It is surprising that gcc doesn't support this natively as the code is clearly available in the source within a directory called
soft-fp. It's possible to compile that library manually:
$ svn co svn://gcc.gnu.org/svn/gcc/trunk/libgcc/ libgcc
$ cd libgcc/soft-fp/
$ gcc -c -O2 -msoft-float -m32 -I../config/arm/ -I.. *.c
$ ar -crv libsoft-fp.a *.o
There are a few c files which don't compile due to errors but the majority does compile. After copying
libsoft-fp.a into the directory with our source files they now compile fine with
$ gcc -g -m32 -msoft-float test.c -lsoft-fp -L.
A quick inspection using
$ objdump -D --disassembler-options=intel a.out | less
shows that as expected no x87 floating point instructions are called and the code runs considerably slower as well, by a factor of 8 in my example which uses lots of division.
Note: I would've preferred to compile the soft-float library with
$ gcc -c -O2 -msoft-float -m32 -I../config/i386/ -I.. *.c
but that results in loads of error messages like
adddf3.c: In function '__adddf3':
adddf3.c:46: error: unknown register name 'st(1)' in 'asm'
Seems like the
i386 version is not well maintained as
st(1) points to one of the x87 registers which are obviously not available when using
Strangely or luckily the
arm version compiles fine on an
i386 and seems to work just fine.