I have a data-conversion function in our ARM9 code which uses varargs. I've been using an arm-elf yagarto distribution from a couple of years ago, with no problems. Recently, we upgraded to the arm-eabi-none yagarto package from the yagarto site, and I'm finding that we now have problems with floating point values. What I eventually discovered is that doubles are being forced to 8-byte boundaries, and the existing varargs floating-point handler didn't expect to find gaps in the args.
I can manually check the pointer and force it up to an eight-byte boundary (in fact, I did that, and that fixed the issue entirely), but I'd like to know why this has suddenly started happening.
Is there a compiler switch that specifies data alignment on the stack, or in function calls, or something like that?? And why would it be defaulting to 8-byte boundaries on a 32-bit (4-byte) architecture??
I would appreciate any advice or insights that anyone could provide on these issues.
The code is simple:
..... float floatValue = 10.0; int intValue = 10; char buffer; ... snprintf (buffer, 32, "%g", floatValue); /* Here we are getting junk value bcz of 8-byte*/ snprintf (buffer, 32, "%lld", intValue); /* Here we are getting junk value bcz of 8-byte */ ....
The version of GCC we were using is 4.7.1
Toolchain compiling options:
`mabi=aapcs-linux `mcpu=arm7tdmi/mcpu=arm946e-s` `mfloat-abi=softfp`
Application compiler option:
`-mfloat-abi=softfp` `-mfpu=vfp` `-mstructure-size-boundary=8` `-fomit-frame-pointer` `-fshort-wchar` `-fno-short-enums`