0

During the developing of static library I met the necessity to test the library functions. The functions checks are not the problem. The main problem is to test every macro definition that the library provides.

I've started with the code like

/* For non-vital macro (OS/WORDSIZE detections) */
#   if defined(BXI_ARCH_X32)
    printf("        defined : BXI_ARCH_X32\n");
#   endif
#   if defined(BXI_ARCH_X64)
    printf("        defined : BXI_ARCH_X64\n");
#   endif

<...>

/* For vital macro */
#if defined(BXI_OS)
    printf("        defined : BXI_OS  : \"%s\"\n", BXI_OS);
#else
    print_failed();
#endif

#if defined(BXI_BITS)
    printf("        defined : BXI_BITS: %d\n",     BXI_BITS);
#else
    print_failed();
#endif

#if defined(BXI_ARCH)
    printf("        defined : BXI_ARCH: \"%s\"\n", BXI_ARCH);
#else
    print_failed();
#endif

That was cool, but very time-consuming. I wanted a tool that will generate the code for me, or some trick that will allow me to autogenerate the tests via macro like this

TEST_MACRO(BXI_OS)

But, as you know, macro definitions can't generate #if/#else/#endif directives.

I needed a solution that will not only check if the macro defined at runtime, but also print its value to output.

  • 2
    There's a strong element of "you can't check whether a macro exists at runtime". Macros exist only in the early phases of the compilation; they are a pure compile-time artefact. So, your headline question is somewhat misguided. – Jonathan Leffler Nov 26 '17 at 0:07
0

But, as this is Q&A-style article, I've found the solution.

The final result looks as follows:

TEST_BXI_MACRO_STRING(BXI_OS);
TEST_BXI_MACRO_STRING(BXI_ARCH);
TEST_BXI_MACRO_I32   (BXI_BITS);
TEST_BXI_MACRO_EXISTS_WEAK(BXI_ARCH_X32); // _WEAK as we don't need to fail
TEST_BXI_MACRO_EXISTS_WEAK(BXI_ARCH_X64);

The result:
the test result

Let us see every one of them closely

TEST_BXI_MACRO_STRING

This one is pretty simple:

#define TEST_BXI_MACRO_STRING(name)              \
do                                               \
{                                                \
    print_macro_name(#name);                     \
    if (!TEST_BXI_MACRO_DEFINED(#name, name(1))) \
        print_macro_undefined_exit();            \
    if (strlen(name "") == 0)                    \
        print_macro_undefined_exit();            \
    print_macro_value_string(name "");           \
}                                                \
while (0)

We just using the idea that C allows const strings auto-concatenation. So when the macro exists we will receive

 #define MACRO "Content"
 "Content" "" = "Content"

and when it doesn't

 "" = ""

Then we look at the length of the resulting string, and when it's 0 - bingo, macro is not defined. This will NOT work for "" macro, but this special case could be checked with TEST_BXI_MACRO_EXISTS

TEST_BXI_MACRO_I32

#define TEST_BXI_MACRO_I32(name)                 \
do                                               \
{                                                \
    print_macro_name(#name);                     \
    if (!TEST_BXI_MACRO_DEFINED(#name, name(1))) \
        print_macro_undefined_exit();            \
    if ((5 * name + 1) == 5)                     \
         print_macro_undefined_exit();           \
    print_macro_value_signed(name + 0);          \
}                                                \
while (0)

NOTE: you can similarly create ...MACRO_U32 version just by replacing the printer formatter.

Here we use the fact that '+' operator could be unary AND binary. Let us simulate three cases:

#define MACRO (10)

In this case the complete formula will look as follows:

5 * 10 + 1 => 50 + 1 => 51

#define MACRO (0)

In this case the multiplication fades out:

5 * 0 + 1 => 0 + 1 => 1

In some cases you can use this for additional check if the defined macro is 0 (like for preprocessing options and stuff)

#define MACRO

This case shows some math magic:

5 *    + 1 => 5 * (+1) => 5 * 1 => 5

As +1 is interpreted as simple 1 we receive 5.

TEST_BXI_MACRO_EXISTS

#define TEST_BXI_MACRO_DEFINED_I(strstr, fnc) (strcmp(#fnc, strstr "(1)"))
#define TEST_BXI_MACRO_DEFINED(str, fnc) TEST_BXI_MACRO_DEFINED_I(str, fnc)

#define TEST_BXI_MACRO_EXISTS(name)              \
do                                               \
{                                                \
    print_macro_name(#name);                     \
    if (!TEST_BXI_MACRO_DEFINED(#name, name(1))) \
        print_macro_undefined_exit();            \
    else                                         \
        print_macro_defined();                   \
}                                                \
while (0)

This implementation uses the fact that the string value of macro should not expand same as its name (as #define A A is useles)

Additional functions

For those who want the printing functions, here they are:

void print_macro_name(const char * name)
{
    printf("        checking: %-20s: ", name);
}

void print_macro_undefined_exit(void)
{
    printf("\033[1;31mUNDEFINED\033[0m\n");
    exit(1);
}

void print_macro_defined(void)
{
    printf("\033[1;33mDEFINED\033[0m\n");
}

void print_macro_undefined(void)
{
    printf("\033[1;32mUNDEFINED\033[0m\n");
}

void print_macro_value_string(const char * value)
{
    printf("\"%s\"\n", value);
}

void print_macro_value_signed(i32 value)
{
    printf("%d\n", value);
}

void print_macro_value_unsigned(u32 value)
{
    printf("%u\n", value);
}
  • I don't get it. Your "tools" are not doing what the defined operator in conditional directives is testing for. Your "empty expansion" trick in TEST_BXI_MACRO_I32, for example, is meaningless; if FOO is not defined as a macro, TEST_BXI_MACRO_I32(FOO) will not expand name as blanks; it will expand it as FOO. I.e., you don't get if ((5 * + 1) == 5); you get if ((5 * FOO + 1) == 5). – H Walters Nov 25 '17 at 23:08
  • The tools I provided are concept, you can check if the macro is defined via TEST_BXI_MACRO_EXISTS and then check it's content via TEST_BXI_MACRO_I32/STRING. Just add ` if (!TEST_BXI_MACRO_DEFINED(x TEST_BXI_END)) \ print_macro_undefined_exit(); ` in *_I32 macro – Alex Tiger Nov 25 '17 at 23:22
  • Well, I'm having problems connecting what you put into the question to TEST_BXI_MACRO_I32. The very mention of the ((5 * + 1)) == 5) trick suggests that possibly a macro is defined as a number, but possibly defined to expand to nothing (either with no replacement list or indirectly). I don't see that as being an analog to anything in the question, which mentions only #if defined/#endif and #if defined/#else/#endif's. It looks like you're describing a solution to a problem you didn't add to the question. – H Walters Nov 25 '17 at 23:47
  • I'll add the info to the question. – Alex Tiger Nov 25 '17 at 23:51
  • Outside of that, TEST_BXI_MACRO_EXISTS will not work if you expect a macro to potentially be a string literal; suppose, for example, #define FOO "x". Then this macro causes an invocation of TEST_BXI_MACRO_DEFINED("x" TEST_BXI_END). That will attempt TEST_BXI_TUPLE_SECOND(TEST_BXI_PREFIX_ ## "x" TEST_BXI_END). And this is UB, because TEST_BXI_PREFIX_ cannot be pasted to a string literal to form a single valid preprocessor token. (Similarly, there's a constraint that your "integer" macros must be flat integers; they won't work if #define FOO (3)). – H Walters Nov 25 '17 at 23:56

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

Not the answer you're looking for? Browse other questions tagged or ask your own question.