Before getting started, make sure you wrote a decent amount of C and (mostly) aware of what you’re doing.
Ask around, perhaps someone already made the port.
Consider writing a native program (or library) from scratch before approaching a port.
Do NOT port anything for the sake of “porting” alone.
It might be the easiest to install and use npe.
But, for a complete DIY, in case you REALLY want it, there is
helpmeport
script. It tries to generate the appopriate headers and a mkfile
:
cd coollib
# sometimes, the source files are located in `src` subdir
# if it's in the current directory, just specify `.` instead
rm -rf mkfile src/plan9 # remove old stuff
helpmeport src | rc
# now there is `src/plan9` directory and `mkfile`
# `mkfile` needs manual adjustments: open it and search for "FIXME"
# make your choices (name of the library/program, etc)
# clean up headers and sources, some of them might be platform-specific
B mkfile
# now try to build. there is 99% it won't work the first time
mk
Depending on the result of the build, some changes of the source code might be required.
The script will provide __plan9__
and eg __amd64__
definitions to
be used throughout, in case needed.
Note that helpmeport
is unsupported.
Before trying to run anything, check the pragmas.
g pragma
#pragma pack(push)
and #pragma pack(pop)
have to be replaced with
#pragma pack on
and #pragma pack off
.
#pragma once
isn’t supported either and, unless the project builds
fine, the header’s contents with the pragma have to be enclosed in:
#ifndef _header_name_h_
#define _header_name_h_
....
#endif
For a more or less automated processing you could use a script:
``
fn pragma_once {
h=_^
“{echo $1 | sed ’s,./,,g;s/..//g' | tr -d ‘
’}^h
sed ’s/#pragma once/#ifndef ‘^$h^’\n#define ‘^$h^’/g' $1 && echo && echo ‘#endif’
}
for(f in src/.h src//*.h){ grep -s ‘^#pragma[ ]+once’ $f && { pragma_once $f >$f.p mv $f.p $f } } ```
If the function defined in the project, and has no arguments, make
sure it’s declared as (void)
instead of ()
.
alloca
allocates memory on stack, so that freeing isn’t required.
Plan 9 does not have that. It has to be replaced with malloc
.
free
call HAS to be added, before leaving the function, or else you
WILL have memory leaks.
Grep /sys/include
to see if it’s already defined in APE:
g UCHAR_MAX /sys/include/ape
In most of the cases, you can just add it to src/plan9/plan9.h
. Be
careful if the size depends on the CPU you’re targetting.
You could copy it from APE (/sys/src/ape
) or just roll out your own.
By default, Plan 9 has various exceptions enabled. Try
setfcr(getfcr() & ~(FPINVAL|FPOVFL))
in main
function before
running any of the ported logic.
This is probably caused by the compiler getting confused with forward declarations of certain types. One object file seems to have one type, the other object file has a slightly different type with the same name. Your best bet is to check the functions that error report is about. One thing that has been found to help with cases like this (in case you’re sure the types are correct):
#ifdef __plan9__
#pragma incomplete struct my_cool_struct
#endif
placed after the type declaration. It will tell the compiler not to bother too much.
Your program builds fine, runs fine, doesn’t crash, but produces
incorrect result. Chances are, you missed a #pragma pack ...
, or
perhaps there is a comparison between shorter (one or two-byte) types
of different signedness. That produces different result in Plan 9 C
compiler.
wchar_t
. No.int128_t
. Just give up.pthread_*
. Best is to give up. If you really know what you’re doing, take a look at these ones.