VA_ARGS__)
#define T_VA_ARGS_XEXPAND(kind, ...) T_VA_ARGS_EXPAND(kind, __VA_ARGS__)
#define T_VA_ARGS_EXPAND(kind, ...) T_VA_ARGS_EXPAND_##kind(__VA_ARGS__)
#define T_VA_ARGS_EXPAND_0U(first)
#define T_VA_ARGS_EXPAND_4U(first, ...) , __VA_ARGS__
#define T_VA_ARGS_KIND(...) \
T_VA_ARGS_SELECT(__VA_ARGS__, \
4U, 4U, 4U, 4U, 4U, 4U, 4U, 4U, 0U, throw_away)
#define T_VA_ARGS_SELECT(a1, a2, a3, a4, a5, a6, a7, a8, a9, a10, ...) a10
void T_check(const T_check_context *, bool, ...);
extern const T_check_context T_special;
#define T_flags_true(flags, ...) \
{ \
static const T_check_context T_check_instance = { \
T_FILE_NAME, __LINE__, \
(flags) | T_VA_ARGS_KIND(__VA_ARGS__) }; \
T_check(&T_check_instance, \
T_VA_ARGS_FIRST(__VA_ARGS__) T_VA_ARGS_MORE(__VA_ARGS__)); \
}
#define T_flags_eq(flags, a, ...) \
T_flags_true(flags, \
(a) == (T_VA_ARGS_FIRST(__VA_ARGS__)) T_VA_ARGS_MORE(__VA_ARGS__))
#define T_flags_ne(flags, a, ...) \
T_flags_true(flags, \
(a) != (T_VA_ARGS_FIRST(__VA_ARGS__)) T_VA_ARGS_MORE(__VA_ARGS__))
void T_check_eq_ptr(const T_check_context_msg *, const void *, const void *);
#define T_flags_eq_ptr(a, e, flags, sa, se) \
{ \
static const T_check_context_msg T_check_instance = { \
{ T_FILE_NAME, __LINE__, (flags) | T_CHECK_FMT }, \
sa " == " se }; \
T_check_eq_ptr(&T_check_instance, a, e); \
}
void T_check_ne_ptr(const T_check_context_msg *, const void *, const void *);
#define T_flags_ne_ptr(a, e, flags, sa, se) \
{ \
static const T_check_context_msg T_check_instance = { \
{ T_FILE_NAME, __LINE__, (flags) | T_CHECK_FMT }, \
sa " != " se }; \
T_check_ne_ptr(&T_check_instance, a, e); \
}
void T_check_null(const T_check_context_msg *, const void *);
#define T_flags_null(a, flags, sa) \
{ \
static const T_check_context_msg T_check_instance = { \
{ T_FILE_NAME, __LINE__, (flags) | T_CHECK_FMT }, sa }; \
T_check_null(&T_check_instance, a); \
}
void T_check_not_null(const T_check_context_msg *, const void *);
#define T_flags_not_null(a, flags, sa) \
{ \
static const T_check_context_msg T_check_instance = { \
{ T_FILE_NAME, __LINE__, (flags) | T_CHECK_FMT }, sa }; \
T_check_not_null(&T_check_instance, a); \
}
void T_check_eq_mem(const T_check_context_msg *, const void *, const void *,
size_t);
#define T_flags_eq_mem(a, e, n, flags, sa, se, sn) \
{ \
static const T_check_context_msg T_check_instance = { \
{ T_FILE_NAME, __LINE__, (flags) | T_CHECK_FMT }, \
"memcmp(" sa ", " se ", " sn ") == 0" }; \
T_check_eq_mem(&T_check_instance, a, e, n); \
}
void T_check_ne_mem(const T_check_context_msg *, const void *, const void *,
size_t);
#define T_flags_ne_mem(a, e, n, flags, sa, se, sn) \
{ \
static const T_check_context_msg T_check_instance = { \
{ T_FILE_NAME, __LINE__, (flags) | T_CHECK_FMT }, \
"memcmp(" sa ", " se ", " sn ") != 0" }; \
T_check_ne_mem(&T_check_instance, a, e, n); \
}
void T_check_eq_str(const T_check_context *, const char *, const char *);
#define T_flags_eq_str(a, e, flags) \
{ \
static const T_check_context T_check_instance = { \
T_FILE_NAME, __LINE__, (flags) | T_CHECK_FMT }; \
T_check_eq_str(&T_check_instance, a, e); \
}
void T_check_ne_str(const T_check_context *, const char *, const char *);
#define T_flags_ne_str(a, e, flags) \
{ \
static const T_check_context T_check_instance = { \
T_FILE_NAME, __LINE__, (flags) | T_CHECK_FMT }; \
T_check_ne_str(&T_check_instance, a, e); \
}
void T_check_eq_nstr(const T_check_context *, const char *, const char *,
size_t);
#define T_flags_eq_nstr(a, e, n, flags) \
{ \
static const T_check_context T_check_instance = { \
T_FILE_NAME, __LINE__, (flags) | T_CHECK_FMT }; \
T_check_eq_nstr(&T_check_instance, a, e, n); \
}
void T_check_ne_nstr(const T_check_context *, const char *, const char *,
size_t);
#define T_flags_ne_nstr(a, e, n, flags) \
{ \
static const T_check_context T_check_instance = { \
T_FILE_NAME, __LINE__, (flags) | T_CHECK_FMT }; \
T_check_ne_nstr(&T_check_instance, a, e, n); \
}
void T_check_eq_char(const T_check_context *, char, char);
#define T_flags_eq_char(a, e, flags) \
{ \
static const T_check_context T_check_instance = { \
T_FILE_NAME, __LINE__, (flags) | T_CHECK_FMT }; \
T_check_eq_char(&T_check_instance, a, e); \
}
void T_check_ne_char(const T_check_context *, char, char);
#define T_flags_ne_char(a, e, flags) \
{ \
static const T_check_context T_check_instance = { \
T_FILE_NAME, __LINE__, (flags) | T_CHECK_FMT }; \
T_check_ne_char(&T_check_instance, a, e); \
}
void T_check_eq_int(const T_check_context *, int, int);
#define T_flags_eq_int(a, e, flags) \
{ \
static const T_check_context T_check_instance = { \
T_FILE_NAME, __LINE__, (flags) | T_CHECK_FMT }; \
T_check_eq_int(&T_check_instance, a, e); \
}
void T_check_ne_int(const T_check_context *, int, int);
#define T_flags_ne_int(a, e, flags) \
{ \
static const T_check_context T_check_instance = { \
T_FILE_NAME, __LINE__, (flags) | T_CHECK_FMT }; \
T_check_ne_int(&T_check_instance, a, e); \
}
void T_check_ge_int(const T_check_context *, int, int);
#define T_flags_ge_int(a, e, flags) \
{ \
static const T_check_context T_check_instance = { \
T_FILE_NAME, __LINE__, (flags) | T_CHECK_FMT }; \
T_check_ge_int(&T_check_instance, a, e); \
}
void T_check_gt_int(const T_check_context *, int, int);
#define T_flags_gt_int(a, e, flags) \
{ \
static const T_check_context T_check_instance = { \
T_FILE_NAME, __LINE__, (flags) | T_CHECK_FMT }; \
T_check_gt_int(&T_check_instance, a, e); \
}
void T_check_le_int(const T_check_context *, int, int);
#define T_flags_le_int(a, e, flags) \
{ \
static const T_check_context T_check_instance = { \
T_FILE_NAME, __LINE__, (flags) | T_CHECK_FMT }; \
T_check_le_int(&T_check_instance, a, e); \
}
void T_check_lt_int(const T_check_context *, int, int);
#define T_flags_lt_int(a, e, flags) \
{ \
static const T_check_context T_check_instance = { \
T_FILE_NAME, __LINE__, (flags) | T_CHECK_FMT }; \
T_check_lt_int(&T_check_instance, a, e); \
}
void T_check_eq_uint(const T_check_context *, unsigned int, unsigned int);
#define T_flags_eq_uint(a, e, flags) \
{ \
static const T_check_context T_check_instance = { \
T_FILE_NAME, __LINE__, (flags) | T_CHECK_FMT }; \
T_check_eq_uint(&T_check_instance, a, e); \
}
void T_check_ne_uint(const T_check_context *, unsigned int, unsigned int);
#define T_flags_ne_uint(a, e, flags) \
{ \
static const T_check_context T_check_instance = { \
T_FILE_NAME, __LINE__, (flags) | T_CHECK_FMT }; \
T_check_ne_uint(&T_check_instance, a, e); \
}
void T_check_ge_uint(const T_check_context *, unsigned int, unsigned int);
#define T_flags_ge_uint(a, e, flags) \
{ \
static const T_check_context T_check_instance = { \
T_FILE_NAME, __LINE__, (flags) | T_CHECK_FMT }; \
T_check_ge_uint(&T_check_instance, a, e); \
}
void T_check_gt_uint(const T_check_context *, unsigned int, unsigned int);
#define T_flags_gt_uint(a, e, flags) \
{ \
static const T_check_context T_check_instance = { \
T_FILE_NAME, __LINE__, (flags) | T_CHECK_FMT }; \
T_check_gt_uint(&T_check_instance, a, e); \
}
void T_check_le_uint(const T_check_context *, unsigned int, unsigned int);
#define T_flags_le_uint(a, e, flags) \
{ \
static const T_check_context T_check_instance = { \
T_FILE_NAME, __LINE__, (flags) | T_CHECK_FMT }; \
T_check_le_uint(&T_check_instance, a, e); \
}
void T_check_lt_uint(const T_check_context *, unsigned int, unsigned int);
#define T_flags_lt_uint(a, e, flags) \
{ \
static const T_check_context T_check_instance = { \
T_FILE_NAME, __LINE__, (flags) | T_CHECK_FMT }; \
T_check_lt_uint(&T_check_instance, a, e); \
}
void T_check_eq_long(const T_check_context *, long, long);
#define T_flags_eq_long(a, e, flags) \
{ \
static const T_check_context T_check_instance = { \
T_FILE_NAME, __LINE__, (flags) | T_CHECK_FMT }; \
T_check_eq_long(&T_check_instance, a, e); \
}
void T_check_ne_long(const T_check_context *, long, long);
#define T_flags_ne_long(a, e, flags) \
{ \
static const T_check_context T_check_instance = { \
T_FILE_NAME, __LINE__, (flags) | T_CHECK_FMT }; \
T_check_ne_long(&T_check_instance, a, e); \
}
void T_check_ge_long(const T_check_context *, long, long);
#define T_flags_ge_long(a, e, flags) \
{ \
static const T_check_context T_check_instance = { \
T_FILE_NAME, __LINE__, (flags) | T_CHECK_FMT }; \
T_check_ge_long(&T_check_instance, a, e); \
}
void T_check_gt_long(const T_check_context *, long, long);
#define T_flags_gt_long(a, e, flags) \
{ \
static const T_check_context T_check_instance = { \
T_FILE_NAME, __LINE__, (flags) | T_CHECK_FMT }; \
T_check_gt_long(&T_check_instance, a, e); \
}
void T_check_le_long(const T_check_context *, long, long);
#define T_flags_le_long(a, e, flags) \
{ \
static const T_check_context T_check_instance = { \
T_FILE_NAME, __LINE__, (flags) | T_CHECK_FMT }; \
T_check_le_long(&T_check_instance, a, e); \
}
void T_check_lt_long(const T_check_context *, long, long);
#define T_flags_lt_long(a, e, flags) \
{ \
static const T_check_context T_check_instance = { \
T_FILE_NAME, __LINE__, (flags) | T_CHECK_FMT }; \
T_check_lt_long(&T_check_instance, a, e); \
}
void T_check_eq_ulong(const T_check_context *, unsigned long, unsigned long);
#define T_flags_eq_ulong(a, e, flags) \
{ \
static const T_check_context T_check_instance = { \
T_FILE_NAME, __LINE__, (flags) | T_CHECK_FMT }; \
T_check_eq_ulong(&T_check_instance, a, e); \
}
void T_check_ne_ulong(const T_check_context *, unsigned long, unsigned long);
#define T_flags_ne_ulong(a, e, flags) \
{ \
static const T_check_context T_check_instance = { \
T_FILE_NAME, __LINE__, (flags) | T_CHECK_FMT }; \
T_check_ne_ulong(&T_check_instance, a, e); \
}
void T_check_ge_ulong(const T_check_context *, unsigned long, unsigned long);
#define T_flags_ge_ulong(a, e, flags) \
{ \
static const T_check_context T_check_instance = { \
T_FILE_NAME, __LINE__, (flags) | T_CHECK_FMT }; \
T_check_ge_ulong(&T_check_instance, a, e); \
}
void T_check_gt_ulong(const T_check_context *, unsigned long, unsigned long);
#define T_flags_gt_ulong(a, e, flags) \
{ \
static const T_check_context T_check_instance = { \
T_FILE_NAME, __LINE__, (flags) | T_CHECK_FMT }; \
T_check_gt_ulong(&T_check_instance, a, e); \
}
void T_check_le_ulong(const T_check_context *, unsigned long, unsigned long);
#define T_flags_le_ulong(a, e, flags) \
{ \
static const T_check_context T_check_instance = { \
T_FILE_NAME, __LINE__, (flags) | T_CHECK_FMT }; \
T_check_le_ulong(&T_check_instance, a, e); \
}
void T_check_lt_ulong(const T_check_context *, unsigned long, unsigned long);
#define T_flags_lt_ulong(a, e, flags) \
{ \
static const T_check_context T_check_instance = { \
T_FILE_NAME, __LINE__, (flags) | T_CHECK_FMT }; \
T_check_lt_ulong(&T_check_instance, a, e); \
}
void T_check_eq_ll(const T_check_context *, long long, long long);
#define T_flags_eq_ll(a, e, flags) \
{ \
static const T_check_context T_check_instance = { \
T_FILE_NAME, __LINE__, (flags) | T_CHECK_FMT }; \
T_check_eq_ll(&T_check_instance, a, e); \
}
void T_check_ne_ll(const T_check_context *, long long, long long);
#define T_flags_ne_ll(a, e, flags) \
{ \
static const T_check_context T_check_instance = { \
T_FILE_NAME, __LINE__, (flags) | T_CHECK_FMT }; \
T_check_ne_ll(&T_check_instance, a, e); \
}
void T_check_ge_ll(const T_check_context *, long long, long long);
#define T_flags_ge_ll(a, e, flags) \
{ \
static const T_check_context T_check_instance = { \
T_FILE_NAME, __LINE__, (flags) | T_CHECK_FMT }; \
T_check_ge_ll(&T_check_instance, a, e); \
}
void T_check_gt_ll(const T_check_context *, long long, long long);
#define T_flags_gt_ll(a, e, flags) \
{ \
static const T_check_context T_check_instance = { \
T_FILE_NAME, __LINE__, (flags) | T_CHECK_FMT }; \
T_check_gt_ll(&T_check_instance, a, e); \
}
void T_check_le_ll(const T_check_context *, long long, long long);
#define T_flags_le_ll(a, e, flags) \
{ \
static const T_check_context T_check_instance = { \
T_FILE_NAME, __LINE__, (flags) | T_CHECK_FMT }; \
T_check_le_ll(&T_check_instance, a, e); \
}
void T_check_lt_ll(const T_check_context *, long long, long long);
#define T_flags_lt_ll(a, e, flags) \
{ \
static const T_check_context T_check_instance = { \
T_FILE_NAME, __LINE__, (flags) | T_CHECK_FMT }; \
T_check_lt_ll(&T_check_instance, a, e); \
}
void T_check_eq_ull(const T_check_context *, unsigned long long,
unsigned long long);
#define T_flags_eq_ull(a, e, flags) \
{ \
static const T_check_context T_check_instance = { \
T_FILE_NAME, __LINE__, (flags) | T_CHECK_FMT }; \
T_check_eq_ull(&T_check_instance, a, e); \
}
void T_check_ne_ull(const T_check_context *, unsigned long long,
unsigned long long);
#define T_flags_ne_ull(a, e, flags) \
{ \
static const T_check_context T_check_instance = { \
T_FILE_NAME, __LINE__, (flags) | T_CHECK_FMT }; \
T_check_ne_ull(&T_check_instance, a, e); \
}
void T_check_ge_ull(const T_check_context *, unsigned long long,
unsigned long long);
#define T_flags_ge_ull(a, e, flags) \
{ \
static const T_check_context T_check_instance = { \
T_FILE_NAME, __LINE__, (flags) | T_CHECK_FMT }; \
T_check_ge_ull(&T_check_instance, a, e); \
}
void T_check_gt_ull(const T_check_context *, unsigned long long,
unsigned long long);
#define T_flags_gt_ull(a, e, flags) \
{ \
static const T_check_context T_check_instance = { \
T_FILE_NAME, __LINE__, (flags) | T_CHECK_FMT }; \
T_check_gt_ull(&T_check_instance, a, e); \
}
void T_check_le_ull(const T_check_context *, unsigned long long,
unsigned long long);
#define T_flags_le_ull(a, e, flags) \
{ \
static const T_check_context T_check_instance = { \
T_FILE_NAME, __LINE__, (flags) | T_CHECK_FMT }; \
T_check_le_ull(&T_check_instance, a, e); \
}
void T_check_lt_ull(const T_check_context *, unsigned long long,
unsigned long long);
#define T_flags_lt_ull(a, e, flags) \
{ \
static const T_check_context T_check_instance = { \
T_FILE_NAME, __LINE__, (flags) | T_CHECK_FMT }; \
T_check_lt_ull(&T_check_instance, a, e); \
}
void T_check_eno(const T_check_context *, int, int);
#define T_flags_eno(a, e, flags) \
{ \
static const T_check_context T_check_instance = { \
T_FILE_NAME, __LINE__, (flags) | T_CHECK_FMT }; \
T_check_eno(&T_check_instance, a, e); \
}
void T_check_eno_success(const T_check_context *, int);
#define T_flags_eno_success(a, flags) \
{ \
static const T_check_context T_check_instance = { \
T_FILE_NAME, __LINE__, (flags) | T_CHECK_FMT }; \
T_check_eno_success(&T_check_instance, a); \
}
void T_check_psx_error(const T_check_context *, int, int);
#define T_flags_psx_error(a, eno, flags) \
{ \
static const T_check_context T_check_instance = { \
T_FILE_NAME, __LINE__, (flags) | T_CHECK_FMT }; \
T_check_psx_error(&T_check_instance, a, eno); \
}
void T_check_psx_success(const T_check_context *, int);
#define T_flags_psx_success(a, flags) \
{ \
static const T_check_context T_check_instance = { \
T_FILE_NAME, __LINE__, (flags) | T_CHECK_FMT }; \
T_check_psx_success(&T_check_instance, a); \
}
/** @} */
int T_printf(char const *, ...);
int T_vprintf(char const *, va_list);
int T_puts(const char *, size_t);
int T_snprintf(char *, size_t, const char *, ...);
void T_log(T_verbosity, char const *, ...);
const char *T_case_name(void);
T_verbosity T_set_verbosity(T_verbosity);
/**
* @defgroup RTEMSTestFrameworkChecksBool Boolean Checks
*
* @ingroup RTEMSTestFramework
*
* @brief Checks for boolean expressions.
*
* @{
*/
#define T_true(...) T_flags_true(0, __VA_ARGS__)
#define T_assert_true(...) T_flags_true(T_CHECK_STOP, __VA_ARGS__)
#define T_quiet_true(...) T_flags_true(T_CHECK_QUIET, __VA_ARGS__)
#define T_step_true(s, ...) T_flags_true(T_CHECK_STEP(s), __VA_ARGS__)
#define T_step_assert_true(s, ...) \
T_flags_true(T_CHECK_STEP(s) | T_CHECK_STOP, __VA_ARGS__)
#define T_false(...) \
T_flags_true(0, \
!(T_VA_ARGS_FIRST(__VA_ARGS__)) T_VA_ARGS_MORE(__VA_ARGS__))
#define T_assert_false(...) \
T_flags_true(T_CHECK_STOP, \
!(T_VA_ARGS_FIRST(__VA_ARGS__)) T_VA_ARGS_MORE(__VA_ARGS__))
#define T_quiet_false(...) \
T_flags_true(T_CHECK_QUIET, \
!(T_VA_ARGS_FIRST(__VA_ARGS__)) T_VA_ARGS_MORE(__VA_ARGS__))
#define T_step_false(s, ...) \
T_flags_true(T_CHECK_STEP(s), \
!(T_VA_ARGS_FIRST(__VA_ARGS__)) T_VA_ARGS_MORE(__VA_ARGS__))
#define T_step_assert_false(s, ...) \
T_flags_true(T_CHECK_STEP(s) | T_CHECK_STOP, \
!(T_VA_ARGS_FIRST(__VA_ARGS__)) T_VA_ARGS_MORE(__VA_ARGS__))
/** @} */
/**
* @defgroup RTEMSTestFrameworkChecksGeneric Generic Checks
*
* @ingroup RTEMSTestFramework
*
* @brief Checks for data types with an equality or inequality operator.
*
* @{
*/
#define T_eq(a, ...) T_flags_eq(0, a, __VA_ARGS__)
#define T_assert_eq(a, ...) T_flags_eq(T_CHECK_STOP, a, __VA_ARGS__)
#define T_quiet_eq(a, ...) T_flags_eq(T_CHECK_QUIET, a, __VA_ARGS__)
#define T_step_eq(s, a, ...) T_flags_eq(T_CHECK_STEP(s), a, __VA_ARGS__)
#define T_step_assert_eq(s, a, ...) \
T_flags_eq(T_CHECK_STEP(s) | T_CHECK_STOP, a, __VA_ARGS__)
#define T_ne(a, ...) T_flags_ne(0, a, __VA_ARGS__)
#define T_assert_ne(a, ...) T_flags_ne(T_CHECK_STOP, a, __VA_ARGS__)
#define T_quiet_ne(a, ...) T_flags_ne(T_CHECK_QUIET, a, __VA_ARGS__)
#define T_step_ne(s, a, ...) T_flags_ne(T_CHECK_STEP(s), a, __VA_ARGS__)
#define T_step_assert_ne(s, a, ...) \
T_flags_ne(T_CHECK_STEP(s) | T_CHECK_STOP, a, __VA_ARGS__)
/** @} */
/**
* @defgroup RTEMSTestFrameworkChecksPointer Pointer Checks
*
* @ingroup RTEMSTestFramework
*
* @brief Checks for pointers.
*
* @{
*/
#define T_eq_ptr(a, e) T_flags_eq_ptr(a, e, 0, #a, #e)
#define T_assert_eq_ptr(a, e) T_flags_eq_ptr(a, e, T_CHECK_STOP, #a, #e)
#define T_quiet_eq_ptr(a, e) T_flags_eq_ptr(a, e, T_CHECK_QUIET, #a, #e)
#define T_step_eq_ptr(s, a, e) T_flags_eq_ptr(a, e, T_CHECK_STEP(s), #a, #e)
#define T_step_assert_eq_ptr(s, a, e) \
T_flags_eq_ptr(a, e, T_CHECK_STEP(s) | T_CHECK_STOP, #a, #e)
#define T_ne_ptr(a, e) T_flags_ne_ptr(a, e, 0, #a, #e)
#define T_assert_ne_ptr(a, e) T_flags_ne_ptr(a, e, T_CHECK_STOP, #a, #e)
#define T_quiet_ne_ptr(a, e) T_flags_ne_ptr(a, e, T_CHECK_QUIET, #a, #e)
#define T_step_ne_ptr(s, a, e) T_flags_ne_ptr(a, e, T_CHECK_STEP(s), #a, #e)
#define T_step_assert_ne_ptr(s, a, e) \
T_flags_ne_ptr(a, e, T_CHECK_STEP(s) | T_CHECK_STOP, #a, #e)
#define T_null(a) T_flags_null(a, 0, #a)
#define T_assert_null(a) T_flags_null(a, T_CHECK_STOP, #a)
#define T_quiet_null(a) T_flags_null(a, T_CHECK_QUIET, #a)
#define T_quiet_assert_null(a) \
T_flags_null(a, T_CHECK_QUIET | T_CHECK_STOP, #a)
#define T_step_null(s, a) T_flags_null(a, T_CHECK_STEP(s), #a)
#define T_step_assert_null(s, a) \
T_flags_null(a, T_CHECK_STEP(s) | T_CHECK_STOP, #a)
#define T_not_null(a) T_flags_not_null(a, 0, #a)
#define T_assert_not_null(a) T_flags_not_null(a, T_CHECK_STOP, #a)
#define T_quiet_not_null(a) T_flags_not_null(a, T_CHECK_QUIET, #a)
#define T_quiet_assert_not_null(a) \
T_flags_not_null(a, T_CHECK_QUIET | T_CHECK_STOP, #a)
#define T_step_not_null(s, a) T_flags_not_null(a, T_CHECK_STEP(s), #a)
#define T_step_assert_not_null(s, a) \
T_flags_not_null(a, T_CHECK_STEP(s) | T_CHECK_STOP, #a)
/** @} */
/**
* @defgroup RTEMSTestFrameworkChecksMemStr Memory Area Checks
*
* @ingroup RTEMSTestFramework
*
* @brief Checks for memory areas.
*
* @{
*/
#define T_eq_mem(a, e, n) T_flags_eq_mem(a, e, n, 0, #a, #e, #n)
#define T_assert_eq_mem(a, e, n) \
T_flags_eq_mem(a, e, n, T_CHECK_STOP, #a, #e, #n)
#define T_quiet_eq_mem(a, e, n) \
T_flags_eq_mem(a, e, n, T_CHECK_QUIET, #a, #e, #n)
#define T_step_eq_mem(s, a, e, n) \
T_flags_eq_mem(a, e, n, T_CHECK_STEP(s), #a, #e, #n)
#define T_step_assert_eq_mem(s, a, e, n) \
T_flags_eq_mem(a, e, n, T_CHECK_STEP(s) | T_CHECK_STOP, #a, #e, #n)
#define T_ne_mem(a, e, n) T_flags_ne_mem(a, e, n, 0, #a, #e, #n)
#define T_assert_ne_mem(a, e, n) \
T_flags_ne_mem(a, e, n, T_CHECK_STOP, #a, #e, #n)
#define T_quiet_ne_mem(a, e, n) \
T_flags_ne_mem(a, e, n, T_CHECK_QUIET, #a, #e, #n)
#define T_step_ne_mem(s, a, e, n) \
T_flags_ne_mem(a, e, n, T_CHECK_STEP(s), #a, #e, #n)
#define T_step_assert_ne_mem(s, a, e, n) \
T_flags_ne_mem(a, e, n, T_CHECK_STEP(s) | T_CHECK_STOP, #a, #e, #n)
/** @} */
/**
* @defgroup RTEMSTestFrameworkChecksStr String Checks
*
* @ingroup RTEMSTestFramework
*
* @brief Checks for strings.
*
* @{
*/
#define T_eq_str(a, e) T_flags_eq_str(a, e, 0)
#define T_assert_eq_str(a, e) T_flags_eq_str(a, e, T_CHECK_STOP)
#define T_quiet_eq_str(a, e) T_flags_eq_str(a, e, T_CHECK_QUIET)
#define T_step_eq_str(s, a, e) T_flags_eq_str(a, e, T_CHECK_STEP(s))
#define T_step_assert_eq_str(s, a, e) \
T_flags_eq_str(a, e, T_CHECK_STEP(s) | T_CHECK_STOP)
#define T_ne_str(a, e) T_flags_ne_str(a, e, 0)
#define T_assert_ne_str(a, e) T_flags_ne_str(a, e, T_CHECK_STOP)
#define T_quiet_ne_str(a, e) T_flags_ne_str(a, e, T_CHECK_QUIET)
#define T_step_ne_str(s, a, e) T_flags_ne_str(a, e, T_CHECK_STEP(s))
#define T_step_assert_ne_str(s, a, e) \
T_flags_ne_str(a, e, T_CHECK_STEP(s) | T_CHECK_STOP)
#define T_eq_nstr(a, e, n) T_flags_eq_nstr(a, e, n, 0)
#define T_assert_eq_nstr(a, e, n) T_flags_eq_nstr(a, e, n, T_CHECK_STOP)
#define T_quiet_eq_nstr(a, e, n) T_flags_eq_nstr(a, e, n, T_CHECK_QUIET)
#define T_step_eq_nstr(s, a, e, n) T_flags_eq_nstr(a, e, n, T_CHECK_STEP(s))
#define T_step_assert_eq_nstr(s, a, e, n) \
T_flags_eq_nstr(a, e, n, T_CHECK_STEP(s) | T_CHECK_STOP)
#define T_ne_nstr(a, e, n) T_flags_ne_nstr(a, e, n, 0)
#define T_assert_ne_nstr(a, e, n) T_flags_ne_nstr(a, e, n, T_CHECK_STOP)
#define T_quiet_ne_nstr(a, e, n) T_flags_ne_nstr(a, e, n, T_CHECK_QUIET)
#define T_step_ne_nstr(s, a, e, n) T_flags_ne_nstr(a, e, n, T_CHECK_STEP(s))
#define T_step_assert_ne_nstr(s, a, e, n) \
T_flags_ne_nstr(a, e, n, T_CHECK_STEP(s) | T_CHECK_STOP)
/** @} */
/**
* @defgroup RTEMSTestFrameworkChecksChar Character Checks
*
* @ingroup RTEMSTestFramework
*
* @brief Checks for characters (char).
*
* @{
*/
#define T_eq_char(a, e) T_flags_eq_char(a, e, 0)
#define T_assert_eq_char(a, e) T_flags_eq_char(a, e, T_CHECK_STOP)
#define T_quiet_eq_char(a, e) T_flags_eq_char(a, e, T_CHECK_QUIET)
#define T_step_eq_char(s, a, e) T_flags_eq_char(a, e, T_CHECK_STEP(s))
#define T_step_assert_eq_char(s, a, e) \
T_flags_eq_char(a, e, T_CHECK_STEP(s) | T_CHECK_STOP)
#define T_ne_char(a, e) T_flags_ne_char(a, e, 0)
#define T_assert_ne_char(a, e) T_flags_ne_char(a, e, T_CHECK_STOP)
#define T_quiet_ne_char(a, e) T_flags_ne_char(a, e, T_CHECK_QUIET)
#define T_step_ne_char(s, a, e) T_flags_ne_char(a, e, T_CHECK_STEP(s))
#define T_step_assert_ne_char(s, a, e) \
T_flags_ne_char(a, e, T_CHECK_STEP(s) | T_CHECK_STOP)
/** @} */
/**
* @defgroup RTEMSTestFrameworkChecksSChar Signed Character Checks
*
* @ingroup RTEMSTestFramework
*
* @brief Checks for signed characters (signed char).
*
* @{
*/
#define T_eq_schar(a, e) T_flags_eq_int(a, e, 0)
#define T_assert_eq_schar(a, e) T_flags_eq_int(a, e, T_CHECK_STOP)
#define T_quiet_eq_schar(a, e) T_flags_eq_int(a, e, T_CHECK_QUIET)
#define T_step_eq_schar(s, a, e) T_flags_eq_int(a, e, T_CHECK_STEP(s))
#define T_step_assert_eq_schar(s, a, e) \
T_flags_eq_int(a, e, T_CHECK_STEP(s) | T_CHECK_STOP)
#define T_ne_schar(a, e) T_flags_ne_int(a, e, 0)
#define T_assert_ne_schar(a, e) T_flags_ne_int(a, e, T_CHECK_STOP)
#define T_quiet_ne_schar(a, e) T_flags_ne_int(a, e, T_CHECK_QUIET)
#define T_step_ne_schar(s, a, e) T_flags_ne_int(a, e, T_CHECK_STEP(s))
#define T_step_assert_ne_schar(s, a, e) \
T_flags_ne_int(a, e, T_CHECK_STEP(s) | T_CHECK_STOP)
#define T_ge_schar(a, e) T_flags_ge_int(a, e, 0)
#define T_assert_ge_schar(a, e) T_flags_ge_int(a, e, T_CHECK_STOP)
#define T_quiet_ge_schar(a, e) T_flags_ge_int(a, e, T_CHECK_QUIET)
#define T_step_ge_schar(s, a, e) T_flags_ge_int(a, e, T_CHECK_STEP(s))
#define T_step_assert_ge_schar(s, a, e) \
T_flags_ge_int(a, e, T_CHECK_STEP(s) | T_CHECK_STOP)
#define T_gt_schar(a, e) T_flags_gt_int(a, e, 0)
#define T_assert_gt_schar(a, e) T_flags_gt_int(a, e, T_CHECK_STOP)
#define T_quiet_gt_schar(a, e) T_flags_gt_int(a, e, T_CHECK_QUIET)
#define T_step_gt_schar(s, a, e) T_flags_gt_int(a, e, T_CHECK_STEP(s))
#define T_step_assert_gt_schar(s, a, e) \
T_flags_gt_int(a, e, T_CHECK_STEP(s) | T_CHECK_STOP)
#define T_le_schar(a, e) T_flags_le_int(a, e, 0)
#define T_assert_le_schar(a, e) T_flags_le_int(a, e, T_CHECK_STOP)
#define T_quiet_le_schar(a, e) T_flags_le_int(a, e, T_CHECK_QUIET)
#define T_step_le_schar(s, a, e) T_flags_le_int(a, e, T_CHECK_STEP(s))
#define T_step_assert_le_schar(s, a, e) \
T_flags_le_int(a, e, T_CHECK_STEP(s) | T_CHECK_STOP)
#define T_lt_schar(a, e) T_flags_lt_int(a, e, 0)
#define T_assert_lt_schar(a, e) T_flags_lt_int(a, e, T_CHECK_STOP)
#define T_quiet_lt_schar(a, e) T_flags_lt_int(a, e, T_CHECK_QUIET)
#define T_step_lt_schar(s, a, e) T_flags_lt_int(a, e, T_CHECK_STEP(s))
#define T_step_assert_lt_schar(s, a, e) \
T_flags_lt_int(a, e, T_CHECK_STEP(s) | T_CHECK_STOP)
/** @} */
/**
* @defgroup RTEMSTestFrameworkChecksUChar Unsigned Character Checks
*
* @ingroup RTEMSTestFramework
*
* @brief Checks for unsigned characters (unsigned char).
*
* @{
*/
#define T_eq_uchar(a, e) T_flags_eq_uint(a, e, 0)
#define T_assert_eq_uchar(a, e) T_flags_eq_uint(a, e, T_CHECK_STOP)
#define T_quiet_eq_uchar(a, e) T_flags_eq_uint(a, e, T_CHECK_QUIET)
#define T_step_eq_uchar(s, a, e) T_flags_eq_uint(a, e, T_CHECK_STEP(s))
#define T_step_assert_eq_uchar(s, a, e) \
T_flags_eq_uint(a, e, T_CHECK_STEP(s) | T_CHECK_STOP)
#define T_ne_uchar(a, e) T_flags_ne_uint(a, e, 0)
#define T_assert_ne_uchar(a, e) T_flags_ne_uint(a, e, T_CHECK_STOP)
#define T_quiet_ne_uchar(a, e) T_flags_ne_uint(a, e, T_CHECK_QUIET)
#define T_step_ne_uchar(s, a, e) T_flags_ne_uint(a, e, T_CHECK_STEP(s))
#define T_step_assert_ne_uchar(s, a, e) \
T_flags_ne_uint(a, e, T_CHECK_STEP(s) | T_CHECK_STOP)
#define T_ge_uchar(a, e) T_flags_ge_uint(a, e, 0)
#define T_assert_ge_uchar(a, e) T_flags_ge_uint(a, e, T_CHECK_STOP)
#define T_quiet_ge_uchar(a, e) T_flags_ge_uint(a, e, T_CHECK_QUIET)
#define T_step_ge_uchar(s, a, e) T_flags_ge_uint(a, e, T_CHECK_STEP(s))
#define T_step_assert_ge_uchar(s, a, e) \
T_flags_ge_uint(a, e, T_CHECK_STEP(s) | T_CHECK_STOP)
#define T_gt_uchar(a, e) T_flags_gt_uint(a, e, 0)
#define T_assert_gt_uchar(a, e) T_flags_gt_uint(a, e, T_CHECK_STOP)
#define T_quiet_gt_uchar(a, e) T_flags_gt_uint(a, e, T_CHECK_QUIET)
#define T_step_gt_uchar(s, a, e) T_flags_gt_uint(a, e, T_CHECK_STEP(s))
#define T_step_assert_gt_uchar(s, a, e) \
T_flags_gt_uint(a, e, T_CHECK_STEP(s) | T_CHECK_STOP)
#define T_le_uchar(a, e) T_flags_le_uint(a, e, 0)
#define T_assert_le_uchar(a, e) T_flags_le_uint(a, e, T_CHECK_STOP)
#define T_quiet_le_uchar(a, e) T_flags_le_uint(a, e, T_CHECK_QUIET)
#define T_step_le_uchar(s, a, e) T_flags_le_uint(a, e, T_CHECK_STEP(s))
#define T_step_assert_le_uchar(s, a, e) \
T_flags_le_uint(a, e, T_CHECK_STEP(s) | T_CHECK_STOP)
#define T_lt_uchar(a, e) T_flags_lt_uint(a, e, 0)
#define T_assert_lt_uchar(a, e) T_flags_lt_uint(a, e, T_CHECK_STOP)
#define T_quiet_lt_uchar(a, e) T_flags_lt_uint(a, e, T_CHECK_QUIET)
#define T_step_lt_uchar(s, a, e) T_flags_lt_uint(a, e, T_CHECK_STEP(s))
#define T_step_assert_lt_uchar(s, a, e) \
T_flags_lt_uint(a, e, T_CHECK_STEP(s) | T_CHECK_STOP)
/** @} */
/**
* @defgroup RTEMSTestFrameworkChecksShort Signed Short Integer Checks
*
* @ingroup RTEMSTestFramework
*
* @brief Checks for signed short integers (short).
*
* @{
*/
#define T_eq_short(a, e) T_flags_eq_int(a, e, 0)
#define T_assert_eq_short(a, e) T_flags_eq_int(a, e, T_CHECK_STOP)
#define T_quiet_eq_short(a, e) T_flags_eq_int(a, e, T_CHECK_QUIET)
#define T_step_eq_short(s, a, e) T_flags_eq_int(a, e, T_CHECK_STEP(s))
#define T_step_assert_eq_short(s, a, e) \
T_flags_eq_int(a, e, T_CHECK_STEP(s) | T_CHECK_STOP)
#define T_ne_short(a, e) T_flags_ne_int(a, e, 0)
#define T_assert_ne_short(a, e) T_flags_ne_int(a, e, T_CHECK_STOP)
#define T_quiet_ne_short(a, e) T_flags_ne_int(a, e, T_CHECK_QUIET)
#define T_step_ne_short(s, a, e) T_flags_ne_int(a, e, T_CHECK_STEP(s))
#define T_step_assert_ne_short(s, a, e) \
T_flags_ne_int(a, e, T_CHECK_STEP(s) | T_CHECK_STOP)
#define T_ge_short(a, e) T_flags_ge_int(a, e, 0)
#define T_assert_ge_short(a, e) T_flags_ge_int(a, e, T_CHECK_STOP)
#define T_quiet_ge_short(a, e) T_flags_ge_int(a, e, T_CHECK_QUIET)
#define T_step_ge_short(s, a, e) T_flags_ge_int(a, e, T_CHECK_STEP(s))
#define T_step_assert_ge_short(s, a, e) \
T_flags_ge_int(a, e, T_CHECK_STEP(s) | T_CHECK_STOP)
#define T_gt_short(a, e) T_flags_gt_int(a, e, 0)
#define T_assert_gt_short(a, e) T_flags_gt_int(a, e, T_CHECK_STOP)
#define T_quiet_gt_short(a, e) T_flags_gt_int(a, e, T_CHECK_QUIET)
#define T_step_gt_short(s, a, e) T_flags_gt_int(a, e, T_CHECK_STEP(s))
#define T_step_assert_gt_short(s, a, e) \
T_flags_gt_int(a, e, T_CHECK_STEP(s) | T_CHECK_STOP)
#define T_le_short(a, e) T_flags_le_int(a, e, 0)
#define T_assert_le_short(a, e) T_flags_le_int(a, e, T_CHECK_STOP)
#define T_quiet_le_short(a, e) T_flags_le_int(a, e, T_CHECK_QUIET)
#define T_step_le_short(s, a, e) T_flags_le_int(a, e, T_CHECK_STEP(s))
#define T_step_assert_le_short(s, a, e) \
T_flags_le_int(a, e, T_CHECK_STEP(s) | T_CHECK_STOP)
#define T_lt_short(a, e) T_flags_lt_int(a, e, 0)
#define T_assert_lt_short(a, e) T_flags_lt_int(a, e, T_CHECK_STOP)
#define T_quiet_lt_short(a, e) T_flags_lt_int(a, e, T_CHECK_QUIET)
#define T_step_lt_short(s, a, e) T_flags_lt_int(a, e, T_CHECK_STEP(s))
#define T_step_assert_lt_short(s, a, e) \
T_flags_lt_int(a, e, T_CHECK_STEP(s) | T_CHECK_STOP)
/** @} */
/**
* @defgroup RTEMSTestFrameworkChecksUShort Unsigned Short Integer Checks
*
* @ingroup RTEMSTestFramework
*
* @brief Checks for unsigned short integers (unsigned short).
*
* @{
*/
#define T_eq_ushort(a, e) T_flags_eq_uint(a, e, 0)
#define T_assert_eq_ushort(a, e) T_flags_eq_uint(a, e, T_CHECK_STOP)
#define T_quiet_eq_ushort(a, e) T_flags_eq_uint(a, e, T_CHECK_QUIET)
#define T_step_eq_ushort(s, a, e) T_flags_eq_uint(a, e, T_CHECK_STEP(s))
#define T_step_assert_eq_ushort(s, a, e) \
T_flags_eq_uint(a, e, T_CHECK_STEP(s) | T_CHECK_STOP)
#define T_ne_ushort(a, e) T_flags_ne_uint(a, e, 0)
#define T_assert_ne_ushort(a, e) T_flags_ne_uint(a, e, T_CHECK_STOP)
#define T_quiet_ne_ushort(a, e) T_flags_ne_uint(a, e, T_CHECK_QUIET)
#define T_step_ne_ushort(s, a, e) T_flags_ne_uint(a, e, T_CHECK_STEP(s))
#define T_step_assert_ne_ushort(s, a, e) \
T_flags_ne_uint(a, e, T_CHECK_STEP(s) | T_CHECK_STOP)
#define T_ge_ushort(a, e) T_flags_ge_uint(a, e, 0)
#define T_assert_ge_ushort(a, e) T_flags_ge_uint(a, e, T_CHECK_STOP)
#define T_quiet_ge_ushort(a, e) T_flags_ge_uint(a, e, T_CHECK_QUIET)
#define T_step_ge_ushort(s, a, e) T_flags_ge_uint(a, e, T_CHECK_STEP(s))
#define T_step_assert_ge_ushort(s, a, e) \
T_flags_ge_uint(a, e, T_CHECK_STEP(s) | T_CHECK_STOP)
#define T_gt_ushort(a, e) T_flags_gt_uint(a, e, 0)
#define T_assert_gt_ushort(a, e) T_flags_gt_uint(a, e, T_CHECK_STOP)
#define T_quiet_gt_ushort(a, e) T_flags_gt_uint(a, e, T_CHECK_QUIET)
#define T_step_gt_ushort(s, a, e) T_flags_gt_uint(a, e, T_CHECK_STEP(s))
#define T_step_assert_gt_ushort(s, a, e) \
T_flags_gt_uint(a, e, T_CHECK_STEP(s) | T_CHECK_STOP)
#define T_le_ushort(a, e) T_flags_le_uint(a, e, 0)
#define T_assert_le_ushort(a, e) T_flags_le_uint(a, e, T_CHECK_STOP)
#define T_quiet_le_ushort(a, e) T_flags_le_uint(a, e, T_CHECK_QUIET)
#define T_step_le_ushort(s, a, e) T_flags_le_uint(a, e, T_CHECK_STEP(s))
#define T_step_assert_le_ushort(s, a, e) \
T_flags_le_uint(a, e, T_CHECK_STEP(s) | T_CHECK_STOP)
#define T_lt_ushort(a, e) T_flags_lt_uint(a, e, 0)
#define T_assert_lt_ushort(a, e) T_flags_lt_uint(a, e, T_CHECK_STOP)
#define T_quiet_lt_ushort(a, e) T_flags_lt_uint(a, e, T_CHECK_QUIET)
#define T_step_lt_ushort(s, a, e) T_flags_lt_uint(a, e, T_CHECK_STEP(s))
#define T_step_assert_lt_ushort(s, a, e) \
T_flags_lt_uint(a, e, T_CHECK_STEP(s) | T_CHECK_STOP)
/** @} */
/**
* @defgroup RTEMSTestFrameworkChecksInt Signed Integer Checks
*
* @ingroup RTEMSTestFramework
*
* @brief Checks for signed integers (int).
*
* @{
*/
#define T_eq_int(a, e) T_flags_eq_int(a, e, 0)
#define T_assert_eq_int(a, e) T_flags_eq_int(a, e, T_CHECK_STOP)
#define T_quiet_eq_int(a, e) T_flags_eq_int(a, e, T_CHECK_QUIET)
#define T_step_eq_int(s, a, e) T_flags_eq_int(a, e, T_CHECK_STEP(s))
#define T_step_assert_eq_int(s, a, e) \
T_flags_eq_int(a, e, T_CHECK_STEP(s) | T_CHECK_STOP)
#define T_ne_int(a, e) T_flags_ne_int(a, e, 0)
#define T_assert_ne_int(a, e) T_flags_ne_int(a, e, T_CHECK_STOP)
#define T_quiet_ne_int(a, e) T_flags_ne_int(a, e, T_CHECK_QUIET)
#define T_step_ne_int(s, a, e) T_flags_ne_int(a, e, T_CHECK_STEP(s))
#define T_step_assert_ne_int(s, a, e) \
T_flags_ne_int(a, e, T_CHECK_STEP(s) | T_CHECK_STOP)
#define T_ge_int(a, e) T_flags_ge_int(a, e, 0)
#define T_assert_ge_int(a, e) T_flags_ge_int(a, e, T_CHECK_STOP)
#define T_quiet_ge_int(a, e) T_flags_ge_int(a, e, T_CHECK_QUIET)
#define T_step_ge_int(s, a, e) T_flags_ge_int(a, e, T_CHECK_STEP(s))
#define T_step_assert_ge_int(s, a, e) \
T_flags_ge_int(a, e, T_CHECK_STEP(s) | T_CHECK_STOP)
#define T_gt_int(a, e) T_flags_gt_int(a, e, 0)
#define T_assert_gt_int(a, e) T_flags_gt_int(a, e, T_CHECK_STOP)
#define T_quiet_gt_int(a, e) T_flags_gt_int(a, e, T_CHECK_QUIET)
#define T_step_gt_int(s, a, e) T_flags_gt_int(a, e, T_CHECK_STEP(s))
#define T_step_assert_gt_int(s, a, e) \
T_flags_gt_int(a, e, T_CHECK_STEP(s) | T_CHECK_STOP)
#define T_le_int(a, e) T_flags_le_int(a, e, 0)
#define T_assert_le_int(a, e) T_flags_le_int(a, e, T_CHECK_STOP)
#define T_quiet_le_int(a, e) T_flags_le_int(a, e, T_CHECK_QUIET)
#define T_step_le_int(s, a, e) T_flags_le_int(a, e, T_CHECK_STEP(s))
#define T_step_assert_le_int(s, a, e) \
T_flags_le_int(a, e, T_CHECK_STEP(s) | T_CHECK_STOP)
#define T_lt_int(a, e) T_flags_lt_int(a, e, 0)
#define T_assert_lt_int(a, e) T_flags_lt_int(a, e, T_CHECK_STOP)
#define T_quiet_lt_int(a, e) T_flags_lt_int(a, e, T_CHECK_QUIET)
#define T_step_lt_int(s, a, e) T_flags_lt_int(a, e, T_CHECK_STEP(s))
#define T_step_assert_lt_int(s, a, e) \
T_flags_lt_int(a, e, T_CHECK_STEP(s) | T_CHECK_STOP)
/** @} */
/**
* @defgroup RTEMSTestFrameworkChecksUInt Unsigned Integer Checks
*
* @ingroup RTEMSTestFramework
*
* @brief Checks for unsigned integers (unsigned int).
*
* @{
*/
#define T_eq_uint(a, e) T_flags_eq_uint(a, e, 0)
#define T_assert_eq_uint(a, e) T_flags_eq_uint(a, e, T_CHECK_STOP)
#define T_quiet_eq_uint(a, e) T_flags_eq_uint(a, e, T_CHECK_QUIET)
#define T_step_eq_uint(s, a, e) T_flags_eq_uint(a, e, T_CHECK_STEP(s))
#define T_step_assert_eq_uint(s, a, e) \
T_flags_eq_uint(a, e, T_CHECK_STEP(s) | T_CHECK_STOP)
#define T_ne_uint(a, e) T_flags_ne_uint(a, e, 0)
#define T_assert_ne_uint(a, e) T_flags_ne_uint(a, e, T_CHECK_STOP)
#define T_quiet_ne_uint(a, e) T_flags_ne_uint(a, e, T_CHECK_QUIET)
#define T_step_ne_uint(s, a, e) T_flags_ne_uint(a, e, T_CHECK_STEP(s))
#define T_step_assert_ne_uint(s, a, e) \
T_flags_ne_uint(a, e, T_CHECK_STEP(s) | T_CHECK_STOP)
#define T_ge_uint(a, e) T_flags_ge_uint(a, e, 0)
#define T_assert_ge_uint(a, e) T_flags_ge_uint(a, e, T_CHECK_STOP)
#define T_quiet_ge_uint(a, e) T_flags_ge_uint(a, e, T_CHECK_QUIET)
#define T_step_ge_uint(s, a, e) T_flags_ge_uint(a, e, T_CHECK_STEP(s))
#define T_step_assert_ge_uint(s, a, e) \
T_flags_ge_uint(a, e, T_CHECK_STEP(s) | T_CHECK_STOP)
#define T_gt_uint(a, e) T_flags_gt_uint(a, e, 0)
#define T_assert_gt_uint(a, e) T_flags_gt_uint(a, e, T_CHECK_STOP)
#define T_quiet_gt_uint(a, e) T_flags_gt_uint(a, e, T_CHECK_QUIET)
#define T_step_gt_uint(s, a, e) T_flags_gt_uint(a, e, T_CHECK_STEP(s))
#define T_step_assert_gt_uint(s, a, e) \
T_flags_gt_uint(a, e, T_CHECK_STEP(s) | T_CHECK_STOP)
#define T_le_uint(a, e) T_flags_le_uint(a, e, 0)
#define T_assert_le_uint(a, e) T_flags_le_uint(a, e, T_CHECK_STOP)
#define T_quiet_le_uint(a, e) T_flags_le_uint(a, e, T_CHECK_QUIET)
#define T_step_le_uint(s, a, e) T_flags_le_uint(a, e, T_CHECK_STEP(s))
#define T_step_assert_le_uint(s, a, e) \
T_flags_le_uint(a, e, T_CHECK_STEP(s) | T_CHECK_STOP)
#define T_lt_uint(a, e) T_flags_lt_uint(a, e, 0)
#define T_assert_lt_uint(a, e) T_flags_lt_uint(a, e, T_CHECK_STOP)
#define T_quiet_lt_uint(a, e) T_flags_lt_uint(a, e, T_CHECK_QUIET)
#define T_step_lt_uint(s, a, e) T_flags_lt_uint(a, e, T_CHECK_STEP(s))
#define T_step_assert_lt_uint(s, a, e) \
T_flags_lt_uint(a, e, T_CHECK_STEP(s) | T_CHECK_STOP)
/** @} */
/**
* @defgroup RTEMSTestFrameworkChecksLong Signed Long Integer Checks
*
* @ingroup RTEMSTestFramework
*
* @brief Checks for signed long integers (long).
*
* @{
*/
#define T_eq_long(a, e) T_flags_eq_long(a, e, 0)
#define T_assert_eq_long(a, e) T_flags_eq_long(a, e, T_CHECK_STOP)
#define T_quiet_eq_long(a, e) T_flags_eq_long(a, e, T_CHECK_QUIET)
#define T_step_eq_long(s, a, e) T_flags_eq_long(a, e, T_CHECK_STEP(s))
#define T_step_assert_eq_long(s, a, e) \
T_flags_eq_long(a, e, T_CHECK_STEP(s) | T_CHECK_STOP)
#define T_ne_long(a, e) T_flags_ne_long(a, e, 0)
#define T_assert_ne_long(a, e) T_flags_ne_long(a, e, T_CHECK_STOP)
#define T_quiet_ne_long(a, e) T_flags_ne_long(a, e, T_CHECK_QUIET)
#define T_step_ne_long(s, a, e) T_flags_ne_long(a, e, T_CHECK_STEP(s))
#define T_step_assert_ne_long(s, a, e) \
T_flags_ne_long(a, e, T_CHECK_STEP(s) | T_CHECK_STOP)
#define T_ge_long(a, e) T_flags_ge_long(a, e, 0)
#define T_assert_ge_long(a, e) T_flags_ge_long(a, e, T_CHECK_STOP)
#define T_quiet_ge_long(a, e) T_flags_ge_long(a, e, T_CHECK_QUIET)
#define T_step_ge_long(s, a, e) T_flags_ge_long(a, e, T_CHECK_STEP(s))
#define T_step_assert_ge_long(s, a, e) \
T_flags_ge_long(a, e, T_CHECK_STEP(s) | T_CHECK_STOP)
#define T_gt_long(a, e) T_flags_gt_long(a, e, 0)
#define T_assert_gt_long(a, e) T_flags_gt_long(a, e, T_CHECK_STOP)
#define T_quiet_gt_long(a, e) T_flags_gt_long(a, e, T_CHECK_QUIET)
#define T_step_gt_long(s, a, e) T_flags_gt_long(a, e, T_CHECK_STEP(s))
#define T_step_assert_gt_long(s, a, e) \
T_flags_gt_long(a, e, T_CHECK_STEP(s) | T_CHECK_STOP)
#define T_le_long(a, e) T_flags_le_long(a, e, 0)
#define T_assert_le_long(a, e) T_flags_le_long(a, e, T_CHECK_STOP)
#define T_quiet_le_long(a, e) T_flags_le_long(a, e, T_CHECK_QUIET)
#define T_step_le_long(s, a, e) T_flags_le_long(a, e, T_CHECK_STEP(s))
#define T_step_assert_le_long(s, a, e) \
T_flags_le_long(a, e, T_CHECK_STEP(s) | T_CHECK_STOP)
#define T_lt_long(a, e) T_flags_lt_long(a, e, 0)
#define T_assert_lt_long(a, e) T_flags_lt_long(a, e, T_CHECK_STOP)
#define T_quiet_lt_long(a, e) T_flags_lt_long(a, e, T_CHECK_QUIET)
#define T_step_lt_long(s, a, e) T_flags_lt_long(a, e, T_CHECK_STEP(s))
#define T_step_assert_lt_long(s, a, e) \
T_flags_lt_long(a, e, T_CHECK_STEP(s) | T_CHECK_STOP)
/** @} */
/**
* @defgroup RTEMSTestFrameworkChecksULong Unsigned Long Integer Checks
*
* @ingroup RTEMSTestFramework
*
* @brief Checks for unsigned long integers (unsigned long).
*
* @{
*/
#define T_eq_ulong(a, e) T_flags_eq_ulong(a, e, 0)
#define T_assert_eq_ulong(a, e) T_flags_eq_ulong(a, e, T_CHECK_STOP)
#define T_quiet_eq_ulong(a, e) T_flags_eq_ulong(a, e, T_CHECK_QUIET)
#define T_step_eq_ulong(s, a, e) T_flags_eq_ulong(a, e, T_CHECK_STEP(s))
#define T_step_assert_eq_ulong(s, a, e) \
T_flags_eq_ulong(a, e, T_CHECK_STEP(s) | T_CHECK_STOP)
#define T_ne_ulong(a, e) T_flags_ne_ulong(a, e, 0)
#define T_assert_ne_ulong(a, e) T_flags_ne_ulong(a, e, T_CHECK_STOP)
#define T_quiet_ne_ulong(a, e) T_flags_ne_ulong(a, e, T_CHECK_QUIET)
#define T_step_ne_ulong(s, a, e) T_flags_ne_ulong(a, e, T_CHECK_STEP(s))
#define T_step_assert_ne_ulong(s, a, e) \
T_flags_ne_ulong(a, e, T_CHECK_STEP(s) | T_CHECK_STOP)
#define T_ge_ulong(a, e) T_flags_ge_ulong(a, e, 0)
#define T_assert_ge_ulong(a, e) T_flags_ge_ulong(a, e, T_CHECK_STOP)
#define T_quiet_ge_ulong(a, e) T_flags_ge_ulong(a, e, T_CHECK_QUIET)
#define T_step_ge_ulong(s, a, e) T_flags_ge_ulong(a, e, T_CHECK_STEP(s))
#define T_step_assert_ge_ulong(s, a, e) \
T_flags_ge_ulong(a, e, T_CHECK_STEP(s) | T_CHECK_STOP)
#define T_gt_ulong(a, e) T_flags_gt_ulong(a, e, 0)
#define T_assert_gt_ulong(a, e) T_flags_gt_ulong(a, e, T_CHECK_STOP)
#define T_quiet_gt_ulong(a, e) T_flags_gt_ulong(a, e, T_CHECK_QUIET)
#define T_step_gt_ulong(s, a, e) T_flags_gt_ulong(a, e, T_CHECK_STEP(s))
#define T_step_assert_gt_ulong(s, a, e) \
T_flags_gt_ulong(a, e, T_CHECK_STEP(s) | T_CHECK_STOP)
#define T_le_ulong(a, e) T_flags_le_ulong(a, e, 0)
#define T_assert_le_ulong(a, e) T_flags_le_ulong(a, e, T_CHECK_STOP)
#define T_quiet_le_ulong(a, e) T_flags_le_ulong(a, e, T_CHECK_QUIET)
#define T_step_le_ulong(s, a, e) T_flags_le_ulong(a, e, T_CHECK_STEP(s))
#define T_step_assert_le_ulong(s, a, e) \
T_flags_le_ulong(a, e, T_CHECK_STEP(s) | T_CHECK_STOP)
#define T_lt_ulong(a, e) T_flags_lt_ulong(a, e, 0)
#define T_assert_lt_ulong(a, e) T_flags_lt_ulong(a, e, T_CHECK_STOP)
#define T_quiet_lt_ulong(a, e) T_flags_lt_ulong(a, e, T_CHECK_QUIET)
#define T_step_lt_ulong(s, a, e) T_flags_lt_ulong(a, e, T_CHECK_STEP(s))
#define T_step_assert_lt_ulong(s, a, e) \
T_flags_lt_ulong(a, e, T_CHECK_STEP(s) | T_CHECK_STOP)
/** @} */
/**
* @defgroup RTEMSTestFrameworkChecksLong Signed Long Long Integer Checks
*
* @ingroup RTEMSTestFramework
*
* @brief Checks for signed long long integers (long long).
*
* @{
*/
#define T_eq_ll(a, e) T_flags_eq_ll(a, e, 0)
#define T_assert_eq_ll(a, e) T_flags_eq_ll(a, e, T_CHECK_STOP)
#define T_quiet_eq_ll(a, e) T_flags_eq_ll(a, e, T_CHECK_QUIET)
#define T_step_eq_ll(s, a, e) T_flags_eq_ll(a, e, T_CHECK_STEP(s))
#define T_step_assert_eq_ll(s, a, e) \
T_flags_eq_ll(a, e, T_CHECK_STEP(s) | T_CHECK_STOP)
#define T_ne_ll(a, e) T_flags_ne_ll(a, e, 0)
#define T_assert_ne_ll(a, e) T_flags_ne_ll(a, e, T_CHECK_STOP)
#define T_quiet_ne_ll(a, e) T_flags_ne_ll(a, e, T_CHECK_QUIET)
#define T_step_ne_ll(s, a, e) T_flags_ne_ll(a, e, T_CHECK_STEP(s))
#define T_step_assert_ne_ll(s, a, e) \
T_flags_ne_ll(a, e, T_CHECK_STEP(s) | T_CHECK_STOP)
#define T_ge_ll(a, e) T_flags_ge_ll(a, e, 0)
#define T_assert_ge_ll(a, e) T_flags_ge_ll(a, e, T_CHECK_STOP)
#define T_quiet_ge_ll(a, e) T_flags_ge_ll(a, e, T_CHECK_QUIET)
#define T_step_ge_ll(s, a, e) T_flags_ge_ll(a, e, T_CHECK_STEP(s))
#define T_step_assert_ge_ll(s, a, e) \
T_flags_ge_ll(a, e, T_CHECK_STEP(s) | T_CHECK_STOP)
#define T_gt_ll(a, e) T_flags_gt_ll(a, e, 0)
#define T_assert_gt_ll(a, e) T_flags_gt_ll(a, e, T_CHECK_STOP)
#define T_quiet_gt_ll(a, e) T_flags_gt_ll(a, e, T_CHECK_QUIET)
#define T_step_gt_ll(s, a, e) T_flags_gt_ll(a, e, T_CHECK_STEP(s))
#define T_step_assert_gt_ll(s, a, e) \
T_flags_gt_ll(a, e, T_CHECK_STEP(s) | T_CHECK_STOP)
#define T_le_ll(a, e) T_flags_le_ll(a, e, 0)
#define T_assert_le_ll(a, e) T_flags_le_ll(a, e, T_CHECK_STOP)
#define T_quiet_le_ll(a, e) T_flags_le_ll(a, e, T_CHECK_QUIET)
#define T_step_le_ll(s, a, e) T_flags_le_ll(a, e, T_CHECK_STEP(s))
#define T_step_assert_le_ll(s, a, e) \
T_flags_le_ll(a, e, T_CHECK_STEP(s) | T_CHECK_STOP)
#define T_lt_ll(a, e) T_flags_lt_ll(a, e, 0)
#define T_assert_lt_ll(a, e) T_flags_lt_ll(a, e, T_CHECK_STOP)
#define T_quiet_lt_ll(a, e) T_flags_lt_ll(a, e, T_CHECK_QUIET)
#define T_step_lt_ll(s, a, e) T_flags_lt_ll(a, e, T_CHECK_STEP(s))
#define T_step_assert_lt_ll(s, a, e) \
T_flags_lt_ll(a, e, T_CHECK_STEP(s) | T_CHECK_STOP)
/** @} */
/**
* @defgroup RTEMSTestFrameworkChecksULongLong Unsigned Long Long Integer Checks
*
* @ingroup RTEMSTestFramework
*
* @brief Checks for unsigned long long integers (unsigned long long).
*
* @{
*/
#define T_eq_ull(a, e) T_flags_eq_ull(a, e, 0)
#define T_assert_eq_ull(a, e) T_flags_eq_ull(a, e, T_CHECK_STOP)
#define T_quiet_eq_ull(a, e) T_flags_eq_ull(a, e, T_CHECK_QUIET)
#define T_step_eq_ull(s, a, e) T_flags_eq_ull(a, e, T_CHECK_STEP(s))
#define T_step_assert_eq_ull(s, a, e) \
T_flags_eq_ull(a, e, T_CHECK_STEP(s) | T_CHECK_STOP)
#define T_ne_ull(a, e) T_flags_ne_ull(a, e, 0)
#define T_assert_ne_ull(a, e) T_flags_ne_ull(a, e, T_CHECK_STOP)
#define T_quiet_ne_ull(a, e) T_flags_ne_ull(a, e, T_CHECK_QUIET)
#define T_step_ne_ull(s, a, e) T_flags_ne_ull(a, e, T_CHECK_STEP(s))
#define T_step_assert_ne_ull(s, a, e) \
T_flags_ne_ull(a, e, T_CHECK_STEP(s) | T_CHECK_STOP)
#define T_ge_ull(a, e) T_flags_ge_ull(a, e, 0)
#define T_assert_ge_ull(a, e) T_flags_ge_ull(a, e, T_CHECK_STOP)
#define T_quiet_ge_ull(a, e) T_flags_ge_ull(a, e, T_CHECK_QUIET)
#define T_step_ge_ull(s, a, e) T_flags_ge_ull(a, e, T_CHECK_STEP(s))
#define T_step_assert_ge_ull(s, a, e) \
T_flags_ge_ull(a, e, T_CHECK_STEP(s) | T_CHECK_STOP)
#define T_gt_ull(a, e) T_flags_gt_ull(a, e, 0)
#define T_assert_gt_ull(a, e) T_flags_gt_ull(a, e, T_CHECK_STOP)
#define T_quiet_gt_ull(a, e) T_flags_gt_ull(a, e, T_CHECK_QUIET)
#define T_step_gt_ull(s, a, e) T_flags_gt_ull(a, e, T_CHECK_STEP(s))
#define T_step_assert_gt_ull(s, a, e) \
T_flags_gt_ull(a, e, T_CHECK_STEP(s) | T_CHECK_STOP)
#define T_le_ull(a, e) T_flags_le_ull(a, e, 0)
#define T_assert_le_ull(a, e) T_flags_le_ull(a, e, T_CHECK_STOP)
#define T_quiet_le_ull(a, e) T_flags_le_ull(a, e, T_CHECK_QUIET)
#define T_step_le_ull(s, a, e) T_flags_le_ull(a, e, T_CHECK_STEP(s))
#define T_step_assert_le_ull(s, a, e) \
T_flags_le_ull(a, e, T_CHECK_STEP(s) | T_CHECK_STOP)
#define T_lt_ull(a, e) T_flags_lt_ull(a, e, 0)
#define T_assert_lt_ull(a, e) T_flags_lt_ull(a, e, T_CHECK_STOP)
#define T_quiet_lt_ull(a, e) T_flags_lt_ull(a, e, T_CHECK_QUIET)
#define T_step_lt_ull(s, a, e) T_flags_lt_ull(a, e, T_CHECK_STEP(s))
#define T_step_assert_lt_ull(s, a, e) \
T_flags_lt_ull(a, e, T_CHECK_STEP(s) | T_CHECK_STOP)
/** @} */
/**
* @defgroup RTEMSTestFrameworkChecksInt8 Signed 8-Bit Integer Checks
*
* @ingroup RTEMSTestFramework
*
* @brief Checks for signed 8-bit integers (int8_t).
*
* @{
*/
#define T_eq_i8(a, e) T_flags_eq_int(a, e, 0)
#define T_assert_eq_i8(a, e) T_flags_eq_int(a, e, T_CHECK_STOP)
#define T_quiet_eq_i8(a, e) T_flags_eq_int(a, e, T_CHECK_QUIET)
#define T_step_eq_i8(s, a, e) T_flags_eq_int(a, e, T_CHECK_STEP(s))
#define T_step_assert_eq_i8(s, a, e) \
T_flags_eq_int(a, e, T_CHECK_STEP(s) | T_CHECK_STOP)
#define T_ne_i8(a, e) T_flags_ne_int(a, e, 0)
#define T_assert_ne_i8(a, e) T_flags_ne_int(a, e, T_CHECK_STOP)
#define T_quiet_ne_i8(a, e) T_flags_ne_int(a, e, T_CHECK_QUIET)
#define T_step_ne_i8(s, a, e) T_flags_ne_int(a, e, T_CHECK_STEP(s))
#define T_step_assert_ne_i8(s, a, e) \
T_flags_ne_int(a, e, T_CHECK_STEP(s) | T_CHECK_STOP)
#define T_ge_i8(a, e) T_flags_ge_int(a, e, 0)
#define T_assert_ge_i8(a, e) T_flags_ge_int(a, e, T_CHECK_STOP)
#define T_quiet_ge_i8(a, e) T_flags_ge_int(a, e, T_CHECK_QUIET)
#define T_step_ge_i8(s, a, e) T_flags_ge_int(a, e, T_CHECK_STEP(s))
#define T_step_assert_ge_i8(s, a, e) \
T_flags_ge_int(a, e, T_CHECK_STEP(s) | T_CHECK_STOP)
#define T_gt_i8(a, e) T_flags_gt_int(a, e, 0)
#define T_assert_gt_i8(a, e) T_flags_gt_int(a, e, T_CHECK_STOP)
#define T_quiet_gt_i8(a, e) T_flags_gt_int(a, e, T_CHECK_QUIET)
#define T_step_gt_i8(s, a, e) T_flags_gt_int(a, e, T_CHECK_STEP(s))
#define T_step_assert_gt_i8(s, a, e) \
T_flags_gt_int(a, e, T_CHECK_STEP(s) | T_CHECK_STOP)
#define T_le_i8(a, e) T_flags_le_int(a, e, 0)
#define T_assert_le_i8(a, e) T_flags_le_int(a, e, T_CHECK_STOP)
#define T_quiet_le_i8(a, e) T_flags_le_int(a, e, T_CHECK_QUIET)
#define T_step_le_i8(s, a, e) T_flags_le_int(a, e, T_CHECK_STEP(s))
#define T_step_assert_le_i8(s, a, e) \
T_flags_le_int(a, e, T_CHECK_STEP(s) | T_CHECK_STOP)
#define T_lt_i8(a, e) T_flags_lt_int(a, e, 0)
#define T_assert_lt_i8(a, e) T_flags_lt_int(a, e, T_CHECK_STOP)
#define T_quiet_lt_i8(a, e) T_flags_lt_int(a, e, T_CHECK_QUIET)
#define T_step_lt_i8(s, a, e) T_flags_lt_int(a, e, T_CHECK_STEP(s))
#define T_step_assert_lt_i8(s, a, e) \
T_flags_lt_int(a, e, T_CHECK_STEP(s) | T_CHECK_STOP)
/** @} */
/**
* @defgroup RTEMSTestFrameworkChecksUInt8 Unsigned 8-Bit Integer Checks
*
* @ingroup RTEMSTestFramework
*
* @brief Checks for unsigned 8-bit integers (uint8_t).
*
* @{
*/
#define T_eq_u8(a, e) T_flags_eq_uint(a, e, 0)
#define T_assert_eq_u8(a, e) T_flags_eq_uint(a, e, T_CHECK_STOP)
#define T_quiet_eq_u8(a, e) T_flags_eq_uint(a, e, T_CHECK_QUIET)
#define T_step_eq_u8(s, a, e) T_flags_eq_uint(a, e, T_CHECK_STEP(s))
#define T_step_assert_eq_u8(s, a, e) \
T_flags_eq_uint(a, e, T_CHECK_STEP(s) | T_CHECK_STOP)
#define T_ne_u8(a, e) T_flags_ne_uint(a, e, 0)
#define T_assert_ne_u8(a, e) T_flags_ne_uint(a, e, T_CHECK_STOP)
#define T_quiet_ne_u8(a, e) T_flags_ne_uint(a, e, T_CHECK_QUIET)
#define T_step_ne_u8(s, a, e) T_flags_ne_uint(a, e, T_CHECK_STEP(s))
#define T_step_assert_ne_u8(s, a, e) \
T_flags_ne_uint(a, e, T_CHECK_STEP(s) | T_CHECK_STOP)
#define T_ge_u8(a, e) T_flags_ge_uint(a, e, 0)
#define T_assert_ge_u8(a, e) T_flags_ge_uint(a, e, T_CHECK_STOP)
#define T_quiet_ge_u8(a, e) T_flags_ge_uint(a, e, T_CHECK_QUIET)
#define T_step_ge_u8(s, a, e) T_flags_ge_uint(a, e, T_CHECK_STEP(s))
#define T_step_assert_ge_u8(s, a, e) \
T_flags_ge_uint(a, e, T_CHECK_STEP(s) | T_CHECK_STOP)
#define T_gt_u8(a, e) T_flags_gt_uint(a, e, 0)
#define T_assert_gt_u8(a, e) T_flags_gt_uint(a, e, T_CHECK_STOP)
#define T_quiet_gt_u8(a, e) T_flags_gt_uint(a, e, T_CHECK_QUIET)
#define T_step_gt_u8(s, a, e) T_flags_gt_uint(a, e, T_CHECK_STEP(s))
#define T_step_assert_gt_u8(s, a, e) \
T_flags_gt_uint(a, e, T_CHECK_STEP(s) | T_CHECK_STOP)
#define T_le_u8(a, e) T_flags_le_uint(a, e, 0)
#define T_assert_le_u8(a, e) T_flags_le_uint(a, e, T_CHECK_STOP)
#define T_quiet_le_u8(a, e) T_flags_le_uint(a, e, T_CHECK_QUIET)
#define T_step_le_u8(s, a, e) T_flags_le_uint(a, e, T_CHECK_STEP(s))
#define T_step_assert_le_u8(s, a, e) \
T_flags_le_uint(a, e, T_CHECK_STEP(s) | T_CHECK_STOP)
#define T_lt_u8(a, e) T_flags_lt_uint(a, e, 0)
#define T_assert_lt_u8(a, e) T_flags_lt_uint(a, e, T_CHECK_STOP)
#define T_quiet_lt_u8(a, e) T_flags_lt_uint(a, e, T_CHECK_QUIET)
#define T_step_lt_u8(s, a, e) T_flags_lt_uint(a, e, T_CHECK_STEP(s))
#define T_step_assert_lt_u8(s, a, e) \
T_flags_lt_uint(a, e, T_CHECK_STEP(s) | T_CHECK_STOP)
/** @} */
/**
* @defgroup RTEMSTestFrameworkChecksInt16 Signed 16-Bit Integer Checks
*
* @ingroup RTEMSTestFramework
*
* @brief Checks for signed 16-bit integers (int16_t).
*
* @{
*/
#define T_eq_i16(a, e) T_flags_eq_int(a, e, 0)
#define T_assert_eq_i16(a, e) T_flags_eq_int(a, e, T_CHECK_STOP)
#define T_quiet_eq_i16(a, e) T_flags_eq_int(a, e, T_CHECK_QUIET)
#define T_step_eq_i16(s, a, e) T_flags_eq_int(a, e, T_CHECK_STEP(s))
#define T_step_assert_eq_i16(s, a, e) \
T_flags_eq_int(a, e, T_CHECK_STEP(s) | T_CHECK_STOP)
#define T_ne_i16(a, e) T_flags_ne_int(a, e, 0)
#define T_assert_ne_i16(a, e) T_flags_ne_int(a, e, T_CHECK_STOP)
#define T_quiet_ne_i16(a, e) T_flags_ne_int(a, e, T_CHECK_QUIET)
#define T_step_ne_i16(s, a, e) T_flags_ne_int(a, e, T_CHECK_STEP(s))
#define T_step_assert_ne_i16(s, a, e) \
T_flags_ne_int(a, e, T_CHECK_STEP(s) | T_CHECK_STOP)
#define T_ge_i16(a, e) T_flags_ge_int(a, e, 0)
#define T_assert_ge_i16(a, e) T_flags_ge_int(a, e, T_CHECK_STOP)
#define T_quiet_ge_i16(a, e) T_flags_ge_int(a, e, T_CHECK_QUIET)
#define T_step_ge_i16(s, a, e) T_flags_ge_int(a, e, T_CHECK_STEP(s))
#define T_step_assert_ge_i16(s, a, e) \
T_flags_ge_int(a, e, T_CHECK_STEP(s) | T_CHECK_STOP)
#define T_gt_i16(a, e) T_flags_gt_int(a, e, 0)
#define T_assert_gt_i16(a, e) T_flags_gt_int(a, e, T_CHECK_STOP)
#define T_quiet_gt_i16(a, e) T_flags_gt_int(a, e, T_CHECK_QUIET)
#define T_step_gt_i16(s, a, e) T_flags_gt_int(a, e, T_CHECK_STEP(s))
#define T_step_assert_gt_i16(s, a, e) \
T_flags_gt_int(a, e, T_CHECK_STEP(s) | T_CHECK_STOP)
#define T_le_i16(a, e) T_flags_le_int(a, e, 0)
#define T_assert_le_i16(a, e) T_flags_le_int(a, e, T_CHECK_STOP)
#define T_quiet_le_i16(a, e) T_flags_le_int(a, e, T_CHECK_QUIET)
#define T_step_le_i16(s, a, e) T_flags_le_int(a, e, T_CHECK_STEP(s))
#define T_step_assert_le_i16(s, a, e) \
T_flags_le_int(a, e, T_CHECK_STEP(s) | T_CHECK_STOP)
#define T_lt_i16(a, e) T_flags_lt_int(a, e, 0)
#define T_assert_lt_i16(a, e) T_flags_lt_int(a, e, T_CHECK_STOP)
#define T_quiet_lt_i16(a, e) T_flags_lt_int(a, e, T_CHECK_QUIET)
#define T_step_lt_i16(s, a, e) T_flags_lt_int(a, e, T_CHECK_STEP(s))
#define T_step_assert_lt_i16(s, a, e) \
T_flags_lt_int(a, e, T_CHECK_STEP(s) | T_CHECK_STOP)
/** @} */
/**
* @defgroup RTEMSTestFrameworkChecksUInt16 Unsigned 16-Bit Integer Checks
*
* @ingroup RTEMSTestFramework
*
* @brief Checks for unsigned 16-bit integers (uint16_t).
*
* @{
*/
#define T_eq_u16(a, e) T_flags_eq_uint(a, e, 0)
#define T_assert_eq_u16(a, e) T_flags_eq_uint(a, e, T_CHECK_STOP)
#define T_quiet_eq_u16(a, e) T_flags_eq_uint(a, e, T_CHECK_QUIET)
#define T_step_eq_u16(s, a, e) T_flags_eq_uint(a, e, T_CHECK_STEP(s))
#define T_step_assert_eq_u16(s, a, e) \
T_flags_eq_uint(a, e, T_CHECK_STEP(s) | T_CHECK_STOP)
#define T_ne_u16(a, e) T_flags_ne_uint(a, e, 0)
#define T_assert_ne_u16(a, e) T_flags_ne_uint(a, e, T_CHECK_STOP)
#define T_quiet_ne_u16(a, e) T_flags_ne_uint(a, e, T_CHECK_QUIET)
#define T_step_ne_u16(s, a, e) T_flags_ne_uint(a, e, T_CHECK_STEP(s))
#define T_step_assert_ne_u16(s, a, e) \
T_flags_ne_uint(a, e, T_CHECK_STEP(s) | T_CHECK_STOP)
#define T_ge_u16(a, e) T_flags_ge_uint(a, e, 0)
#define T_assert_ge_u16(a, e) T_flags_ge_uint(a, e, T_CHECK_STOP)
#define T_quiet_ge_u16(a, e) T_flags_ge_uint(a, e, T_CHECK_QUIET)
#define T_step_ge_u16(s, a, e) T_flags_ge_uint(a, e, T_CHECK_STEP(s))
#define T_step_assert_ge_u16(s, a, e) \
T_flags_ge_uint(a, e, T_CHECK_STEP(s) | T_CHECK_STOP)
#define T_gt_u16(a, e) T_flags_gt_uint(a, e, 0)
#define T_assert_gt_u16(a, e) T_flags_gt_uint(a, e, T_CHECK_STOP)
#define T_quiet_gt_u16(a, e) T_flags_gt_uint(a, e, T_CHECK_QUIET)
#define T_step_gt_u16(s, a, e) T_flags_gt_uint(a, e, T_CHECK_STEP(s))
#define T_step_assert_gt_u16(s, a, e) \
T_flags_gt_uint(a, e, T_CHECK_STEP(s) | T_CHECK_STOP)
#define T_le_u16(a, e) T_flags_le_uint(a, e, 0)
#define T_assert_le_u16(a, e) T_flags_le_uint(a, e, T_CHECK_STOP)
#define T_quiet_le_u16(a, e) T_flags_le_uint(a, e, T_CHECK_QUIET)
#define T_step_le_u16(s, a, e) T_flags_le_uint(a, e, T_CHECK_STEP(s))
#define T_step_assert_le_u16(s, a, e) \
T_flags_le_uint(a, e, T_CHECK_STEP(s) | T_CHECK_STOP)
#define T_lt_u16(a, e) T_flags_lt_uint(a, e, 0)
#define T_assert_lt_u16(a, e) T_flags_lt_uint(a, e, T_CHECK_STOP)
#define T_quiet_lt_u16(a, e) T_flags_lt_uint(a, e, T_CHECK_QUIET)
#define T_step_lt_u16(s, a, e) T_flags_lt_uint(a, e, T_CHECK_STEP(s))
#define T_step_assert_lt_u16(s, a, e) \
T_flags_lt_uint(a, e, T_CHECK_STEP(s) | T_CHECK_STOP)
/** @} */
/**
* @defgroup RTEMSTestFrameworkChecksInt32 Signed 32-Bit Integer Checks
*
* @ingroup RTEMSTestFramework
*
* @brief Checks for signed 32-bit integers (int32_t).
*
* @{
*/
#define T_eq_i32(a, e) T_flags_eq_long(a, e, 0)
#define T_assert_eq_i32(a, e) T_flags_eq_long(a, e, T_CHECK_STOP)
#define T_quiet_eq_i32(a, e) T_flags_eq_long(a, e, T_CHECK_QUIET)
#define T_step_eq_i32(s, a, e) T_flags_eq_long(a, e, T_CHECK_STEP(s))
#define T_step_assert_eq_i32(s, a, e) \
T_flags_eq_long(a, e, T_CHECK_STEP(s) | T_CHECK_STOP)
#define T_ne_i32(a, e) T_flags_ne_long(a, e, 0)
#define T_assert_ne_i32(a, e) T_flags_ne_long(a, e, T_CHECK_STOP)
#define T_quiet_ne_i32(a, e) T_flags_ne_long(a, e, T_CHECK_QUIET)
#define T_step_ne_i32(s, a, e) T_flags_ne_long(a, e, T_CHECK_STEP(s))
#define T_step_assert_ne_i32(s, a, e) \
T_flags_ne_long(a, e, T_CHECK_STEP(s) | T_CHECK_STOP)
#define T_ge_i32(a, e) T_flags_ge_long(a, e, 0)
#define T_assert_ge_i32(a, e) T_flags_ge_long(a, e, T_CHECK_STOP)
#define T_quiet_ge_i32(a, e) T_flags_ge_long(a, e, T_CHECK_QUIET)
#define T_step_ge_i32(s, a, e) T_flags_ge_long(a, e, T_CHECK_STEP(s))
#define T_step_assert_ge_i32(s, a, e) \
T_flags_ge_long(a, e, T_CHECK_STEP(s) | T_CHECK_STOP)
#define T_gt_i32(a, e) T_flags_gt_long(a, e, 0)
#define T_assert_gt_i32(a, e) T_flags_gt_long(a, e, T_CHECK_STOP)
#define T_quiet_gt_i32(a, e) T_flags_gt_long(a, e, T_CHECK_QUIET)
#define T_step_gt_i32(s, a, e) T_flags_gt_long(a, e, T_CHECK_STEP(s))
#define T_step_assert_gt_i32(s, a, e) \
T_flags_gt_long(a, e, T_CHECK_STEP(s) | T_CHECK_STOP)
#define T_le_i32(a, e) T_flags_le_long(a, e, 0)
#define T_assert_le_i32(a, e) T_flags_le_long(a, e, T_CHECK_STOP)
#define T_quiet_le_i32(a, e) T_flags_le_long(a, e, T_CHECK_QUIET)
#define T_step_le_i32(s, a, e) T_flags_le_long(a, e, T_CHECK_STEP(s))
#define T_step_assert_le_i32(s, a, e) \
T_flags_le_long(a, e, T_CHECK_STEP(s) | T_CHECK_STOP)
#define T_lt_i32(a, e) T_flags_lt_long(a, e, 0)
#define T_assert_lt_i32(a, e) T_flags_lt_long(a, e, T_CHECK_STOP)
#define T_quiet_lt_i32(a, e) T_flags_lt_long(a, e, T_CHECK_QUIET)
#define T_step_lt_i32(s, a, e) T_flags_lt_long(a, e, T_CHECK_STEP(s))
#define T_step_assert_lt_i32(s, a, e) \
T_flags_lt_long(a, e, T_CHECK_STEP(s) | T_CHECK_STOP)
/** @} */
/**
* @defgroup RTEMSTestFrameworkChecksUInt32 Unsigned 32-Bit Integer Checks
*
* @ingroup RTEMSTestFramework
*
* @brief Checks for unsigned 32-bit integers (uint32_t).
*
* @{
*/
#define T_eq_u32(a, e) T_flags_eq_ulong(a, e, 0)
#define T_assert_eq_u32(a, e) T_flags_eq_ulong(a, e, T_CHECK_STOP)
#define T_quiet_eq_u32(a, e) T_flags_eq_ulong(a, e, T_CHECK_QUIET)
#define T_step_eq_u32(s, a, e) T_flags_eq_ulong(a, e, T_CHECK_STEP(s))
#define T_step_assert_eq_u32(s, a, e) \
T_flags_eq_ulong(a, e, T_CHECK_STEP(s) | T_CHECK_STOP)
#define T_ne_u32(a, e) T_flags_ne_ulong(a, e, 0)
#define T_assert_ne_u32(a, e) T_flags_ne_ulong(a, e, T_CHECK_STOP)
#define T_quiet_ne_u32(a, e) T_flags_ne_ulong(a, e, T_CHECK_QUIET)
#define T_step_ne_u32(s, a, e) T_flags_ne_ulong(a, e, T_CHECK_STEP(s))
#define T_step_assert_ne_u32(s, a, e) \
T_flags_ne_ulong(a, e, T_CHECK_STEP(s) | T_CHECK_STOP)
#define T_ge_u32(a, e) T_flags_ge_ulong(a, e, 0)
#define T_assert_ge_u32(a, e) T_flags_ge_ulong(a, e, T_CHECK_STOP)
#define T_quiet_ge_u32(a, e) T_flags_ge_ulong(a, e, T_CHECK_QUIET)
#define T_step_ge_u32(s, a, e) T_flags_ge_ulong(a, e, T_CHECK_STEP(s))
#define T_step_assert_ge_u32(s, a, e) \
T_flags_ge_ulong(a, e, T_CHECK_STEP(s) | T_CHECK_STOP)
#define T_gt_u32(a, e) T_flags_gt_ulong(a, e, 0)
#define T_assert_gt_u32(a, e) T_flags_gt_ulong(a, e, T_CHECK_STOP)
#define T_quiet_gt_u32(a, e) T_flags_gt_ulong(a, e, T_CHECK_QUIET)
#define T_step_gt_u32(s, a, e) T_flags_gt_ulong(a, e, T_CHECK_STEP(s))
#define T_step_assert_gt_u32(s, a, e) \
T_flags_gt_ulong(a, e, T_CHECK_STEP(s) | T_CHECK_STOP)
#define T_le_u32(a, e) T_flags_le_ulong(a, e, 0)
#define T_assert_le_u32(a, e) T_flags_le_ulong(a, e, T_CHECK_STOP)
#define T_quiet_le_u32(a, e) T_flags_le_ulong(a, e, T_CHECK_QUIET)
#define T_step_le_u32(s, a, e) T_flags_le_ulong(a, e, T_CHECK_STEP(s))
#define T_step_assert_le_u32(s, a, e) \
T_flags_le_ulong(a, e, T_CHECK_STEP(s) | T_CHECK_STOP)
#define T_lt_u32(a, e) T_flags_lt_ulong(a, e, 0)
#define T_assert_lt_u32(a, e) T_flags_lt_ulong(a, e, T_CHECK_STOP)
#define T_quiet_lt_u32(a, e) T_flags_lt_ulong(a, e, T_CHECK_QUIET)
#define T_step_lt_u32(s, a, e) T_flags_lt_ulong(a, e, T_CHECK_STEP(s))
#define T_step_assert_lt_u32(s, a, e) \
T_flags_lt_ulong(a, e, T_CHECK_STEP(s) | T_CHECK_STOP)
/** @} */
/**
* @defgroup RTEMSTestFrameworkChecksInt64 Signed 64-Bit Integer Checks
*
* @ingroup RTEMSTestFramework
*
* @brief Checks for signed 64-bit integers (int64_t).
*
* @{
*/
#define T_eq_i64(a, e) T_flags_eq_ll(a, e, 0)
#define T_assert_eq_i64(a, e) T_flags_eq_ll(a, e, T_CHECK_STOP)
#define T_quiet_eq_i64(a, e) T_flags_eq_ll(a, e, T_CHECK_QUIET)
#define T_step_eq_i64(s, a, e) T_flags_eq_ll(a, e, T_CHECK_STEP(s))
#define T_step_assert_eq_i64(s, a, e) \
T_flags_eq_ll(a, e, T_CHECK_STEP(s) | T_CHECK_STOP)
#define T_ne_i64(a, e) T_flags_ne_ll(a, e, 0)
#define T_assert_ne_i64(a, e) T_flags_ne_ll(a, e, T_CHECK_STOP)
#define T_quiet_ne_i64(a, e) T_flags_ne_ll(a, e, T_CHECK_QUIET)
#define T_step_ne_i64(s, a, e) T_flags_ne_ll(a, e, T_CHECK_STEP(s))
#define T_step_assert_ne_i64(s, a, e) \
T_flags_ne_ll(a, e, T_CHECK_STEP(s) | T_CHECK_STOP)
#define T_ge_i64(a, e) T_flags_ge_ll(a, e, 0)
#define T_assert_ge_i64(a, e) T_flags_ge_ll(a, e, T_CHECK_STOP)
#define T_quiet_ge_i64(a, e) T_flags_ge_ll(a, e, T_CHECK_QUIET)
#define T_step_ge_i64(s, a, e) T_flags_ge_ll(a, e, T_CHECK_STEP(s))
#define T_step_assert_ge_i64(s, a, e) \
T_flags_ge_ll(a, e, T_CHECK_STEP(s) | T_CHECK_STOP)
#define T_gt_i64(a, e) T_flags_gt_ll(a, e, 0)
#define T_assert_gt_i64(a, e) T_flags_gt_ll(a, e, T_CHECK_STOP)
#define T_quiet_gt_i64(a, e) T_flags_gt_ll(a, e, T_CHECK_QUIET)
#define T_step_gt_i64(s, a, e) T_flags_gt_ll(a, e, T_CHECK_STEP(s))
#define T_step_assert_gt_i64(s, a, e) \
T_flags_gt_ll(a, e, T_CHECK_STEP(s) | T_CHECK_STOP)
#define T_le_i64(a, e) T_flags_le_ll(a, e, 0)
#define T_assert_le_i64(a, e) T_flags_le_ll(a, e, T_CHECK_STOP)
#define T_quiet_le_i64(a, e) T_flags_le_ll(a, e, T_CHECK_QUIET)
#define T_step_le_i64(s, a, e) T_flags_le_ll(a, e, T_CHECK_STEP(s))
#define T_step_assert_le_i64(s, a, e) \
T_flags_le_ll(a, e, T_CHECK_STEP(s) | T_CHECK_STOP)
#define T_lt_i64(a, e) T_flags_lt_ll(a, e, 0)
#define T_assert_lt_i64(a, e) T_flags_lt_ll(a, e, T_CHECK_STOP)
#define T_quiet_lt_i64(a, e) T_flags_lt_ll(a, e, T_CHECK_QUIET)
#define T_step_lt_i64(s, a, e) T_flags_lt_ll(a, e, T_CHECK_STEP(s))
#define T_step_assert_lt_i64(s, a, e) \
T_flags_lt_ll(a, e, T_CHECK_STEP(s) | T_CHECK_STOP)
/** @} */
/**
* @defgroup RTEMSTestFrameworkChecksUInt64 Unsigned 64-Bit Integer Checks
*
* @ingroup RTEMSTestFramework
*
* @brief Checks for unsigned 64-bit integers (uint64_t).
*
* @{
*/
#define T_eq_u64(a, e) T_flags_eq_ull(a, e, 0)
#define T_assert_eq_u64(a, e) T_flags_eq_ull(a, e, T_CHECK_STOP)
#define T_quiet_eq_u64(a, e) T_flags_eq_ull(a, e, T_CHECK_QUIET)
#define T_step_eq_u64(s, a, e) T_flags_eq_ull(a, e, T_CHECK_STEP(s))
#define T_step_assert_eq_u64(s, a, e) \
T_flags_eq_ull(a, e, T_CHECK_STEP(s) | T_CHECK_STOP)
#define T_ne_u64(a, e) T_flags_ne_ull(a, e, 0)
#define T_assert_ne_u64(a, e) T_flags_ne_ull(a, e, T_CHECK_STOP)
#define T_quiet_ne_u64(a, e) T_flags_ne_ull(a, e, T_CHECK_QUIET)
#define T_step_ne_u64(s, a, e) T_flags_ne_ull(a, e, T_CHECK_STEP(s))
#define T_step_assert_ne_u64(s, a, e) \
T_flags_ne_ull(a, e, T_CHECK_STEP(s) | T_CHECK_STOP)
#define T_ge_u64(a, e) T_flags_ge_ull(a, e, 0)
#define T_assert_ge_u64(a, e) T_flags_ge_ull(a, e, T_CHECK_STOP)
#define T_quiet_ge_u64(a, e) T_flags_ge_ull(a, e, T_CHECK_QUIET)
#define T_step_ge_u64(s, a, e) T_flags_ge_ull(a, e, T_CHECK_STEP(s))
#define T_step_assert_ge_u64(s, a, e) \
T_flags_ge_ull(a, e, T_CHECK_STEP(s) | T_CHECK_STOP)
#define T_gt_u64(a, e) T_flags_gt_ull(a, e, 0)
#define T_assert_gt_u64(a, e) T_flags_gt_ull(a, e, T_CHECK_STOP)
#define T_quiet_gt_u64(a, e) T_flags_gt_ull(a, e, T_CHECK_QUIET)
#define T_step_gt_u64(s, a, e) T_flags_gt_ull(a, e, T_CHECK_STEP(s))
#define T_step_assert_gt_u64(s, a, e) \
T_flags_gt_ull(a, e, T_CHECK_STEP(s) | T_CHECK_STOP)
#define T_le_u64(a, e) T_flags_le_ull(a, e, 0)
#define T_assert_le_u64(a, e) T_flags_le_ull(a, e, T_CHECK_STOP)
#define T_quiet_le_u64(a, e) T_flags_le_ull(a, e, T_CHECK_QUIET)
#define T_step_le_u64(s, a, e) T_flags_le_ull(a, e, T_CHECK_STEP(s))
#define T_step_assert_le_u64(s, a, e) \
T_flags_le_ull(a, e, T_CHECK_STEP(s) | T_CHECK_STOP)
#define T_lt_u64(a, e) T_flags_lt_ull(a, e, 0)
#define T_assert_lt_u64(a, e) T_flags_lt_ull(a, e, T_CHECK_STOP)
#define T_quiet_lt_u64(a, e) T_flags_lt_ull(a, e, T_CHECK_QUIET)
#define T_step_lt_u64(s, a, e) T_flags_lt_ull(a, e, T_CHECK_STEP(s))
#define T_step_assert_lt_u64(s, a, e) \
T_flags_lt_ull(a, e, T_CHECK_STEP(s) | T_CHECK_STOP)
/** @} */
/**
* @defgroup RTEMSTestFrameworkChecksIntptr Signed Pointer Value Checks
*
* @ingroup RTEMSTestFramework
*
* @brief Checks for signed pointer values (intptr_t).
*
* @{
*/
#define T_eq_iptr(a, e) T_flags_eq_long(a, e, 0)
#define T_assert_eq_iptr(a, e) T_flags_eq_long(a, e, T_CHECK_STOP)
#define T_quiet_eq_iptr(a, e) T_flags_eq_long(a, e, T_CHECK_QUIET)
#define T_step_eq_iptr(s, a, e) T_flags_eq_long(a, e, T_CHECK_STEP(s))
#define T_step_assert_eq_iptr(s, a, e) \
T_flags_eq_long(a, e, T_CHECK_STEP(s) | T_CHECK_STOP)
#define T_ne_iptr(a, e) T_flags_ne_long(a, e, 0)
#define T_assert_ne_iptr(a, e) T_flags_ne_long(a, e, T_CHECK_STOP)
#define T_quiet_ne_iptr(a, e) T_flags_ne_long(a, e, T_CHECK_QUIET)
#define T_step_ne_iptr(s, a, e) T_flags_ne_long(a, e, T_CHECK_STEP(s))
#define T_step_assert_ne_iptr(s, a, e) \
T_flags_ne_long(a, e, T_CHECK_STEP(s) | T_CHECK_STOP)
#define T_ge_iptr(a, e) T_flags_ge_long(a, e, 0)
#define T_assert_ge_iptr(a, e) T_flags_ge_long(a, e, T_CHECK_STOP)
#define T_quiet_ge_iptr(a, e) T_flags_ge_long(a, e, T_CHECK_QUIET)
#define T_step_ge_iptr(s, a, e) T_flags_ge_long(a, e, T_CHECK_STEP(s))
#define T_step_assert_ge_iptr(s, a, e) \
T_flags_ge_long(a, e, T_CHECK_STEP(s) | T_CHECK_STOP)
#define T_gt_iptr(a, e) T_flags_gt_long(a, e, 0)
#define T_assert_gt_iptr(a, e) T_flags_gt_long(a, e, T_CHECK_STOP)
#define T_quiet_gt_iptr(a, e) T_flags_gt_long(a, e, T_CHECK_QUIET)
#define T_step_gt_iptr(s, a, e) T_flags_gt_long(a, e, T_CHECK_STEP(s))
#define T_step_assert_gt_iptr(s, a, e) \
T_flags_gt_long(a, e, T_CHECK_STEP(s) | T_CHECK_STOP)
#define T_le_iptr(a, e) T_flags_le_long(a, e, 0)
#define T_assert_le_iptr(a, e) T_flags_le_long(a, e, T_CHECK_STOP)
#define T_quiet_le_iptr(a, e) T_flags_le_long(a, e, T_CHECK_QUIET)
#define T_step_le_iptr(s, a, e) T_flags_le_long(a, e, T_CHECK_STEP(s))
#define T_step_assert_le_iptr(s, a, e) \
T_flags_le_long(a, e, T_CHECK_STEP(s) | T_CHECK_STOP)
#define T_lt_iptr(a, e) T_flags_lt_long(a, e, 0)
#define T_assert_lt_iptr(a, e) T_flags_lt_long(a, e, T_CHECK_STOP)
#define T_quiet_lt_iptr(a, e) T_flags_lt_long(a, e, T_CHECK_QUIET)
#define T_step_lt_iptr(s, a, e) T_flags_lt_long(a, e, T_CHECK_STEP(s))
#define T_step_assert_lt_iptr(s, a, e) \
T_flags_lt_long(a, e, T_CHECK_STEP(s) | T_CHECK_STOP)
/** @} */
/**
* @defgroup RTEMSTestFrameworkChecksUIntptr Unsigned Pointer Value Checks
*
* @ingroup RTEMSTestFramework
*
* @brief Checks for unsigned pointer values (uintptr_t).
*
* @{
*/
#define T_eq_uptr(a, e) T_flags_eq_ulong(a, e, 0)
#define T_assert_eq_uptr(a, e) T_flags_eq_ulong(a, e, T_CHECK_STOP)
#define T_quiet_eq_uptr(a, e) T_flags_eq_ulong(a, e, T_CHECK_QUIET)
#define T_step_eq_uptr(s, a, e) T_flags_eq_ulong(a, e, T_CHECK_STEP(s))
#define T_step_assert_eq_uptr(s, a, e) \
T_flags_eq_ulong(a, e, T_CHECK_STEP(s) | T_CHECK_STOP)
#define T_ne_uptr(a, e) T_flags_ne_ulong(a, e, 0)
#define T_assert_ne_uptr(a, e) T_flags_ne_ulong(a, e, T_CHECK_STOP)
#define T_quiet_ne_uptr(a, e) T_flags_ne_ulong(a, e, T_CHECK_QUIET)
#define T_step_ne_uptr(s, a, e) T_flags_ne_ulong(a, e, T_CHECK_STEP(s))
#define T_step_assert_ne_uptr(s, a, e) \
T_flags_ne_ulong(a, e, T_CHECK_STEP(s) | T_CHECK_STOP)
#define T_ge_uptr(a, e) T_flags_ge_ulong(a, e, 0)
#define T_assert_ge_uptr(a, e) T_flags_ge_ulong(a, e, T_CHECK_STOP)
#define T_quiet_ge_uptr(a, e) T_flags_ge_ulong(a, e, T_CHECK_QUIET)
#define T_step_ge_uptr(s, a, e) T_flags_ge_ulong(a, e, T_CHECK_STEP(s))
#define T_step_assert_ge_uptr(s, a, e) \
T_flags_ge_ulong(a, e, T_CHECK_STEP(s) | T_CHECK_STOP)
#define T_gt_uptr(a, e) T_flags_gt_ulong(a, e, 0)
#define T_assert_gt_uptr(a, e) T_flags_gt_ulong(a, e, T_CHECK_STOP)
#define T_quiet_gt_uptr(a, e) T_flags_gt_ulong(a, e, T_CHECK_QUIET)
#define T_step_gt_uptr(s, a, e) T_flags_gt_ulong(a, e, T_CHECK_STEP(s))
#define T_step_assert_gt_uptr(s, a, e) \
T_flags_gt_ulong(a, e, T_CHECK_STEP(s) | T_CHECK_STOP)
#define T_le_uptr(a, e) T_flags_le_ulong(a, e, 0)
#define T_assert_le_uptr(a, e) T_flags_le_ulong(a, e, T_CHECK_STOP)
#define T_quiet_le_uptr(a, e) T_flags_le_ulong(a, e, T_CHECK_QUIET)
#define T_step_le_uptr(s, a, e) T_flags_le_ulong(a, e, T_CHECK_STEP(s))
#define T_step_assert_le_uptr(s, a, e) \
T_flags_le_ulong(a, e, T_CHECK_STEP(s) | T_CHECK_STOP)
#define T_lt_uptr(a, e) T_flags_lt_ulong(a, e, 0)
#define T_assert_lt_uptr(a, e) T_flags_lt_ulong(a, e, T_CHECK_STOP)
#define T_quiet_lt_uptr(a, e) T_flags_lt_ulong(a, e, T_CHECK_QUIET)
#define T_step_lt_uptr(s, a, e) T_flags_lt_ulong(a, e, T_CHECK_STEP(s))
#define T_step_assert_lt_uptr(s, a, e) \
T_flags_lt_ulong(a, e, T_CHECK_STEP(s) | T_CHECK_STOP)
/** @} */
/**
* @defgroup RTEMSTestFrameworkChecksSSZ Signed Size Checks
*
* @ingroup RTEMSTestFramework
*
* @brief Checks for signed sizes (ssize_t).
*
* @{
*/
#define T_eq_ssz(a, e) T_flags_eq_long(a, e, 0)
#define T_assert_eq_ssz(a, e) T_flags_eq_long(a, e, T_CHECK_STOP)
#define T_quiet_eq_ssz(a, e) T_flags_eq_long(a, e, T_CHECK_QUIET)
#define T_step_eq_ssz(s, a, e) T_flags_eq_long(a, e, T_CHECK_STEP(s))
#define T_step_assert_eq_ssz(s, a, e) \
T_flags_eq_long(a, e, T_CHECK_STEP(s) | T_CHECK_STOP)
#define T_ne_ssz(a, e) T_flags_ne_long(a, e, 0)
#define T_assert_ne_ssz(a, e) T_flags_ne_long(a, e, T_CHECK_STOP)
#define T_quiet_ne_ssz(a, e) T_flags_ne_long(a, e, T_CHECK_QUIET)
#define T_step_ne_ssz(s, a, e) T_flags_ne_long(a, e, T_CHECK_STEP(s))
#define T_step_assert_ne_ssz(s, a, e) \
T_flags_ne_long(a, e, T_CHECK_STEP(s) | T_CHECK_STOP)
#define T_ge_ssz(a, e) T_flags_ge_long(a, e, 0)
#define T_assert_ge_ssz(a, e) T_flags_ge_long(a, e, T_CHECK_STOP)
#define T_quiet_ge_ssz(a, e) T_flags_ge_long(a, e, T_CHECK_QUIET)
#define T_step_ge_ssz(s, a, e) T_flags_ge_long(a, e, T_CHECK_STEP(s))
#define T_step_assert_ge_ssz(s, a, e) \
T_flags_ge_long(a, e, T_CHECK_STEP(s) | T_CHECK_STOP)
#define T_gt_ssz(a, e) T_flags_gt_long(a, e, 0)
#define T_assert_gt_ssz(a, e) T_flags_gt_long(a, e, T_CHECK_STOP)
#define T_quiet_gt_ssz(a, e) T_flags_gt_long(a, e, T_CHECK_QUIET)
#define T_step_gt_ssz(s, a, e) T_flags_gt_long(a, e, T_CHECK_STEP(s))
#define T_step_assert_gt_ssz(s, a, e) \
T_flags_gt_long(a, e, T_CHECK_STEP(s) | T_CHECK_STOP)
#define T_le_ssz(a, e) T_flags_le_long(a, e, 0)
#define T_assert_le_ssz(a, e) T_flags_le_long(a, e, T_CHECK_STOP)
#define T_quiet_le_ssz(a, e) T_flags_le_long(a, e, T_CHECK_QUIET)
#define T_step_le_ssz(s, a, e) T_flags_le_long(a, e, T_CHECK_STEP(s))
#define T_step_assert_le_ssz(s, a, e) \
T_flags_le_long(a, e, T_CHECK_STEP(s) | T_CHECK_STOP)
#define T_lt_ssz(a, e) T_flags_lt_long(a, e, 0)
#define T_assert_lt_ssz(a, e) T_flags_lt_long(a, e, T_CHECK_STOP)
#define T_quiet_lt_ssz(a, e) T_flags_lt_long(a, e, T_CHECK_QUIET)
#define T_step_lt_ssz(s, a, e) T_flags_lt_long(a, e, T_CHECK_STEP(s))
#define T_step_assert_lt_ssz(s, a, e) \
T_flags_lt_long(a, e, T_CHECK_STEP(s) | T_CHECK_STOP)
/** @} */
/**
* @defgroup RTEMSTestFrameworkChecksSZ Size Checks
*
* @ingroup RTEMSTestFramework
*
* @brief Checks for sizes (size_t).
*
* @{
*/
#define T_eq_sz(a, e) T_flags_eq_ulong(a, e, 0)
#define T_assert_eq_sz(a, e) T_flags_eq_ulong(a, e, T_CHECK_STOP)
#define T_quiet_eq_sz(a, e) T_flags_eq_ulong(a, e, T_CHECK_QUIET)
#define T_step_eq_sz(s, a, e) T_flags_eq_ulong(a, e, T_CHECK_STEP(s))
#define T_step_assert_eq_sz(s, a, e) \
T_flags_eq_ulong(a, e, T_CHECK_STEP(s) | T_CHECK_STOP)
#define T_ne_sz(a, e) T_flags_ne_ulong(a, e, 0)
#define T_assert_ne_sz(a, e) T_flags_ne_ulong(a, e, T_CHECK_STOP)
#define T_quiet_ne_sz(a, e) T_flags_ne_ulong(a, e, T_CHECK_QUIET)
#define T_step_ne_sz(s, a, e) T_flags_ne_ulong(a, e, T_CHECK_STEP(s))
#define T_step_assert_ne_sz(s, a, e) \
T_flags_ne_ulong(a, e, T_CHECK_STEP(s) | T_CHECK_STOP)
#define T_ge_sz(a, e) T_flags_ge_ulong(a, e, 0)
#define T_assert_ge_sz(a, e) T_flags_ge_ulong(a, e, T_CHECK_STOP)
#define T_quiet_ge_sz(a, e) T_flags_ge_ulong(a, e, T_CHECK_QUIET)
#define T_step_ge_sz(s, a, e) T_flags_ge_ulong(a, e, T_CHECK_STEP(s))
#define T_step_assert_ge_sz(s, a, e) \
T_flags_ge_ulong(a, e, T_CHECK_STEP(s) | T_CHECK_STOP)
#define T_gt_sz(a, e) T_flags_gt_ulong(a, e, 0)
#define T_assert_gt_sz(a, e) T_flags_gt_ulong(a, e, T_CHECK_STOP)
#define T_quiet_gt_sz(a, e) T_flags_gt_ulong(a, e, T_CHECK_QUIET)
#define T_step_gt_sz(s, a, e) T_flags_gt_ulong(a, e, T_CHECK_STEP(s))
#define T_step_assert_gt_sz(s, a, e) \
T_flags_gt_ulong(a, e, T_CHECK_STEP(s) | T_CHECK_STOP)
#define T_le_sz(a, e) T_flags_le_ulong(a, e, 0)
#define T_assert_le_sz(a, e) T_flags_le_ulong(a, e, T_CHECK_STOP)
#define T_quiet_le_sz(a, e) T_flags_le_ulong(a, e, T_CHECK_QUIET)
#define T_step_le_sz(s, a, e) T_flags_le_ulong(a, e, T_CHECK_STEP(s))
#define T_step_assert_le_sz(s, a, e) \
T_flags_le_ulong(a, e, T_CHECK_STEP(s) | T_CHECK_STOP)
#define T_lt_sz(a, e) T_flags_lt_ulong(a, e, 0)
#define T_assert_lt_sz(a, e) T_flags_lt_ulong(a, e, T_CHECK_STOP)
#define T_quiet_lt_sz(a, e) T_flags_lt_ulong(a, e, T_CHECK_QUIET)
#define T_step_lt_sz(s, a, e) T_flags_lt_ulong(a, e, T_CHECK_STEP(s))
#define T_step_assert_lt_sz(s, a, e) \
T_flags_lt_ulong(a, e, T_CHECK_STEP(s) | T_CHECK_STOP)
/** @} */
/**
* @defgroup RTEMSTestFrameworkChecksPSX POSIX Status and Error Number Checks
*
* @ingroup RTEMSTestFramework
*
* @brief Checks for POSIX status and error numbers.
*
* @{
*/
const char *T_strerror(int);
#define T_eno(a, e) T_flags_eno(a, e, 0)
#define T_assert_eno(a, e) T_flags_eno(a, e, T_CHECK_STOP)
#define T_quiet_eno(a, e) T_flags_eno(a, e, T_CHECK_QUIET)
#define T_step_eno(s, a, e) T_flags_eno(a, e, T_CHECK_STEP(s))
#define T_step_assert_eno(s, a, e) \
T_flags_eno(a, e, T_CHECK_STEP(s) | T_CHECK_STOP)
#define T_eno_success(a) T_flags_eno_success(a, 0)
#define T_assert_eno_success(a) T_flags_eno_success(a, T_CHECK_STOP)
#define T_quiet_eno_success(a) T_flags_eno_success(a, T_CHECK_QUIET)
#define T_step_eno_success(s, a) T_flags_eno_success(a, T_CHECK_STEP(s))
#define T_step_assert_eno_success(s, a) \
T_flags_eno_success(a, T_CHECK_STEP(s) | T_CHECK_STOP)
#define T_psx_error(a, eno) T_flags_psx_error(a, eno, 0)
#define T_assert_psx_error(a, eno) T_flags_psx_error(a, eno, T_CHECK_STOP)
#define T_quiet_psx_error(a, eno) T_flags_psx_error(a, eno, T_CHECK_QUIET)
#define T_step_psx_error(s, a, eno) T_flags_psx_error(a, eno, T_CHECK_STEP(s))
#define T_step_assert_psx_error(s, a, eno) \
T_flags_psx_error(a, eno, T_CHECK_STEP(s) | T_CHECK_STOP)
#define T_psx_success(a) T_flags_psx_success(a, 0)
#define T_assert_psx_success(a) T_flags_psx_success(a, T_CHECK_STOP)
#define T_quiet_psx_success(a) T_flags_psx_success(a, T_CHECK_QUIET)
#define T_step_psx_success(s, a) T_flags_psx_success(a, T_CHECK_STEP(s))
#define T_step_assert_psx_success(s, a) \
T_flags_psx_success(a, T_CHECK_STEP(s) | T_CHECK_STOP)
/** @} */
#ifdef __rtems__
void T_check_rsc(const T_check_context *, uint32_t, uint32_t);
#define T_flags_rsc(a, e, flags) \
{ \
static const T_check_context T_check_instance = { \
T_FILE_NAME, __LINE__, (flags) | T_CHECK_FMT }; \
T_check_rsc(&T_check_instance, a, e); \
}
void T_check_rsc_success(const T_check_context *, uint32_t);
#define T_flags_rsc_success(a, flags) \
{ \
static const T_check_context T_check_instance = { \
T_FILE_NAME, __LINE__, (flags) | T_CHECK_FMT }; \
T_check_rsc_success(&T_check_instance, a); \
}
/**
* @defgroup RTEMSTestFrameworkChecksRSC RTEMS Status Code Checks
*
* @ingroup RTEMSTestFramework
*
* @brief Checks for RTEMS status codes (rtems_status_code).
*
* @{
*/
#define T_rsc(a, e) T_flags_rsc(a, e, 0)
#define T_assert_rsc(a, e) T_flags_rsc(a, e, T_CHECK_STOP)
#define T_quiet_rsc(a, e) T_flags_rsc(a, e, T_CHECK_QUIET)
#define T_step_rsc(s, a, e) T_flags_rsc(a, e, T_CHECK_STEP(s))
#define T_step_assert_rsc(s, a, e) \
T_flags_rsc(a, e, T_CHECK_STEP(s) | T_CHECK_STOP)
#define T_rsc_success(a) T_flags_rsc_success(a, 0)
#define T_assert_rsc_success(a) T_flags_rsc_success(a, T_CHECK_STOP)
#define T_quiet_rsc_success(a) T_flags_rsc_success(a, T_CHECK_QUIET)
#define T_step_rsc_success(s, a) T_flags_rsc_success(a, T_CHECK_STEP(s))
#define T_step_assert_rsc_success(s, a) \
T_flags_rsc_success(a, T_CHECK_STEP(s) | T_CHECK_STOP)
/** @} */
#endif /* __rtems__ */
void T_plan(unsigned int);
extern const T_fixture T_empty_fixture;
void T_push_plan(T_fixture_node *, unsigned int);
void T_pop_plan(void);
void T_check_step(const T_check_context *, unsigned int);
#define T_flags_step(a, flags) \
{ \
static const T_check_context T_check_instance = { \
T_FILE_NAME, __LINE__, (flags) | T_CHECK_FMT }; \
T_check_step(&T_check_instance, a); \
}
#define T_step(e) T_flags_step(e, 0)
#define T_step_assert(e) T_flags_step(e, T_CHECK_STOP)
/**
* @defgroup RTEMSTestFrameworkTime Time Services
*
* @ingroup RTEMSTestFramework
*
* @brief Time service functions.
*
* @{
*/
#ifdef __rtems__
typedef CPU_Counter_ticks T_ticks;
#else
typedef unsigned long T_ticks;
#endif
typedef uint64_t T_time;
/* More than enough for sizeof("18446744073.709552765") */
typedef char T_time_string[24];
const char *T_time_to_string_ns(T_time, T_time_string);
const char *T_time_to_string_us(T_time, T_time_string);
const char *T_time_to_string_ms(T_time, T_time_string);
const char *T_time_to_string_s(T_time, T_time_string);
const char *T_ticks_to_string_ns(T_ticks, T_time_string);
const char *T_ticks_to_string_us(T_ticks, T_time_string);
const char *T_ticks_to_string_ms(T_ticks, T_time_string);
const char *T_ticks_to_string_s(T_ticks, T_time_string);
T_time T_ticks_to_time(T_ticks);
T_ticks T_time_to_ticks(T_time);
T_time T_seconds_and_nanoseconds_to_time(uint32_t, uint32_t);
void T_time_to_seconds_and_nanoseconds(T_time, uint32_t *, uint32_t *);
T_time T_now(void);
#ifdef __rtems__
static inline T_ticks
T_tick(void)
{
return _CPU_Counter_read();
}
#else
T_ticks T_tick(void);
#endif
T_time T_now_clock(void);
T_time T_now_dummy(void);
T_time T_now_tick(void);
T_time T_case_begin_time(void);
/** @} */
void *T_malloc(size_t);
void *T_calloc(size_t, size_t);
void *T_zalloc(size_t, void (*)(void *));
void T_free(void *);
void T_register(void);
typedef enum {
T_EVENT_RUN_INITIALIZE_EARLY,
T_EVENT_RUN_INITIALIZE_LATE,
T_EVENT_CASE_EARLY,
T_EVENT_CASE_BEGIN,
T_EVENT_CASE_END,
T_EVENT_CASE_LATE,
T_EVENT_CASE_STOP,
T_EVENT_RUN_FINALIZE_EARLY,
T_EVENT_RUN_FINALIZE_LATE
} T_event;
typedef void (*T_action)(T_event, const char *);
typedef void (*T_putchar)(int, void *);
typedef struct {
const char *name;
char *buf;
size_t buf_size;
T_putchar putchar;
void *putchar_arg;
T_verbosity verbosity;
T_time (*now)(void);
void *(*allocate)(size_t);
void (*deallocate)(void *);
size_t action_count;
const T_action *actions;
} T_config;
void T_putchar_default(int, void *);
int T_main(const T_config *);
void T_make_runner(void);
bool T_is_runner(void);
void T_run_initialize(const T_config *);
void T_run_all(void);
void T_run_by_name(const char *);
void T_case_begin(const char *, const T_fixture *);
void T_case_end(void);
bool T_run_finalize(void);
void T_set_putchar(T_putchar, void *, T_putchar *, void **);
void *T_fixture_context(void);
void T_set_fixture_context(void *);
void *T_push_fixture(T_fixture_node *, const T_fixture *);
void T_pop_fixture(void);
T_NO_RETURN void T_stop(void);
#define T_unreachable() \
do { T_true(false, "Unreachable"); T_stop(); } while (0)
/**
* @brief Gets the scope for nested fixtures.
*
* This function should help implementing scope fixture methods. The parameter
* layout allows efficient code generation for this method.
*
* @param desc is the description table. It shall be a NULL-terminated array
* which references arrays of descriptive strings.
*
* @param buf is the buffer for the scope string.
*
* @param n is the size of the scope buffer in characters.
*
* @param second_indices is an array of indices defining which descriptive
* string is used for each entry in the description table.
*
* @return Returns the characters consumed from the buffer for the produced
* scope.
*/
size_t T_get_scope(
const char * const * const *desc,
char *buf,
size_t n,
const size_t *second_indices
);
size_t T_str_copy(char *, const char *, size_t);
#ifdef __rtems__
#define T_TEST_CASE_FIXTURE(name, fixture) \
void T_case_body_##name(void); \
T_case_context T_case_instance_##name = { \
#name, \
T_case_body_##name, \
fixture, \
NULL \
}; \
static T_case_context * const T_case_item_##name \
__attribute((__section__(".rtemsroset._T.content.0." #name))) \
__attribute((__used__)) = &T_case_instance_##name; \
void T_case_body_##name(void)
#else /* __rtems__ */
#define T_TEST_CASE_FIXTURE(name, fixture) \
void T_case_body_##name(void); \
T_case_context T_case_instance_##name = { \
#name, \
T_case_body_##name, \
fixture, \
NULL \
}; \
__attribute((__constructor__)) static void \
T_case_register_##name(void) \
{ \
T_case_register(&T_case_instance_##name); \
} \
void T_case_body_##name(void)
#endif /* __rtems__ */
#define T_TEST_CASE(name) T_TEST_CASE_FIXTURE(name, NULL)
void T_busy(uint_fast32_t);
uint_fast32_t T_get_one_clock_tick_busy(void);
typedef enum {
T_INTERRUPT_TEST_INITIAL,
T_INTERRUPT_TEST_ACTION,
T_INTERRUPT_TEST_BLOCKED,
T_INTERRUPT_TEST_CONTINUE,
T_INTERRUPT_TEST_DONE,
T_INTERRUPT_TEST_EARLY,
T_INTERRUPT_TEST_INTERRUPT,
T_INTERRUPT_TEST_LATE,
T_INTERRUPT_TEST_TIMEOUT
} T_interrupt_test_state;
typedef struct {
void (*prepare)(void *);
void (*action)(void *);
T_interrupt_test_state (*interrupt)(void *);
void (*blocked)(void *);
uint32_t max_iteration_count;
} T_interrupt_test_config;
T_interrupt_test_state T_interrupt_test_change_state(T_interrupt_test_state,
T_interrupt_test_state);
T_interrupt_test_state T_interrupt_test_get_state(void);
void T_interrupt_test_busy_wait_for_interrupt(void);
T_interrupt_test_state T_interrupt_test(const T_interrupt_test_config *config,
void *arg);
typedef struct {
uint32_t executing;
uint32_t heir;
uint32_t cpu;
T_time instant;
} T_thread_switch_event;
typedef struct {
size_t recorded;
size_t capacity;
uint64_t switches;
} T_thread_switch_header;
typedef struct {
T_thread_switch_header header;
T_thread_switch_event events[T_ZERO_LENGTH_ARRAY];
} T_thread_switch_log;
typedef struct {
T_thread_switch_header header;
T_thread_switch_event events[2];
} T_thread_switch_log_2;
typedef struct {
T_thread_switch_header header;
T_thread_switch_event events[4];
} T_thread_switch_log_4;
typedef struct {
T_thread_switch_header header;
T_thread_switch_event events[10];
} T_thread_switch_log_10;
T_thread_switch_log *T_thread_switch_record(T_thread_switch_log *);
T_thread_switch_log *T_thread_switch_record_2(T_thread_switch_log_2 *);
T_thread_switch_log *T_thread_switch_record_4(T_thread_switch_log_4 *);
T_thread_switch_log *T_thread_switch_record_10(T_thread_switch_log_10 *);
void T_report_hash_sha256(T_event, const char *);
void T_check_heap(T_event, const char *);
#ifdef __rtems__
void T_memory_action(T_event, const char *);
void *T_memory_allocate(size_t);
void T_memory_deallocate(void *);
void T_check_task_context(T_event, const char *);
void T_check_file_descriptors(T_event, const char *);
void T_check_rtems_barriers(T_event, const char *);
void T_check_rtems_extensions(T_event, const char *);
void T_check_rtems_message_queues(T_event, const char *);
void T_check_rtems_partitions(T_event, const char *);
void T_check_rtems_periods(T_event, const char *);
void T_check_rtems_regions(T_event, const char *);
void T_check_rtems_semaphores(T_event, const char *);
void T_check_rtems_tasks(T_event, const char *);
void T_check_rtems_timers(T_event, const char *);
void T_check_posix_keys(T_event, const char *);
void T_check_posix_message_queues(T_event, const char *);
void T_check_posix_semaphores(T_event, const char *);
void T_check_posix_shms(T_event, const char *);
void T_check_posix_threads(T_event, const char *);
void T_check_posix_timers(T_event, const char *);
typedef enum {
T_THREAD_TIMER_NO_THREAD,
T_THREAD_TIMER_SCHEDULED,
T_THREAD_TIMER_PENDING,
T_THREAD_TIMER_INACTIVE
} T_thread_timer_state;
T_thread_timer_state T_get_thread_timer_state(uint32_t);
void *T_seize_objects(rtems_status_code (*)(void *, uint32_t *), void *);
void T_surrender_objects(void **, rtems_status_code (*)(uint32_t));
#endif /* __rtems__ */
/**
* @defgroup RTEMSTestFrameworkDestructors Destructors
*
* @ingroup RTEMSTestFramework
*
* @brief Support to run destructors at the end of a test case.
*
* @{
*/
typedef struct T_destructor {
struct {
struct T_destructor *le_next;
struct T_destructor **le_prev;
} node;
void (*destroy)(struct T_destructor *);
} T_destructor;
void T_add_destructor(T_destructor *, void (*)(T_destructor *));
void T_remove_destructor(T_destructor *);
/** @} */
/**
* @defgroup RTEMSTestFrameworkMeasureRuntime Runtime Measurements
*
* @ingroup RTEMSTestFramework
*
* @brief Support to measure the runtime of code fragments.
*
* @{
*/
typedef struct T_measure_runtime_context T_measure_runtime_context;
typedef struct {
size_t sample_count;
} T_measure_runtime_config;
typedef struct {
const char *name;
int flags;
void (*setup)(void *);
void (*body)(void *);
bool (*teardown)(void *, T_ticks *, uint32_t, uint32_t, unsigned int);
void *arg;
} T_measure_runtime_request;
#define T_MEASURE_RUNTIME_ALLOW_CLOCK_ISR 0x1
#define T_MEASURE_RUNTIME_REPORT_SAMPLES 0x2
#define T_MEASURE_RUNTIME_DISABLE_FULL_CACHE 0x10
#define T_MEASURE_RUNTIME_DISABLE_HOT_CACHE 0x20
#define T_MEASURE_RUNTIME_DISABLE_DIRTY_CACHE 0x40
#define T_MEASURE_RUNTIME_DISABLE_MINOR_LOAD 0x80
#define T_MEASURE_RUNTIME_DISABLE_MAX_LOAD 0x100
T_measure_runtime_context *T_measure_runtime_create(
const T_measure_runtime_config *);
void T_measure_runtime(T_measure_runtime_context *,
const T_measure_runtime_request *);
/** @} */
#ifdef __cplusplus
}
#endif /* __cplusplus */
#endif /* THE_T_TEST_FRAMEWORK_H */
