/* vacall function for sparc CPU */ /* * Copyright 1995-2004 Bruno Haible, * * This is free software distributed under the GNU General Public Licence * described in the file COPYING. Contact the author if you don't have this * or can't live with it. There is ABSOLUTELY NO WARRANTY, explicit or implied, * on this software. */ #ifndef REENTRANT #include "vacall.h.in" #else /* REENTRANT */ #include "vacall_r.h.in" #endif #ifdef REENTRANT #define __vacall __vacall_r register struct { void (*vacall_function) (void*,va_alist); void* arg; } * env __asm__("%g2"); #endif register __vaword* fp __asm__("%fp"); /* our %fp, caller's %sp */ register __vaword* ret __asm__("%i7"); /* %i7+8 = return address */ register int iret __asm__("%i0"); register int iret2 __asm__("%i1"); register float fret __asm__("%f0"); /* %f0 */ register double dret __asm__("%f0"); /* %f0,%f1 */ void /* the return type is variable, not void! */ __vacall (__vaword word1, __vaword word2, __vaword word3, __vaword word4, __vaword word5, __vaword word6, __vaword firstword) { __va_alist list; /* gcc-2.6.3 source says: When a parameter is passed in a register, * stack space is still allocated for it. */ /* Move the arguments passed in registers to their stack locations. */ (&firstword)[-6] = word1; (&firstword)[-5] = word2; (&firstword)[-4] = word3; (&firstword)[-3] = word4; (&firstword)[-2] = word5; (&firstword)[-1] = word6; /* Prepare the va_alist. */ list.flags = 0; list.aptr = (long)(&firstword - 6); list.raddr = (void*)0; list.rtype = __VAvoid; list.structraddr = (void*)((&firstword)[-7]); /* = (void*) fp[16] */ /* Call vacall_function. The macros do all the rest. */ #ifndef REENTRANT (*vacall_function) (&list); #else /* REENTRANT */ (*env->vacall_function) (env->arg,&list); #endif /* Put return value into proper register. */ if (list.rtype == __VAvoid) { } else if (list.rtype == __VAchar) { iret = list.tmp._char; } else if (list.rtype == __VAschar) { iret = list.tmp._schar; } else if (list.rtype == __VAuchar) { iret = list.tmp._uchar; } else if (list.rtype == __VAshort) { iret = list.tmp._short; } else if (list.rtype == __VAushort) { iret = list.tmp._ushort; } else if (list.rtype == __VAint) { iret = list.tmp._int; } else if (list.rtype == __VAuint) { iret = list.tmp._uint; } else if (list.rtype == __VAlong) { iret = list.tmp._long; } else if (list.rtype == __VAulong) { iret = list.tmp._ulong; } else if (list.rtype == __VAlonglong || list.rtype == __VAulonglong) { iret = ((__vaword *) &list.tmp._longlong)[0]; iret2 = ((__vaword *) &list.tmp._longlong)[1]; } else if (list.rtype == __VAfloat) { if (list.flags & __VA_SUNCC_FLOAT_RETURN) { dret = (double)list.tmp._float; } else { fret = list.tmp._float; } } else if (list.rtype == __VAdouble) { dret = list.tmp._double; } else if (list.rtype == __VAvoidp) { iret = (long)list.tmp._ptr; } else if (list.rtype == __VAstruct) { if (list.flags & (__VA_SUNCC_STRUCT_RETURN | __VA_SUNPROCC_STRUCT_RETURN)) { /* Sun cc struct return convention. */ /* The desired struct return address was passed in fp[16], later on * list.raddr = list.structraddr = fp[16]. Now the result has * already been copied there. No need to copy the result once more. * The caller expects to receive the struct return address in %o0. */ iret = (long) list.raddr; if ((list.rsize & 0xfff) == ret[2]) ret++; /* skip the "unimp n" instruction at the return address */ /* else the "unimp n" instruction will cause a core dump */ } else { if (list.flags & __VA_PCC_STRUCT_RETURN) { /* pcc struct return convention */ iret = (long) list.raddr; } else { /* normal struct return convention */ if (list.flags & __VA_SMALL_STRUCT_RETURN) { if (list.rsize == sizeof(char)) { iret = *(unsigned char *) list.raddr; goto done; } else if (list.rsize == sizeof(short)) { iret = *(unsigned short *) list.raddr; goto done; } else if (list.rsize == sizeof(int)) { iret = *(unsigned int *) list.raddr; goto done; } } ret++; /* skip the "unimp n" instruction at the return address */ done: ; } } } }