Once you've actually found the right syntax that makes the assembler just use
the default call type of the current memory model for both procedures (where
it's just "PROC" without anything else) and labels (where it's "LABEL PROC"),
these constants become completely unneccessary, even with TASM.
Having thought this over for a while, I've decided to stay with the "include
slice" model for now, due to various bugs and other reasons.
We need to compile for the 386 CPU, but this causes TASM to automatically
default every segment to 32-bit mode, which of course is not what we want (and
no, .MODEL USE16 sadly does not help either). Appending USE16 to every segment
declaration in all included files seems to work, but for some reason, this
messes up certain jump instructions. WTF? And even if it did work, we would
still have to do this for every single file we include.
The alternative would be to build proper libraries and let the linker merge
all the code. This would add a lot of unwarranted complexity to the build
process. Not to mention all the EXTERN statements we'd have to maintain.
Ultimately, all of the C runtime ASM code is going to vanish anyway once we've
completed the reduction step. Once we're there, we can simply link to the
original version of the library. These initial dumps are not pretty, and I see
no point in wasting time on making intermediary stages of development look
pretty.
Since including RULES.ASI from every slice seems a bit inefficient (and even
potentiall harmful, considering the age of the development tools we have to
work with), we'll only include it once at the top of every main dump file.
[Binary change] Relocations in TH01's REIIDEN.EXE, again.
Wow, what a slice. Lots of code, and it comes with its own data declarations
inside the code segment! Since all these functions were originally contained
in one code file, it makes sense to do all 13 in one commit. This removes all
erroneous references to the 'NULL CHECK' string.
[Binary change] This also changes some relocations in TH01's REIIDEN.EXE.