/* SPDX-License-Identifier: BSD-2-Clause */
/**
* @file
*
* @ingroup RtemsBasedefsValBasedefs
*/
/*
* Copyright (C) 2020, 2021 embedded brains GmbH & Co. KG
*
* 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.
*/
/*
* This file is part of the RTEMS quality process and was automatically
* generated. If you find something that needs to be fixed or
* worded better please post a report or patch to an RTEMS mailing list
* or raise a bug report:
*
* https://www.rtems.org/bugs.html
*
* For information on updating and regenerating please refer to the How-To
* section in the Software Requirements Engineering chapter of the
* RTEMS Software Engineering manual. The manual is provided as a part of
* a release. For development sources please refer to the online
* documentation at:
*
* https://docs.rtems.org
*/
#ifdef HAVE_CONFIG_H
#include "config.h"
#endif
#include <rtems.h>
#include "tc-basedefs-pendant.h"
#include <rtems/test.h>
/**
* @defgroup RtemsBasedefsValBasedefs spec:/rtems/basedefs/val/basedefs
*
* @ingroup TestsuitesValidationNoClock0
*
* @brief Tests the basedefs macros of the Classic API.
*
* This test case performs the following actions:
*
* - Use the RTEMS_ALIAS() macro.
*
* - Check that ori_func() and alias_func() are the same function.
*
* - Use the RTEMS_ALIGN_DOWN() macro in various examples.
*
* - Check that RTEMS_ALIGN_DOWN() calculates the expected result and is
* side-effect free.
*
* - Use the RTEMS_ALIGN_UP() macro in various examples.
*
* - Check that RTEMS_ALIGN_UP() calculates the expected result and is
* side-effect free.
*
* - Use the RTEMS_ALIGNED() macro.
*
* - Check that RTEMS_ALIGNED() correctly aligns a variable on the stack and
* a structure member.
*
* - Use the RTEMS_ALIGNOF() macro.
*
* - Check that the RTEMS_ALIGNOF() macro results in the alignment of the
* type.
*
* - If the RTEMS_ALIGNOF() macro would evaluate its argument, it could not
* figure out how much menory to reserve for it.
*
* - If the RTEMS_ALIGNOF() macro would evaluate the size expression, the
* division by zero would cause an error.
*
* - Ensure the constant value of the RTEMS_ALIGNOF() macro is of type
* size_t.
*
* - Use a function declared with the RTEMS_ALLOC_ALIGN() macro.
*
* - It cannot be checked that the RTEMS_ALLOC_ALIGN() macro has the desired
* effect. Yet, the check confirms that such a macro exists and that it can
* be used on such a memory function and that the argument counting starts
* at 1.
*
* - Use a function declared with the RTEMS_ALLOC_SIZE() macro.
*
* - It cannot be checked that the RTEMS_ALLOC_SIZE() macro has the desired
* effect. Yet, the check confirms that such a macro exists and that it can
* be used on such a memory function and that the argument counting starts
* at 1.
*
* - Use a function declared with the RTEMS_ALLOC_SIZE_2() macro.
*
* - It cannot be checked that the RTEMS_ALLOC_SIZE_2() macro has the desired
* effect. Yet, the check confirms that such a macro exists and that it can
* be used on such a memory function and that the argument counting starts
* at 1.
*
* - Use the RTEMS_ARRAY_SIZE() macro.
*
* - Check that the calculated size of the arrays fit their definition.
*
* - Use the RTEMS_COMPILER_DEPRECATED_ATTRIBUTE macro.
*
* - It cannot automatically be checked that the
* RTEMS_COMPILER_DEPRECATED_ATTRIBUTE macro has the desired effect. The
* gcc compiler should issue a warning about the use of a deprecated
* variable on the above line where the ``compiler_deprecated_attribute``
* is used.
*
* - Use the RTEMS_COMPILER_MEMORY_BARRIER() macro.
*
* - It cannot be checked that the RTEMS_COMPILER_MEMORY_BARRIER() macro has
* the desired effect. It is only checked that such a macro exists.
*
* - Use of the RTEMS_COMPILER_NO_RETURN_ATTRIBUTE macro at the beginning of
* this file.
*
* - It cannot be checked that the RTEMS_COMPILER_NO_RETURN_ATTRIBUTE macro
* has the desired effect. It is only checked that such a macro exists.
*
* - Use the RTEMS_COMPILER_PACKED_ATTRIBUTE macro.
*
* - Check that RTEMS_COMPILER_PACKED_ATTRIBUTE correctly aligns a structure
* member.
*
* - Use the RTEMS_COMPILER_PURE_ATTRIBUTE macro at the beginning of this file.
*
* - It cannot be checked that the RTEMS_COMPILER_PURE_ATTRIBUTE macro has
* the desired effect. It is checked that such a macro exists.
*
* - Use the RTEMS_COMPILER_UNUSED_ATTRIBUTE macro.
*
* - It cannot automatically be checked that the
* RTEMS_COMPILER_UNUSED_ATTRIBUTE macro has the desired effect. It is
* checked that such a macro exists and one can manually check that no
* compiler warnings are produced for the compiler_unused_attribute_var.
*
* - Invoke the RTEMS_CONCAT() macro on examples.
*
* - Check that the two arguments of RTEMS_CONCAT() are concatenated to a new
* token.
*
* - Check that the result of the RTEMS_CONCAT() expansion is subject to a
* further pre-processor substitution.
*
* - Use the RTEMS_CONST macro at the beginning of this file.
*
* - It cannot be checked that the RTEMS_CONST macro has the desired effect.
* It is checked that such a macro exists.
*
* - Use the RTEMS_CONTAINER_OF() macro.
*
* - Check that the RTEMS_CONTAINER_OF() macro evaluates to a pointer to
* container_of_struct_var.
*
* - Use the RTEMS_DECLARE_GLOBAL_SYMBOL() macro in the file
* tc-basedefs-pendant.h.
*
* - Check that the RTEMS_DECLARE_GLOBAL_SYMBOL() macro declares a global
* symbol which can be accessed by function basedefs_get_global_symbol()
* which is defined in a file different from the file in which the gobal
* symbol is defined.
*
* - Use the RTEMS_DECONST() macro.
*
* - Check that the RTEMS_DECONST() macro returns a pointer which allows to
* write into an otherwise const value.
*
* - Use the RTEMS_DEFINE_GLOBAL_SYMBOL() macro at the beginning of this file.
*
* - Check that the RTEMS_DEFINE_GLOBAL_SYMBOL() macro defines a global
* symbol with the correct value.
*
* - Use a function declared with the RTEMS_DEPRECATED macro.
*
* - It cannot automatically be checked that the RTEMS_DEPRECATED macro has
* the desired effect. The gcc compiler should issue a warning about the
* use of a deprecated function on the above line where the
* ``deprecated_func`` is used.
*
* - Use the RTEMS_DEQUALIFY_DEPTHX() macro.
*
* - Check that the RTEMS_DEQUALIFY_DEPTHX() macro returns a pointer which
* allows to write into an otherwise const (volatile) value.
*
* - Use the RTEMS_DEQUALIFY() macro.
*
* - Check that the RTEMS_DEQUALIFY() macro returns a pointer which allows to
* write into an otherwise const volatile value.
*
* - Use the RTEMS_DEVOLATILE() macro.
*
* - Check that the RTEMS_DEVOLATILE() macro returns a pointer which allows
* to write into an otherwise volatile value.
*
* - Invoke the RTEMS_EXPAND() macro on an example.
*
* - Check that the argument of RTEMS_EXPAND() is expanded and returned.
*
* - Invoke the FALSE macro on an example.
*
* - Check that of FALSE is substituted by 0.
*
* - Invoke the RTEMS_HAVE_MEMBER_SAME_TYPE() macro on examples.
*
* - Check that of RTEMS_HAVE_MEMBER_SAME_TYPE() returns 0 and 1 depending on
* whether these types are compatible.
*
* - Use the RTEMS_INLINE_ROUTINE in the definition of function
* inline_routine_func() at the beginning of this file. Obtain the text the
* macro RTEMS_INLINE_ROUTINE produces.
*
* - Check that the RTEMS_INLINE_ROUTINE exists and that it produces the
* desired text.
*
* - Use a function declared with the RTEMS_MALLOCLIKE macro.
*
* - It cannot be checked that the RTEMS_MALLOCLIKE macro has the desired
* effect. Yet, the check confirms that such a macro exists and that it can
* be used on such a memory function and that it produces the correct code.
*
* - Use a function declared with the RTEMS_NO_INLINE macro.
*
* - It cannot be checked that the RTEMS_NO_INLINE macro has the desired
* effect. Yet, the check confirms that such a macro exists and that it can
* be used on such a function and that it produces the correct code.
*
* - Use of the RTEMS_NO_RETURN macro at the beginning of this file.
*
* - It cannot be checked that the RTEMS_NO_RETURN macro has the desired
* effect. It is only checked that such a macro exists.
*
* - Use the RTEMS_NOINIT macro on ``noinit_variable`` at the beginning of this
* file.
*
* - It cannot be checked that the RTEMS_NOINIT macro has the desired effect.
* Yet, the check confirms that such a macro exists and can be used.
*
* - Use the RTEMS_OBFUSCATE_VARIABLE() macro.
*
* - It cannot be checked that the RTEMS_OBFUSCATE_VARIABLE() macro has the
* desired effect. Yet, the check confirms that such a macro exists and can
* be used.
*
* - Use the RTEMS_PACKED macro.
*
* - Check that RTEMS_PACKED correctly aligns a structure member.
*
* - Check that RTEMS_PACKED correctly aligns all structure members.
*
* - Check that RTEMS_PACKED correctly enforces a minimal enum type.
*
* - Use the RTEMS_PREDICT_FALSE() macro.
*
* - It cannot be checked that the RTEMS_PREDICT_FALSE() macro has the
* desired effect. Yet, the check confirms that such a macro exists and can
* be used.
*
* - Use the RTEMS_PREDICT_TRUE() macro.
*
* - It cannot be checked that the RTEMS_PREDICT_TRUE() macro has the desired
* effect. Yet, the check confirms that such a macro exists and can be
* used.
*
* - Use a function declared with the RTEMS_PRINTFLIKE() macro.
*
* - It cannot automatically be checked that the RTEMS_PRINTFLIKE() macro has
* the desired effect. Yet, the check confirms that such a macro exists and
* that it can be used on such a printf-like function and that the argument
* numbers are correct.
*
* - Use the RTEMS_PURE macro at the beginning of this file.
*
* - It cannot be checked that the RTEMS_PURE macro has the desired effect.
* It is checked that such a macro exists.
*
* - Get the code the RTEMS_RETURN_ADDRESS() macro produces as string.
*
* - The check confirms that a RTEMS_RETURN_ADDRESS() macro exists and that
* it produces the correct code.
*
* - Use the RTEMS_SECTION() macro on ``section_variable`` and ``section_func``
* at the beginning of this file.
*
* - It cannot be checked that the RTEMS_SECTION() macro has the desired
* effect. Yet, the check confirms that such a macro exists and can be
* used.
*
* - Evaluate if RTEMS_STATIC_ANALYSIS is defined.
*
* - Check that RTEMS_STATIC_ANALYSIS was not defined.
*
* - Use the RTEMS_STATIC_ASSERT() macro.
*
* - It cannot be automatically check that the RTEMS_STATIC_ASSERT() macro
* has the desired effect. Yet, it can be checked that the macro exists and
* accepts the specified arguments.
*
* - Use the RTEMS_STRING() macro.
*
* - Check that the RTEMS_STRING() macro converts its arguments into a single
* string without applying pre-processor substitutions on its arguments.
*
* - Use the RTEMS_SYMBOL_NAME() macro with an example object.
*
* - Check that the RTEMS_SYMBOL_NAME() macro expands to the expected symbol
* name.
*
* - Invoke the TRUE macro on an example.
*
* - Check that of TRUE is substituted by 0.
*
* - Use of the RTEMS_TYPEOF_REFX() macro on several examples. This use is
* already the test as the statements will not compile without error if the
* macro did not evaluate to the correct type.
*
* - The checks here are proforma. The macro is tested by the fact that the
* action will not compile if the macro returns a wrong result.
*
* - Use the RTEMS_UNUSED macro. See also unused_func() at the beginning of
* this file.
*
* - It cannot automatically be checked that the RTEMS_UNUSED macro has the
* desired effect. It is checked that such a macro exists and one can
* manually check that no compiler warnings are produced for the
* unused_func().
*
* - It cannot automatically be checked that the RTEMS_UNUSED macro has the
* desired effect. It is checked that such a macro exists and one can
* manually check that no compiler warnings are produced for the
* unused_lable.
*
* - It cannot automatically be checked that the RTEMS_UNUSED macro has the
* desired effect. It is checked that such a macro exists and one can
* manually check that no compiler warnings are produced for the
* unused_struct.
*
* - It cannot automatically be checked that the RTEMS_UNUSED macro has the
* desired effect. It is checked that such a macro exists and one can
* manually check that no compiler warnings are produced for the unused
* items unused_var and the unused argument and variable in unused_func().
*
* - Use of the RTEMS_UNREACHABLE() macro in function definition of
* unreachable_func() at the beginning of this file.
*
* - It cannot be checked that the RTEMS_UNREACHABLE() macro has the desired
* effect. It is checked that such a macro exists and the compiler warning
* about the missing return statement is suppressed.
*
* - Use of the RTEMS_USED macro in function definition of used_func() at the
* beginning of this file and with used_var above.
*
* - It cannot be checked that the RTEMS_USED macro has the desired effect.
* It is checked that such a macro exists.
*
* - Use of the RTEMS_WARN_UNUSED_RESULT macro in function definition of
* warn_unused_func() at the beginning of this file.
*
* - It cannot be checked that the RTEMS_WARN_UNUSED_RESULT macro has the
* desired effect. The GNU C compiler should issue a warning about the
* disregarded result returned by the call to the ``warn_unused_func()``
* function.
*
* - Use of ``basedefs_weak_alias_0/1_func()`` which are defined with the
* RTEMS_WEAK_ALIAS() macro at the beginning of this file.
*
* - There exists no strong alias for basedefs_weak_alias_0_func(). Check
* that ori_func() and basedefs_weak_alias_0_func() are the same function.
*
* - File ``tc_basedefs_pndant.c`` defines a strong function for
* basedefs_weak_alias_1_func(). Check that ori_func() and
* basedefs_weak_alias_1_func() are not the same function.
*
* - Use of ``basedefs_weak_0/1_var`` and ``basedefs_weak_0/1_func()`` which
* are defined with the RTEMS_WEAK macro at the beginning of this file.
*
* - For ``basedefs_weak_0_var`` and ``basedefs_weak_0_func()`` there exists
* no other symbols with the same name. Hence, the checks test that the
* weak symbols are used.
*
* - ``basedefs_weak_1_var`` and ``basedefs_weak_1_func()`` are overwritten
* by strong symbols defined in file ``tc_basedefs_pendant.c``. Hence, the
* checks test that the strong variants are used.
*
* - Invoke the RTEMS_XCONCAT() macro on examples.
*
* - Check that the two arguments of RTEMS_XCONCAT() are concatenated without
* inserting new characters.
*
* - Check that the two arguments of RTEMS_XCONCAT() are substituted before
* they are concatenated.
*
* - Check that the two arguments of RTEMS_XCONCAT() are can be the macro
* itself.
*
* - Check that the result of the RTEMS_XCONCAT() expansion is subject to a
* further pre-processor substitution.
*
* - Use the RTEMS_XSTRING() macro.
*
* - Check that the RTEMS_XSTRING() macro applies pre-processor substitutions
* on its arguments and converts its arguments into a single string.
*
* - Use of the RTEMS_ZERO_LENGTH_ARRAY macro in a declaration of a structure.
*
* - Checked that the RTEMS_ZERO_LENGTH_ARRAY macro produces a structure
* similar to a structure with one element.
*
* - Use the RTEMS_DEFINE_GLOBAL_SYMBOL() macro at the beginning of this file
* and assign the address of the symbol to an object.
*
* - Check that the RTEMS_DEFINE_GLOBAL_SYMBOL() macro defines a global
* symbol with the correct value.
*
* @{
*/
#define WHITE_SPACE_STRING_MAX_LENGTH 80
#define abccat concat
#define abc ABC
#define CON con
#define CAT cat
#define defcat concat
#define GLOBAL_SYMBOL_VALULE( _hex ) 0x ## _hex
#define EXPAND expand
#define PREDICT_FALSE 1 -
#define SECTION_NAME ".rtemsroset.test"
#define STATIC_ASSERT_COND 0 +
#define STRING_PREFIX str
#define SYMBOL_NAME global_object
#define _TO_STR2( _text ) #_text
#define _TO_STR( _text ) _TO_STR2( _text )
int global_object;
extern int address_of_global_object;
__asm__(
"\n\t.set " RTEMS_XSTRING( RTEMS_SYMBOL_NAME( address_of_global_object ) )
", " RTEMS_XSTRING( RTEMS_SYMBOL_NAME( SYMBOL_NAME ) ) "\n"
);
/*
* For some reasons - which I fail to fully understand - _TO_STR()
* seems to remove spaces around `()` at times and at other times
* not. For example, I get
*
* * "__attribute__(( __malloc__ ))" or
* * "__attribute__((__malloc__))".
*
* To avoid trouble, the function below returns a version of a
* string without any spaces. Albeit, the implementation is rather
* brute and raw. It returns a pointer to a static buffer of fixed
* size. That will do for tests but not serve as generic function.
*/
static const char *remove_white_space( const char *str )
{
char c;
int i = 0;
static char buffer[WHITE_SPACE_STRING_MAX_LENGTH] = {};
/* Sanity check */
if( strlen( str ) >= sizeof( buffer ) ) {
T_assert_true( false,
"Buffer too small; increase WHITE_SPACE_STRING_MAX_LENGTH" );
}
/* Copy string but skip white spaces */
do {
c = *( str++ );
if ( ' ' != c && '\t' !=c ) {
buffer[i++] = c;
}
} while ( '\0' != c );
return buffer;
}
static int alias_func( int i ) RTEMS_ALIAS( ori_func );
typedef struct {
uint8_t c;
uint8_t aligned_member RTEMS_ALIGNED( 8 );
} aligned_member_struct;
static int concat( void )
{
return 91;
}
RTEMS_CONST static int const_func( int arg )
{
return 4 * arg;
}
RTEMS_COMPILER_NO_RETURN_ATTRIBUTE
static void compiler_no_return_attribute_func( int i );
static void compiler_no_return_attribute_func( int i )
{
while ( true ) {
/* Loop forever */
}
}
RTEMS_COMPILER_PURE_ATTRIBUTE static int compiler_pure_attribute_func( void )
{
return 21;
}
static int global_symbol_base;
RTEMS_DEFINE_GLOBAL_SYMBOL(
GLOBAL_SYMBOL,
RTEMS_SYMBOL_NAME( global_symbol_base ) + GLOBAL_SYMBOL_VALULE( abc )
);
RTEMS_DECLARE_GLOBAL_SYMBOL( global_symbol_2 );
RTEMS_DEFINE_GLOBAL_SYMBOL( global_symbol_2, 0x123 );
static const char * const volatile global_symbol_2_object = global_symbol_2;
static int deprecated_func( int i ) RTEMS_DEPRECATED;
static int deprecated_func( int i )
{
return 3 * i;
}
static int expand( void )
{
return 82;
}
RTEMS_INLINE_ROUTINE int inline_routine_func( int arg )
{
return 1 << arg;
}
RTEMS_NO_INLINE static int no_inline_func( void )
{
asm ("");
return 75;
}
RTEMS_NO_RETURN static void no_return_func( int i )
{
while ( true ) {
/* Loop forever */
}
}
RTEMS_NOINIT static uint32_t noinit_variable;
static int ori_func( int x )
{
return 2 * x;
}
RTEMS_PRINTFLIKE(2, 3) static int printflike_func(
const char *prefix,
const char *fmt,
...
)
{
int result;
va_list va_list;
T_printf( "%s: ", prefix );
va_start( va_list, fmt );
result = T_vprintf( fmt, va_list );
va_end( va_list );
return result;
}
RTEMS_PURE static int pure_func( void )
{
return 21;
}
RTEMS_SECTION( ".rtemsrwset.test" ) static int section_var = 28;
RTEMS_SECTION( SECTION_NAME ) static int section_func( int arg )
{
return arg % 100;
}
static int unreachable_func( int arg )
{
if ( 1 == arg % 100 ) {
return arg;
} else {
T_assert_true( false,
"Oops! Function caled with bad argument." );
RTEMS_UNREACHABLE();
}
}
RTEMS_USED static int used_var = 4711;
RTEMS_USED static int used_func( void )
{
return 35;
}
static int warn_unused_func( int arg ) RTEMS_WARN_UNUSED_RESULT;
static int warn_unused_func( int arg )
{
return arg / 3;
}
int basedefs_weak_alias_0_func( int i ) RTEMS_WEAK_ALIAS( ori_func );
int basedefs_weak_alias_1_func( int i ) RTEMS_WEAK_ALIAS( ori_func );
RTEMS_WEAK const volatile int basedefs_weak_0_var = 60;
RTEMS_WEAK const volatile int basedefs_weak_1_var = 61;
RTEMS_WEAK int basedefs_weak_0_func( void )
{
return 63;
}
RTEMS_WEAK int basedefs_weak_1_func( void )
{
return 64;
}
/**
* @brief Use the RTEMS_ALIAS() macro.
*/
static void RtemsBasedefsValBasedefs_Action_0( void )
{
int alias_result;
alias_result = ori_func( 3 ) + alias_func( 5 );
/*
* Check that ori_func() and alias_func() are the same function.
*/
T_step_eq_int( 0, alias_result, 16 );
}
/**
* @brief Use the RTEMS_ALIGN_DOWN() macro in various examples.
*/
static void RtemsBasedefsValBasedefs_Action_1( void )
{
int align_down0_result;
int align_down1_result;
int align_down2_result;
int align_down3_result;
int align_down4_result;
int align_down5_result;
int align_down6_result;
int align_down7_result;
int align_down8_result;
int align_down9_result;
align_down0_result = RTEMS_ALIGN_DOWN( 0, 1 );
align_down1_result = RTEMS_ALIGN_DOWN( 0, 4 );
align_down2_result = RTEMS_ALIGN_DOWN( 1, 2 );
align_down3_result = RTEMS_ALIGN_DOWN( 2, 2 );
align_down4_result = RTEMS_ALIGN_DOWN( 3, 2 );
align_down5_result = RTEMS_ALIGN_DOWN( 4, 2 );
align_down6_result = RTEMS_ALIGN_DOWN( 5, 2 );
align_down7_result = RTEMS_ALIGN_DOWN( 255, 16 );
align_down8_result = RTEMS_ALIGN_DOWN( 256, 16 );
align_down9_result = RTEMS_ALIGN_DOWN( 257, 16 );
/*
* Check that RTEMS_ALIGN_DOWN() calculates the expected result and is
* side-effect free.
*/
T_step_eq_int( 1, align_down0_result, 0 );
T_step_eq_int( 2, align_down1_result, 0 );
T_step_eq_int( 3, align_down2_result, 0 );
T_step_eq_int( 4, align_down3_result, 2 );
T_step_eq_int( 5, align_down4_result, 2 );
T_step_eq_int( 6, align_down5_result, 4 );
T_step_eq_int( 7, align_down6_result, 4 );
T_step_eq_int( 8, align_down7_result, 240 );
T_step_eq_int( 9, align_down8_result, 256 );
T_step_eq_int( 10, align_down9_result, 256 );
}
/**
* @brief Use the RTEMS_ALIGN_UP() macro in various examples.
*/
static void RtemsBasedefsValBasedefs_Action_2( void )
{
int align_up0_result;
int align_up1_result;
int align_up2_result;
int align_up3_result;
int align_up4_result;
int align_up5_result;
int align_up6_result;
int align_up7_result;
int align_up8_result;
int align_up9_result;
align_up0_result = RTEMS_ALIGN_UP( 0, 1 );
align_up1_result = RTEMS_ALIGN_UP( 0, 4 );
align_up2_result = RTEMS_ALIGN_UP( 1, 2 );
align_up3_result = RTEMS_ALIGN_UP( 2, 2 );
align_up4_result = RTEMS_ALIGN_UP( 3, 2 );
align_up5_result = RTEMS_ALIGN_UP( 4, 2 );
align_up6_result = RTEMS_ALIGN_UP( 5, 2 );
align_up7_result = RTEMS_ALIGN_UP( 255, 16 );
align_up8_result = RTEMS_ALIGN_UP( 256, 16 );
align_up9_result = RTEMS_ALIGN_UP( 257, 16 );
/*
* Check that RTEMS_ALIGN_UP() calculates the expected result and is
* side-effect free.
*/
T_step_eq_int( 11, align_up0_result, 0 );
T_step_eq_int( 12, align_up1_result, 0 );
T_step_eq_int( 13, align_up2_result, 2 );
T_step_eq_int( 14, align_up3_result, 2 );
T_step_eq_int( 15, align_up4_result, 4 );
T_step_eq_int( 16, align_up5_result, 4 );
T_step_eq_int( 17, align_up6_result, 6 );
T_step_eq_int( 18, align_up7_result, 256 );
T_step_eq_int( 19, align_up8_result, 256 );
T_step_eq_int( 20, align_up9_result, 272 );
}
/**
* @brief Use the RTEMS_ALIGNED() macro.
*/
static void RtemsBasedefsValBasedefs_Action_3( void )
{
char unaligned_var = 'c';
char aligned_var RTEMS_ALIGNED( 8 ) = 'd';
(void) unaligned_var;
/*
* Check that RTEMS_ALIGNED() correctly aligns a variable on the stack and a
* structure member.
*/
T_step_eq_int( 21, ( ( uintptr_t ) &aligned_var ) % 8, 0 );
T_step_eq_int( 22,
offsetof( aligned_member_struct, aligned_member ) % 8, 0 );
}
/**
* @brief Use the RTEMS_ALIGNOF() macro.
*/
static void RtemsBasedefsValBasedefs_Action_4( void )
{
size_t alignof_char = RTEMS_ALIGNOF( char );
size_t alignof_long = RTEMS_ALIGNOF( long );
size_t alignof_long_array = RTEMS_ALIGNOF( long[3] );
size_t alignof_not_eval_array = RTEMS_ALIGNOF( long[7 / 0] );
/*
* Check that the RTEMS_ALIGNOF() macro results in the alignment of the type.
*/
T_step_eq_sz( 23, alignof_char, 1 );
T_step_eq_sz( 24, alignof_long, alignof_long_array );
/*
* If the RTEMS_ALIGNOF() macro would evaluate its argument, it could not
* figure out how much menory to reserve for it.
*/
T_step_eq_sz( 25, alignof_long, alignof_not_eval_array );
/*
* If the RTEMS_ALIGNOF() macro would evaluate the size expression, the
* division by zero would cause an error.
*/
T_step_eq_sz( 26, alignof_long, alignof_not_eval_array );
/*
* Ensure the constant value of the RTEMS_ALIGNOF() macro is of type size_t.
*/
T_step_true( 27,
__builtin_types_compatible_p( __typeof__( RTEMS_ALIGNOF( char ) ),
size_t ) );
}
/**
* @brief Use a function declared with the RTEMS_ALLOC_ALIGN() macro.
*/
static void RtemsBasedefsValBasedefs_Action_5( void )
{
void *free_ptr;
void *alloc_align_ptr;
alloc_align_ptr = basedefs_alloc_align_func( 1024, &free_ptr, 64 );
basedefs_free( free_ptr );
/*
* It cannot be checked that the RTEMS_ALLOC_ALIGN() macro has the desired
* effect. Yet, the check confirms that such a macro exists and that it can
* be used on such a memory function and that the argument counting starts at
* 1.
*/
T_step_not_null( 28, alloc_align_ptr );
T_step_eq_int( 29, ( ( uintptr_t ) alloc_align_ptr ) % 64, 0 );
T_step_ge_uptr( 30, ( ( uintptr_t ) alloc_align_ptr ),
( ( uintptr_t ) free_ptr ) );
T_step_lt_uptr( 31, ( ( uintptr_t ) alloc_align_ptr ),
( ( uintptr_t ) free_ptr ) + 64 );
}
/**
* @brief Use a function declared with the RTEMS_ALLOC_SIZE() macro.
*/
static void RtemsBasedefsValBasedefs_Action_6( void )
{
void *alloc_size_ptr;
alloc_size_ptr = basedefs_alloc_size_func( 1024 );
basedefs_free( alloc_size_ptr );
/*
* It cannot be checked that the RTEMS_ALLOC_SIZE() macro has the desired
* effect. Yet, the check confirms that such a macro exists and that it can
* be used on such a memory function and that the argument counting starts at
* 1.
*/
T_step_not_null( 32, alloc_size_ptr );
}
/**
* @brief Use a function declared with the RTEMS_ALLOC_SIZE_2() macro.
*/
static void RtemsBasedefsValBasedefs_Action_7( void )
{
void *alloc_size_2_ptr;
alloc_size_2_ptr = basedefs_alloc_size_2_func( 8, 128 );
basedefs_free( alloc_size_2_ptr );
/*
* It cannot be checked that the RTEMS_ALLOC_SIZE_2() macro has the desired
* effect. Yet, the check confirms that such a macro exists and that it can
* be used on such a memory function and that the argument counting starts at
* 1.
*/
T_step_not_null( 33, alloc_size_2_ptr );
}
/**
* @brief Use the RTEMS_ARRAY_SIZE() macro.
*/
static void RtemsBasedefsValBasedefs_Action_8( void )
{
int array[] = { 10, 20, 30, 40, 50 };
unsigned char array2[12];
int array_size = RTEMS_ARRAY_SIZE(array);
int array2_size = RTEMS_ARRAY_SIZE(array2);
/*
* Check that the calculated size of the arrays fit their definition.
*/
T_step_eq_sz( 34, array_size, 5 );
T_step_eq_sz( 35, array2_size, 12 );
}
/**
* @brief Use the RTEMS_COMPILER_DEPRECATED_ATTRIBUTE macro.
*/
static void RtemsBasedefsValBasedefs_Action_9( void )
{
int compiler_deprecated_attribute RTEMS_COMPILER_DEPRECATED_ATTRIBUTE = 42;
/*
* It cannot automatically be checked that the
* RTEMS_COMPILER_DEPRECATED_ATTRIBUTE macro has the desired effect. The gcc
* compiler should issue a warning about the use of a deprecated variable on
* the above line where the ``compiler_deprecated_attribute`` is used.
*/
/*
* Derivation from Coding Style:
* The following code suppresses a compiler warning (instead of fixing
* it).
* Rational: The variable compiler_deprecated_attribute is not really
* deprecated but its purpose is to test the RTEMS_DEPRECATED macro.
* The RTEMS_DEPRECATED macro must result in a compiler warning here.
*/
_Pragma( "GCC diagnostic push" )
_Pragma( "GCC diagnostic ignored \"-Wdeprecated-declarations\"" )
T_step_eq_int( 36, compiler_deprecated_attribute, 42 );
_Pragma( "GCC diagnostic pop" )
}
/**
* @brief Use the RTEMS_COMPILER_MEMORY_BARRIER() macro.
*/
static void RtemsBasedefsValBasedefs_Action_10( void )
{
RTEMS_COMPILER_MEMORY_BARRIER();
/*
* It cannot be checked that the RTEMS_COMPILER_MEMORY_BARRIER() macro has
* the desired effect. It is only checked that such a macro exists.
*/
}
/**
* @brief Use of the RTEMS_COMPILER_NO_RETURN_ATTRIBUTE macro at the beginning
* of this file.
*/
static void RtemsBasedefsValBasedefs_Action_11( void )
{
(void) compiler_no_return_attribute_func;
/*
* It cannot be checked that the RTEMS_COMPILER_NO_RETURN_ATTRIBUTE macro has
* the desired effect. It is only checked that such a macro exists.
*/
}
/**
* @brief Use the RTEMS_COMPILER_PACKED_ATTRIBUTE macro.
*/
static void RtemsBasedefsValBasedefs_Action_12( void )
{
typedef struct {
uint8_t c;
RTEMS_COMPILER_PACKED_ATTRIBUTE uint32_t i;
} compiler_packed_attribute_struct;
int compiler_packed_attribute_offset =
offsetof( compiler_packed_attribute_struct, i );
/*
* Check that RTEMS_COMPILER_PACKED_ATTRIBUTE correctly aligns a structure
* member.
*/
T_step_eq_int( 37, compiler_packed_attribute_offset, 1 );
}
/**
* @brief Use the RTEMS_COMPILER_PURE_ATTRIBUTE macro at the beginning of this
* file.
*/
static void RtemsBasedefsValBasedefs_Action_13( void )
{
int compiler_pure_attribute_result;
int compiler_pure_attribute_result_2;
compiler_pure_attribute_result = compiler_pure_attribute_func();
compiler_pure_attribute_result_2 =
compiler_pure_attribute_func();
/*
* It cannot be checked that the RTEMS_COMPILER_PURE_ATTRIBUTE macro has the
* desired effect. It is checked that such a macro exists.
*/
T_step_eq_int( 38, compiler_pure_attribute_result, 21 );
T_step_eq_int( 39, compiler_pure_attribute_result_2, 21 );
}
/**
* @brief Use the RTEMS_COMPILER_UNUSED_ATTRIBUTE macro.
*/
static void RtemsBasedefsValBasedefs_Action_14( void )
{
int compiler_unused_attribute_var RTEMS_COMPILER_UNUSED_ATTRIBUTE;
/*
* It cannot automatically be checked that the
* RTEMS_COMPILER_UNUSED_ATTRIBUTE macro has the desired effect. It is
* checked that such a macro exists and one can manually check that no
* compiler warnings are produced for the compiler_unused_attribute_var.
*/
}
/**
* @brief Invoke the RTEMS_CONCAT() macro on examples.
*/
static void RtemsBasedefsValBasedefs_Action_15( void )
{
int concat0_result;
int concat1_result;
concat0_result = RTEMS_CONCAT( con, cat )();
concat1_result = RTEMS_CONCAT( abc, cat )();
/*
* Check that the two arguments of RTEMS_CONCAT() are concatenated to a new
* token.
*/
T_step_eq_int( 40, concat0_result, 91 );
/*
* Check that the result of the RTEMS_CONCAT() expansion is subject to a
* further pre-processor substitution.
*/
T_step_eq_int( 41, concat1_result, 91 );
}
/**
* @brief Use the RTEMS_CONST macro at the beginning of this file.
*/
static void RtemsBasedefsValBasedefs_Action_16( void )
{
int const_result;
int const_result_2;
const_result = const_func( 7 );
const_result_2 = const_func( 7 );
/*
* It cannot be checked that the RTEMS_CONST macro has the desired effect. It
* is checked that such a macro exists.
*/
T_step_eq_int( 42, const_result, 28 );
T_step_eq_int( 43, const_result_2, 28 );
}
/**
* @brief Use the RTEMS_CONTAINER_OF() macro.
*/
static void RtemsBasedefsValBasedefs_Action_17( void )
{
typedef struct {
int a;
int b;
} container_of_struct;
container_of_struct container_of_struct_var;
int *container_of_struct_b_adr = &container_of_struct_var.b;
container_of_struct *container_of_struct_adr;
container_of_struct_adr =
RTEMS_CONTAINER_OF( container_of_struct_b_adr, container_of_struct, b );
/*
* Check that the RTEMS_CONTAINER_OF() macro evaluates to a pointer to
* container_of_struct_var.
*/
T_step_eq_ptr( 44,
container_of_struct_adr, &container_of_struct_var );
}
/**
* @brief Use the RTEMS_DECLARE_GLOBAL_SYMBOL() macro in the file
* tc-basedefs-pendant.h.
*/
static void RtemsBasedefsValBasedefs_Action_18( void )
{
/* No action */
/*
* Check that the RTEMS_DECLARE_GLOBAL_SYMBOL() macro declares a global
* symbol which can be accessed by function basedefs_get_global_symbol()
* which is defined in a file different from the file in which the gobal
* symbol is defined.
*/
T_step_eq_uptr(
45,
basedefs_get_global_symbol() - (uintptr_t) &global_symbol_base,
0xabc
);
}
/**
* @brief Use the RTEMS_DECONST() macro.
*/
static void RtemsBasedefsValBasedefs_Action_19( void )
{
const int deconst_array[] = { 52, 55 };
int *deconst_pointer;
deconst_pointer = RTEMS_DECONST( int *, deconst_array );
/*
* Check that the RTEMS_DECONST() macro returns a pointer which allows to
* write into an otherwise const value.
*/
T_step_eq_int( 46, deconst_pointer[0], 52 );
T_step_eq_int( 47, deconst_pointer[1], 55 );
deconst_pointer[1] = 13;
T_step_eq_int( 48, deconst_pointer[1], 13 );
}
/**
* @brief Use the RTEMS_DEFINE_GLOBAL_SYMBOL() macro at the beginning of this
* file.
*/
static void RtemsBasedefsValBasedefs_Action_20( void )
{
/* No action */
/*
* Check that the RTEMS_DEFINE_GLOBAL_SYMBOL() macro defines a global symbol
* with the correct value.
*/
T_step_eq_uptr(
49,
(uintptr_t) global_symbol - (uintptr_t) &global_symbol_base,
0xabc
);
}
/**
* @brief Use a function declared with the RTEMS_DEPRECATED macro.
*/
static void RtemsBasedefsValBasedefs_Action_21( void )
{
int deprecated_result;
/*
* Derivation from Coding Style:
* The following code suppresses a compiler warning (instead of fixing it).
* Rational: The function deprecated_func() is not really deprecated
* but its purpose is to test the RTEMS_DEPRECATED macro.
* The RTEMS_DEPRECATED macro must result in a compiler warning here.
*/
_Pragma( "GCC diagnostic push" )
_Pragma( "GCC diagnostic ignored \"-Wdeprecated-declarations\"" )
deprecated_result = deprecated_func( 5 );
_Pragma( "GCC diagnostic pop" )
/*
* It cannot automatically be checked that the RTEMS_DEPRECATED macro has the
* desired effect. The gcc compiler should issue a warning about the use of a
* deprecated function on the above line where the ``deprecated_func`` is
* used.
*/
T_step_eq_int( 50, deprecated_result, 15 );
}
/**
* @brief Use the RTEMS_DEQUALIFY_DEPTHX() macro.
*/
static void RtemsBasedefsValBasedefs_Action_22( void )
{
const volatile int dequalify_depthx_array[] = { 52, 55 };
const char dequalify_depthx_var = 'a';
const char *dequalify_depthx_one_pointer = &dequalify_depthx_var;
const char **dequalify_depthx_two_pointer =
&dequalify_depthx_one_pointer;
int *dequalify_depthx_pointer;
volatile char **dequalify_depthx_twice_pointer;
dequalify_depthx_pointer =
RTEMS_DEQUALIFY_DEPTHX( *, int *, dequalify_depthx_array );
dequalify_depthx_twice_pointer = RTEMS_DEQUALIFY_DEPTHX(
**, volatile char **, dequalify_depthx_two_pointer );
/*
* Check that the RTEMS_DEQUALIFY_DEPTHX() macro returns a pointer which
* allows to write into an otherwise const (volatile) value.
*/
T_step_eq_int( 51, dequalify_depthx_pointer[0], 52 );
T_step_eq_int( 52, dequalify_depthx_pointer[1], 55 );
dequalify_depthx_pointer[0] = 13;
T_step_eq_int( 53, dequalify_depthx_pointer[0], 13 );
T_step_eq_char( 54, **dequalify_depthx_twice_pointer, 'a' );
**dequalify_depthx_twice_pointer = 'Z';
T_step_eq_char( 55, **dequalify_depthx_twice_pointer, 'Z' );
}
/**
* @brief Use the RTEMS_DEQUALIFY() macro.
*/
static void RtemsBasedefsValBasedefs_Action_23( void )
{
const volatile int dequalify_array[] = { 52, 55 };
int *dequalify_pointer;
dequalify_pointer = RTEMS_DECONST( int *, dequalify_array );
/*
* Check that the RTEMS_DEQUALIFY() macro returns a pointer which allows to
* write into an otherwise const volatile value.
*/
T_step_eq_int( 56, dequalify_pointer[0], 52 );
T_step_eq_int( 57, dequalify_pointer[1], 55 );
dequalify_pointer[0] = 13;
T_step_eq_int( 58, dequalify_pointer[0], 13 );
}
/**
* @brief Use the RTEMS_DEVOLATILE() macro.
*/
static void RtemsBasedefsValBasedefs_Action_24( void )
{
volatile int devolatile_array[] = { 52, 55 };
int *devolatile_pointer;
devolatile_pointer = RTEMS_DEVOLATILE( int *, devolatile_array );
/*
* Check that the RTEMS_DEVOLATILE() macro returns a pointer which allows to
* write into an otherwise volatile value.
*/
T_step_eq_int( 59, devolatile_pointer[0], 52 );
T_step_eq_int( 60, devolatile_pointer[1], 55 );
devolatile_pointer[1] = 13;
T_step_eq_int( 61, devolatile_pointer[1], 13 );
}
/**
* @brief Invoke the RTEMS_EXPAND() macro on an example.
*/
static void RtemsBasedefsValBasedefs_Action_25( void )
{
int expand_result;
expand_result = RTEMS_EXPAND( EXPAND )();
/*
* Check that the argument of RTEMS_EXPAND() is expanded and returned.
*/
T_step_eq_int( 62, expand_result, 82 );
}
/**
* @brief Invoke the FALSE macro on an example.
*/
static void RtemsBasedefsValBasedefs_Action_26( void )
{
char *false_result;
false_result = _TO_STR( FALSE );
/*
* Check that of FALSE is substituted by 0.
*/
T_step_eq_str( 63, false_result, "0" );
}
/**
* @brief Invoke the RTEMS_HAVE_MEMBER_SAME_TYPE() macro on examples.
*/
static void RtemsBasedefsValBasedefs_Action_27( void )
{
typedef union {
short s;
int **i;
char *c;
int a[5];
} same_type_union;
typedef struct {
const short u;
short v;
int *w;
char *x;
volatile int y[5];
int z;
} same_type_struct;
int same_type_result_0 = RTEMS_HAVE_MEMBER_SAME_TYPE(
same_type_union, s, same_type_struct, v );
int same_type_result_1 = RTEMS_HAVE_MEMBER_SAME_TYPE(
same_type_union, s, same_type_struct, z );
int same_type_result_2 = RTEMS_HAVE_MEMBER_SAME_TYPE(
same_type_union, i, same_type_struct, w );
int same_type_result_3 = RTEMS_HAVE_MEMBER_SAME_TYPE(
same_type_union, c, same_type_struct, x );
int same_type_result_4 = RTEMS_HAVE_MEMBER_SAME_TYPE(
same_type_union, a, same_type_struct, y );
int same_type_result_5 = RTEMS_HAVE_MEMBER_SAME_TYPE(
same_type_union, s, same_type_union, s );
int same_type_result_6 = RTEMS_HAVE_MEMBER_SAME_TYPE(
same_type_union, i, same_type_union, i );
int same_type_result_7 = RTEMS_HAVE_MEMBER_SAME_TYPE(
same_type_union, s, same_type_struct, y );
int same_type_result_8 = RTEMS_HAVE_MEMBER_SAME_TYPE(
same_type_union, a, same_type_struct, w );
int same_type_result_9 = RTEMS_HAVE_MEMBER_SAME_TYPE(
same_type_union, s, same_type_struct, u );
/*
* Check that of RTEMS_HAVE_MEMBER_SAME_TYPE() returns 0 and 1 depending on
* whether these types are compatible.
*/
T_step_eq_int( 64, same_type_result_0, 1 );
T_step_eq_int( 65, same_type_result_1, 0 );
T_step_eq_int( 66, same_type_result_2, 0 );
T_step_eq_int( 67, same_type_result_3, 1 );
T_step_eq_int( 68, same_type_result_4, 1 );
T_step_eq_int( 69, same_type_result_5, 1 );
T_step_eq_int( 70, same_type_result_6, 1 );
T_step_eq_int( 71, same_type_result_7, 0 );
T_step_eq_int( 72, same_type_result_8, 0 );
T_step_eq_int( 73, same_type_result_9, 1 );
}
/**
* @brief Use the RTEMS_INLINE_ROUTINE in the definition of function
* inline_routine_func() at the beginning of this file. Obtain the text the
* macro RTEMS_INLINE_ROUTINE produces.
*/
static void RtemsBasedefsValBasedefs_Action_28( void )
{
const int inline_routine_step = 74;
int inline_routine_result;
char *inline_routine_text;
inline_routine_result = inline_routine_func( 3 );
inline_routine_text = _TO_STR( RTEMS_INLINE_ROUTINE );
/*
* Check that the RTEMS_INLINE_ROUTINE exists and that it produces the
* desired text.
*/
if( 0 == strcmp( "static inline", inline_routine_text ) ) {
T_step_eq_str( inline_routine_step,
inline_routine_text, "static inline" );
} else {
T_step_eq_str( inline_routine_step,
inline_routine_text, "static __inline__" );
}
T_step_eq_int( 75, inline_routine_result, 8 );
}
/**
* @brief Use a function declared with the RTEMS_MALLOCLIKE macro.
*/
static void RtemsBasedefsValBasedefs_Action_29( void )
{
void *malloclike_ptr;
/*
* If this code is not compiled using GNU C, I still have to run a check
* to avoid trouble with the {step} counter of the checks.
*/
const char *malloclike_text = "__attribute__((__malloc__))";
malloclike_ptr = basedefs_malloclike_func( 102 );
basedefs_free( malloclike_ptr );
#if defined( __GNUC__ )
malloclike_text = remove_white_space( _TO_STR( RTEMS_MALLOCLIKE ) );
#endif
/*
* It cannot be checked that the RTEMS_MALLOCLIKE macro has the desired
* effect. Yet, the check confirms that such a macro exists and that it can
* be used on such a memory function and that it produces the correct code.
*/
T_step_not_null( 76, malloclike_ptr );
T_step_eq_str( 77, malloclike_text, "__attribute__((__malloc__))" );
}
/**
* @brief Use a function declared with the RTEMS_NO_INLINE macro.
*/
static void RtemsBasedefsValBasedefs_Action_30( void )
{
int no_inline_result;
/*
* If this code is not compiled using GNU C, I still have to run a check
* to avoid trouble with the {step} counter of the checks.
*/
const char *no_inline_text = "__attribute__((__noinline__))";
no_inline_result = no_inline_func();
#if defined( __GNUC__ )
no_inline_text = remove_white_space( _TO_STR( RTEMS_NO_INLINE ) );
#endif
/*
* It cannot be checked that the RTEMS_NO_INLINE macro has the desired
* effect. Yet, the check confirms that such a macro exists and that it can
* be used on such a function and that it produces the correct code.
*/
T_step_eq_int( 78, no_inline_result, 75 );
T_step_eq_str( 79, no_inline_text, "__attribute__((__noinline__))" );
}
/**
* @brief Use of the RTEMS_NO_RETURN macro at the beginning of this file.
*/
static void RtemsBasedefsValBasedefs_Action_31( void )
{
(void) no_return_func;
/*
* It cannot be checked that the RTEMS_NO_RETURN macro has the desired
* effect. It is only checked that such a macro exists.
*/
}
/**
* @brief Use the RTEMS_NOINIT macro on ``noinit_variable`` at the beginning of
* this file.
*/
static void RtemsBasedefsValBasedefs_Action_32( void )
{
/* No action */
/*
* It cannot be checked that the RTEMS_NOINIT macro has the desired effect.
* Yet, the check confirms that such a macro exists and can be used.
*/
T_step_not_null( 80, &noinit_variable );
}
/**
* @brief Use the RTEMS_OBFUSCATE_VARIABLE() macro.
*/
static void RtemsBasedefsValBasedefs_Action_33( void )
{
short obfuscate_variable = 66;
RTEMS_OBFUSCATE_VARIABLE( obfuscate_variable );
/*
* It cannot be checked that the RTEMS_OBFUSCATE_VARIABLE() macro has the
* desired effect. Yet, the check confirms that such a macro exists and can
* be used.
*/
T_step_eq_int( 81, obfuscate_variable, 66 );
}
/**
* @brief Use the RTEMS_PACKED macro.
*/
static void RtemsBasedefsValBasedefs_Action_34( void )
{
int packed_offset;
int packed_full_i_offset;
int packed_full_j_offset;
int packed_enum_size;
typedef struct {
uint8_t c;
RTEMS_PACKED uint32_t i;
} packed_struct;
typedef struct RTEMS_PACKED {
uint8_t c;
uint32_t i;
uint32_t j;
} packed_full_struct;
typedef enum RTEMS_PACKED {
red = 1,
green,
yellow,
blue = 255
} packed_enum;
packed_offset = offsetof( packed_struct, i );
packed_full_i_offset = offsetof( packed_full_struct, i );
packed_full_j_offset = offsetof( packed_full_struct, j );
packed_enum_size = sizeof( packed_enum );
/*
* Check that RTEMS_PACKED correctly aligns a structure member.
*/
T_step_eq_int( 82, packed_offset, 1 );
/*
* Check that RTEMS_PACKED correctly aligns all structure members.
*/
T_step_eq_int( 83, packed_full_i_offset, 1 );
T_step_eq_int( 84, packed_full_j_offset, 5 );
/*
* Check that RTEMS_PACKED correctly enforces a minimal enum type.
*/
T_step_eq_int( 85, packed_enum_size, 1 );
}
/**
* @brief Use the RTEMS_PREDICT_FALSE() macro.
*/
static void RtemsBasedefsValBasedefs_Action_35( void )
{
/* No action */
/*
* It cannot be checked that the RTEMS_PREDICT_FALSE() macro has the desired
* effect. Yet, the check confirms that such a macro exists and can be used.
*/
T_step_eq_int( 86, RTEMS_PREDICT_FALSE( PREDICT_FALSE 1 ), 0 );
}
/**
* @brief Use the RTEMS_PREDICT_TRUE() macro.
*/
static void RtemsBasedefsValBasedefs_Action_36( void )
{
/* No action */
/*
* It cannot be checked that the RTEMS_PREDICT_TRUE() macro has the desired
* effect. Yet, the check confirms that such a macro exists and can be used.
*/
T_step_eq_int( 87, RTEMS_PREDICT_TRUE( 6 - 5 ), 1 );
}
/**
* @brief Use a function declared with the RTEMS_PRINTFLIKE() macro.
*/
static void RtemsBasedefsValBasedefs_Action_37( void )
{
int printflike_result;
printflike_result = printflike_func(
"RTEMS_PRINTFLIKE",
"%d %lx %s\n",
123,
0xABCDEFL,
"test output"
);
/*
* It cannot automatically be checked that the RTEMS_PRINTFLIKE() macro has
* the desired effect. Yet, the check confirms that such a macro exists and
* that it can be used on such a printf-like function and that the argument
* numbers are correct.
*/
T_step_eq_int( 88, printflike_result, 23 );
}
/**
* @brief Use the RTEMS_PURE macro at the beginning of this file.
*/
static void RtemsBasedefsValBasedefs_Action_38( void )
{
int pure_result;
int pure_result_2;
pure_result = pure_func();
pure_result_2 = pure_func();
/*
* It cannot be checked that the RTEMS_PURE macro has the desired effect. It
* is checked that such a macro exists.
*/
T_step_eq_int( 89, pure_result, 21 );
T_step_eq_int( 90, pure_result_2, 21 );
}
/**
* @brief Get the code the RTEMS_RETURN_ADDRESS() macro produces as string.
*/
static void RtemsBasedefsValBasedefs_Action_39( void )
{
/*
* If this code is not compiled using GNU C, I still have to run a check
* to avoid trouble with the {step} counter of the checks.
*/
const char *return_address_text = "__builtin_return_address(0)";
#if defined( __GNUC__ )
return_address_text =
remove_white_space( _TO_STR( RTEMS_RETURN_ADDRESS() ) );
#endif
/*
* The check confirms that a RTEMS_RETURN_ADDRESS() macro exists and that it
* produces the correct code.
*/
T_step_eq_str( 91,
return_address_text, "__builtin_return_address(0)" );
}
/**
* @brief Use the RTEMS_SECTION() macro on ``section_variable`` and
* ``section_func`` at the beginning of this file.
*/
static void RtemsBasedefsValBasedefs_Action_40( void )
{
short section_result;
section_result = section_func( 1234567 );
/*
* It cannot be checked that the RTEMS_SECTION() macro has the desired
* effect. Yet, the check confirms that such a macro exists and can be used.
*/
T_step_eq_int( 92, section_var, 28 );
T_step_eq_int( 93, section_result, 67 );
}
/**
* @brief Evaluate if RTEMS_STATIC_ANALYSIS is defined.
*/
static void RtemsBasedefsValBasedefs_Action_41( void )
{
#if defined(RTEMS_STATIC_ANALYSIS)
bool defined = true;
#else
bool defined = false;
#endif
/*
* Check that RTEMS_STATIC_ANALYSIS was not defined.
*/
T_step_false( 94, defined );
}
/**
* @brief Use the RTEMS_STATIC_ASSERT() macro.
*/
static void RtemsBasedefsValBasedefs_Action_42( void )
{
RTEMS_STATIC_ASSERT( STATIC_ASSERT_COND 1, RTEMS_STATIC_ASSERT_test );
/*
* It cannot be automatically check that the RTEMS_STATIC_ASSERT() macro has
* the desired effect. Yet, it can be checked that the macro exists and
* accepts the specified arguments.
*/
}
/**
* @brief Use the RTEMS_STRING() macro.
*/
static void RtemsBasedefsValBasedefs_Action_43( void )
{
const char *string_var;
const char *string_empty_var;
const char *string_multi_args_var;
/* strange spacing and tabs belong to the test */
string_var = RTEMS_STRING( \\ STRING_PREFIX cat""\n );
string_empty_var = RTEMS_STRING();
string_multi_args_var = RTEMS_STRING( STRING_PREFIX, "abc", DEF );
/*
* Check that the RTEMS_STRING() macro converts its arguments into a single
* string without applying pre-processor substitutions on its arguments.
*/
T_step_eq_str( 95, string_var, "\\ STRING_PREFIX cat\"\"\n" );
T_step_eq_str( 96, string_empty_var, "" );
T_step_eq_str( 97, string_multi_args_var,
"STRING_PREFIX, \"abc\", DEF" );
}
/**
* @brief Use the RTEMS_SYMBOL_NAME() macro with an example object.
*/
static void RtemsBasedefsValBasedefs_Action_44( void )
{
/* Nothing to do */
/*
* Check that the RTEMS_SYMBOL_NAME() macro expands to the expected symbol
* name.
*/
T_step_eq_ptr( 98, &global_object, &address_of_global_object );
}
/**
* @brief Invoke the TRUE macro on an example.
*/
static void RtemsBasedefsValBasedefs_Action_45( void )
{
char *true_result;
true_result = _TO_STR( TRUE );
/*
* Check that of TRUE is substituted by 0.
*/
T_step_eq_str( 99, true_result, "1" );
}
/**
* @brief Use of the RTEMS_TYPEOF_REFX() macro on several examples. This use
* is already the test as the statements will not compile without error if
* the macro did not evaluate to the correct type.
*/
static void RtemsBasedefsValBasedefs_Action_46( void )
{
int type_refx_val = 7;
char type_refx_chr = 'c';
char *type_refx_chr_p = &type_refx_chr;
char **type_refx_chr_pp = &type_refx_chr_p;
const short type_refx_const_val = 333;
RTEMS_TYPEOF_REFX( *, int *) type_refx_x_int = 8;
RTEMS_TYPEOF_REFX( **, int **) type_refx_xx_int = 9;
RTEMS_TYPEOF_REFX( ***, int ***) type_refx_xxx_int = 10;
RTEMS_TYPEOF_REFX( **, int ***) type_refx_xxx_int_p = &type_refx_val;
RTEMS_TYPEOF_REFX( **, &type_refx_chr_p) type_refx_ax_char = 'd';
RTEMS_TYPEOF_REFX( *, type_refx_chr_p) type_refx_x_char = 'e';
RTEMS_TYPEOF_REFX( , *type_refx_chr_p) type_refx_char = 'f';
RTEMS_TYPEOF_REFX( *, type_refx_chr_pp[0]) type_refx_xx_char = 'g';
RTEMS_TYPEOF_REFX( *, const short **)
type_refx_xx_const_short_p = &type_refx_const_val;
/*
* The checks here are proforma. The macro is tested by the fact that the
* action will not compile if the macro returns a wrong result.
*/
T_step_eq_int( 100, type_refx_val, 7 );
T_step_eq_int( 101, type_refx_x_int, 8 );
T_step_eq_int( 102, type_refx_xx_int, 9 );
T_step_eq_int( 103, type_refx_xxx_int, 10 );
T_step_eq_int( 104, *type_refx_xxx_int_p, 7 );
T_step_eq_char( 105, type_refx_chr, 'c' );
T_step_eq_char( 106, type_refx_ax_char, 'd' );
T_step_eq_char( 107, type_refx_x_char, 'e' );
T_step_eq_char( 108, type_refx_char, 'f' );
T_step_eq_char( 109, type_refx_xx_char, 'g' );
T_step_eq_short( 110, *type_refx_xx_const_short_p, 333 );
}
/**
* @brief Use the RTEMS_UNUSED macro. See also unused_func() at the beginning
* of this file.
*/
static void RtemsBasedefsValBasedefs_Action_47( void )
{
int unused_var RTEMS_UNUSED;
typedef struct RTEMS_UNUSED {
char c;
int i;
} unused_struct_t;
unused_struct_t unused_struct = { '@', 13 };
/*
* It cannot automatically be checked that the RTEMS_UNUSED macro has the
* desired effect. It is checked that such a macro exists and one can
* manually check that no compiler warnings are produced for the
* unused_func().
*/
/*
* It cannot automatically be checked that the RTEMS_UNUSED macro has the
* desired effect. It is checked that such a macro exists and one can
* manually check that no compiler warnings are produced for the
* unused_lable.
*/
unused_lable:
RTEMS_UNUSED;
/*
* It cannot automatically be checked that the RTEMS_UNUSED macro has the
* desired effect. It is checked that such a macro exists and one can
* manually check that no compiler warnings are produced for the
* unused_struct.
*/
/*
* It cannot automatically be checked that the RTEMS_UNUSED macro has the
* desired effect. It is checked that such a macro exists and one can
* manually check that no compiler warnings are produced for the unused items
* unused_var and the unused argument and variable in unused_func().
*/
}
/**
* @brief Use of the RTEMS_UNREACHABLE() macro in function definition of
* unreachable_func() at the beginning of this file.
*/
static void RtemsBasedefsValBasedefs_Action_48( void )
{
int unreachable_result;
unreachable_result = unreachable_func(2101);
/*
* It cannot be checked that the RTEMS_UNREACHABLE() macro has the desired
* effect. It is checked that such a macro exists and the compiler warning
* about the missing return statement is suppressed.
*/
T_step_eq_int( 111, unreachable_result, 2101 );
}
/**
* @brief Use of the RTEMS_USED macro in function definition of used_func() at
* the beginning of this file and with used_var above.
*/
static void RtemsBasedefsValBasedefs_Action_49( void )
{
/* No action */
/*
* It cannot be checked that the RTEMS_USED macro has the desired effect. It
* is checked that such a macro exists.
*/
}
/**
* @brief Use of the RTEMS_WARN_UNUSED_RESULT macro in function definition of
* warn_unused_func() at the beginning of this file.
*/
static void RtemsBasedefsValBasedefs_Action_50( void )
{
int warn_unused_result;
warn_unused_result = warn_unused_func( 33 );
/*
* Derivation from Coding Style:
* The following code suppresses a compiler warning (instead of fixing
* it).
* Rational: Ignoring the function warn_unused_func() result is not really
* a bug but its purpose is to test the RTEMS_WARN_UNUSED_RESULT macro.
* The RTEMS_WARN_UNUSED_RESULT macro must result in a compiler warning
* here.
*/
_Pragma( "GCC diagnostic push" )
_Pragma( "GCC diagnostic ignored \"-Wunused-result\"" )
warn_unused_func( 66 );
_Pragma( "GCC diagnostic pop" )
/*
* It cannot be checked that the RTEMS_WARN_UNUSED_RESULT macro has the
* desired effect. The GNU C compiler should issue a warning about the
* disregarded result returned by the call to the ``warn_unused_func()``
* function.
*/
T_step_eq_int( 112, warn_unused_result, 11 );
}
/**
* @brief Use of ``basedefs_weak_alias_0/1_func()`` which are defined with the
* RTEMS_WEAK_ALIAS() macro at the beginning of this file.
*/
static void RtemsBasedefsValBasedefs_Action_51( void )
{
int weak_alias_0_result;
int weak_alias_1_result;
weak_alias_0_result = ori_func( 3 ) + basedefs_weak_alias_0_func( 5 );
weak_alias_1_result = ori_func( 3 ) + basedefs_weak_alias_1_func( 5 );
/*
* There exists no strong alias for basedefs_weak_alias_0_func(). Check that
* ori_func() and basedefs_weak_alias_0_func() are the same function.
*/
T_step_eq_int( 113, weak_alias_0_result, 16 );
/*
* File ``tc_basedefs_pndant.c`` defines a strong function for
* basedefs_weak_alias_1_func(). Check that ori_func() and
* basedefs_weak_alias_1_func() are not the same function.
*/
T_step_eq_int( 114, weak_alias_1_result, 56 );
}
/**
* @brief Use of ``basedefs_weak_0/1_var`` and ``basedefs_weak_0/1_func()``
* which are defined with the RTEMS_WEAK macro at the beginning of this file.
*/
static void RtemsBasedefsValBasedefs_Action_52( void )
{
int weak_0_result;
int weak_1_result;
weak_0_result = basedefs_weak_0_func();
weak_1_result = basedefs_weak_1_func();
/*
* For ``basedefs_weak_0_var`` and ``basedefs_weak_0_func()`` there exists no
* other symbols with the same name. Hence, the checks test that the weak
* symbols are used.
*/
T_step_eq_int( 115, basedefs_weak_0_var, 60 );
T_step_eq_int( 116, weak_0_result, 63 );
/*
* ``basedefs_weak_1_var`` and ``basedefs_weak_1_func()`` are overwritten by
* strong symbols defined in file ``tc_basedefs_pendant.c``. Hence, the
* checks test that the strong variants are used.
*/
T_step_eq_int( 117, basedefs_weak_1_var, 62 );
T_step_eq_int( 118, weak_1_result, 65 );
}
/**
* @brief Invoke the RTEMS_XCONCAT() macro on examples.
*/
static void RtemsBasedefsValBasedefs_Action_53( void )
{
int xconcat0_result;
int xconcat1_result;
int xconcat2_result;
int xconcat3_result;
xconcat0_result = RTEMS_XCONCAT( con, cat )();
xconcat1_result = RTEMS_XCONCAT( CON, CAT )();
xconcat2_result =
RTEMS_XCONCAT( RTEMS_XCONCAT( CO, N ), RTEMS_XCONCAT( ca, t ) )();
xconcat3_result = RTEMS_CONCAT( def, cat )();
/*
* Check that the two arguments of RTEMS_XCONCAT() are concatenated without
* inserting new characters.
*/
T_step_eq_int( 119, xconcat0_result, 91 );
/*
* Check that the two arguments of RTEMS_XCONCAT() are substituted before
* they are concatenated.
*/
T_step_eq_int( 120, xconcat1_result, 91 );
/*
* Check that the two arguments of RTEMS_XCONCAT() are can be the macro
* itself.
*/
T_step_eq_int( 121, xconcat2_result, 91 );
/*
* Check that the result of the RTEMS_XCONCAT() expansion is subject to a
* further pre-processor substitution.
*/
T_step_eq_int( 122, xconcat3_result, 91 );
}
/**
* @brief Use the RTEMS_XSTRING() macro.
*/
static void RtemsBasedefsValBasedefs_Action_54( void )
{
const char *xstring_var;
const char *xstring_empty_var;
const char *string_multi_args_var;
/* strange spacing and tabs belong to the test */
xstring_var = RTEMS_XSTRING( \\ STRING_PREFIX cat""\n );
xstring_empty_var = RTEMS_XSTRING();
string_multi_args_var = RTEMS_XSTRING( STRING_PREFIX, abc, "abc", DEF );
/*
* Check that the RTEMS_XSTRING() macro applies pre-processor substitutions
* on its arguments and converts its arguments into a single string.
*/
T_step_eq_str( 123, xstring_var, "\\ str cat\"\"\n" );
T_step_eq_str( 124, xstring_empty_var, "" );
T_step_eq_str( 125, string_multi_args_var,
"str, ABC, \"abc\", DEF" );
}
/**
* @brief Use of the RTEMS_ZERO_LENGTH_ARRAY macro in a declaration of a
* structure.
*/
static void RtemsBasedefsValBasedefs_Action_55( void )
{
typedef struct {
char chr;
int array[RTEMS_ZERO_LENGTH_ARRAY];
} zero_length_struct_0;
typedef struct {
char chr;
int array[1];
} zero_length_struct_1;
/*
* Checked that the RTEMS_ZERO_LENGTH_ARRAY macro produces a structure
* similar to a structure with one element.
*/
T_step_eq_sz( 126, sizeof( zero_length_struct_0 ),
sizeof( zero_length_struct_1 ) - sizeof( int ) );
T_step_eq_sz( 127, offsetof( zero_length_struct_0, chr ),
offsetof( zero_length_struct_1, chr ) );
T_step_eq_sz( 128, offsetof( zero_length_struct_0, array ),
offsetof( zero_length_struct_1, array ) );
}
/**
* @brief Use the RTEMS_DEFINE_GLOBAL_SYMBOL() macro at the beginning of this
* file and assign the address of the symbol to an object.
*/
static void RtemsBasedefsValBasedefs_Action_56( void )
{
/* No action */
/*
* Check that the RTEMS_DEFINE_GLOBAL_SYMBOL() macro defines a global symbol
* with the correct value.
*/
T_step_eq_uptr( 129, (uintptr_t) global_symbol_2_object, 0x123 );
}
/**
* @fn void T_case_body_RtemsBasedefsValBasedefs( void )
*/
T_TEST_CASE( RtemsBasedefsValBasedefs )
{
T_plan( 130 );
RtemsBasedefsValBasedefs_Action_0();
RtemsBasedefsValBasedefs_Action_1();
RtemsBasedefsValBasedefs_Action_2();
RtemsBasedefsValBasedefs_Action_3();
RtemsBasedefsValBasedefs_Action_4();
RtemsBasedefsValBasedefs_Action_5();
RtemsBasedefsValBasedefs_Action_6();
RtemsBasedefsValBasedefs_Action_7();
RtemsBasedefsValBasedefs_Action_8();
RtemsBasedefsValBasedefs_Action_9();
RtemsBasedefsValBasedefs_Action_10();
RtemsBasedefsValBasedefs_Action_11();
RtemsBasedefsValBasedefs_Action_12();
RtemsBasedefsValBasedefs_Action_13();
RtemsBasedefsValBasedefs_Action_14();
RtemsBasedefsValBasedefs_Action_15();
RtemsBasedefsValBasedefs_Action_16();
RtemsBasedefsValBasedefs_Action_17();
RtemsBasedefsValBasedefs_Action_18();
RtemsBasedefsValBasedefs_Action_19();
RtemsBasedefsValBasedefs_Action_20();
RtemsBasedefsValBasedefs_Action_21();
RtemsBasedefsValBasedefs_Action_22();
RtemsBasedefsValBasedefs_Action_23();
RtemsBasedefsValBasedefs_Action_24();
RtemsBasedefsValBasedefs_Action_25();
RtemsBasedefsValBasedefs_Action_26();
RtemsBasedefsValBasedefs_Action_27();
RtemsBasedefsValBasedefs_Action_28();
RtemsBasedefsValBasedefs_Action_29();
RtemsBasedefsValBasedefs_Action_30();
RtemsBasedefsValBasedefs_Action_31();
RtemsBasedefsValBasedefs_Action_32();
RtemsBasedefsValBasedefs_Action_33();
RtemsBasedefsValBasedefs_Action_34();
RtemsBasedefsValBasedefs_Action_35();
RtemsBasedefsValBasedefs_Action_36();
RtemsBasedefsValBasedefs_Action_37();
RtemsBasedefsValBasedefs_Action_38();
RtemsBasedefsValBasedefs_Action_39();
RtemsBasedefsValBasedefs_Action_40();
RtemsBasedefsValBasedefs_Action_41();
RtemsBasedefsValBasedefs_Action_42();
RtemsBasedefsValBasedefs_Action_43();
RtemsBasedefsValBasedefs_Action_44();
RtemsBasedefsValBasedefs_Action_45();
RtemsBasedefsValBasedefs_Action_46();
RtemsBasedefsValBasedefs_Action_47();
RtemsBasedefsValBasedefs_Action_48();
RtemsBasedefsValBasedefs_Action_49();
RtemsBasedefsValBasedefs_Action_50();
RtemsBasedefsValBasedefs_Action_51();
RtemsBasedefsValBasedefs_Action_52();
RtemsBasedefsValBasedefs_Action_53();
RtemsBasedefsValBasedefs_Action_54();
RtemsBasedefsValBasedefs_Action_55();
RtemsBasedefsValBasedefs_Action_56();
}
/** @} */