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// Random Notes
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Extensions:
* "#define_target X Y"
This preprocessor directive works exactly the same was as #define, but it
notes that 'X' is a target-specific preprocessor directive. When used, a
diagnostic is emitted indicating that the translation unit is non-portable.
If a target-define is #undef'd before use, no diagnostic is emitted. If 'X'
were previously a normal #define macro, the macro is tainted. If 'X' is
subsequently #defined as a non-target-specific define, the taint bit is
cleared.
* "#define_other_target X"
The preprocessor directive takes a single identifier argument. It notes
that this identifier is a target-specific #define for some target other than
the current one. Use of this identifier will result in a diagnostic.
If 'X' is later #undef'd or #define'd, the taint bit is cleared. If 'X' is
already defined, X is marked as a target-specific define.
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To time GCC preprocessing speed without output, use:
This is similar to -Eonly.
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Interesting fact:
clang -Eonly INPUTS/carbon-header-C-E.c
wc -w INPUTS/carbon-header-C-E.c
!!
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The 'portability' model in clang is sufficient to catch translation units (or
their parts) that are not portable, but it doesn't help if the system headers
are non-portable and not fixed. An alternative model that would be easy to use
is a 'tainting' scheme. Consider:
inline int foo() {
#ifdef __i386__
return 1;
#else
return 2;
#endif
}
It would be trivial to mark 'foo' as being non-portable (tainted) instead of
marking the entire translation unit. Then, if foo is never called/used by the
current translation unit, the t-u wouldn't be marked non-portable. However,
there is no good way to handle stuff like:
extern int X, Y;
#ifndef __POWERPC__
#define X Y
#endif
int bar() { return X; }
When compiling for powerpc, the #define is skipped, so it doesn't know that bar
uses a #define that is set on some other target. In practice, limited cases
could be handled by scanning the skipped region of a #if, but the fully general
case cannot be implemented efficiently.
We probably have to do something like this in the future. The C++ header
<limits> contains a lot of code like this:
static const int digits10 = __LDBL_DIG__;
static const int min_exponent = __LDBL_MIN_EXP__;
static const int min_exponent10 = __LDBL_MIN_10_EXP__;
static const float_denorm_style has_denorm
= bool(__LDBL_DENORM_MIN__) ? denorm_present : denorm_absent;
... since this isn't being used in an #ifdef, it should be easy enough to taint
the decl for these ivars.
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