I'm using a unit test framework that relies on a REQUIRE
macro for performing assertions.
Simplified, the macro works like this:
#define REQUIRE( expr ) INTERNAL_REQUIRE( expr, "REQUIRE" )
Which is defined similar to this:
#define INTERNAL_REQUIRE( expr, macroName ) \
PerformAssertion( macroName, #expr, expr );
PerformAssertion
's first two parameters are of the type: const char*
. The reason for the second parameter (#expr
) is so the exact expression that was asserted can be logged. This is where the issue lies. The preprocessor expands the expression before it is passed as a const char *
, so it's not the same expression that was originally asserted.
For instance:
REQUIRE( foo != NULL );
Would result in this call:
PerformAssertion( "REQUIRE", "foo != 0", foo != 0 );
As you can see, the expression is partially expanded, e.g. the expression foo != NULL
appears in the log as foo != 0
. The NULL
(which is a macro defined to be 0
) was expanded by the C preprocessor before building the assertions message text. Is there a way I can ignore or bypass the expansion for the message text?
EDIT: Here's the solution, for anyone curious:
#define REQUIRE( expr ) INTERNAL_REQUIRE( expr, #expr, "REQUIRE" )
#define INTERNAL_REQUIRE( expr, exprString, macroName ) \
PerformAssertion( macroName, exprString, expr );
INTERNAL_REQUIRE(expr, #expr, "REQUIRE")
instead of the two-argument form?