/*
Package: dyncall
Library: dyncallback
File: dyncallback/dyncall_args_mips_o32.c
Description: Callback's Arguments VM - Implementation for MIPS o32
License:
Copyright (c) 2013-2022 Daniel Adler <dadler@uni-goettingen.de>,
Tassilo Philipp <tphilipp@potion-studios.com>
Permission to use, copy, modify, and distribute this software for any
purpose with or without fee is hereby granted, provided that the above
copyright notice and this permission notice appear in all copies.
THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES
WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF
MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR
ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES
WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN
ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF
OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.
*/
#include "dyncall_args_mips.h"
DCint dcbArgInt(DCArgs* p)
{
DCint value;
#if defined(DC__ABI_HARDFLOAT)
/* first int will disable float reg use. */
p->freg_count = 2;
#endif /* DC__ABI_HARDFLOAT */
value = *((int*)p->stackptr);
p->stackptr += sizeof(int);
return value;
}
DCuint dcbArgUInt(DCArgs* p) { return (DCuint)dcbArgInt(p); }
DCulonglong dcbArgULongLong(DCArgs* p)
{
DCulonglong value;
p->stackptr += ((int)p->stackptr & 4); /* Skip one slot if not aligned. */
#if defined(DC__Endian_LITTLE)
value = dcbArgUInt(p);
value |= ((DCulonglong)dcbArgUInt(p)) << 32;
#else
value = ((DCulonglong)dcbArgUInt(p)) << 32;
value |= dcbArgUInt(p);
#endif
return value;
}
DClonglong dcbArgLongLong(DCArgs* p) { return (DClonglong)dcbArgULongLong(p); }
DClong dcbArgLong (DCArgs* p) { return (DClong) dcbArgUInt(p); }
DCulong dcbArgULong (DCArgs* p) { return (DCulong) dcbArgUInt(p); }
DCchar dcbArgChar (DCArgs* p) { return (DCchar) dcbArgUInt(p); }
DCuchar dcbArgUChar (DCArgs* p) { return (DCuchar) dcbArgUInt(p); }
DCshort dcbArgShort (DCArgs* p) { return (DCshort) dcbArgUInt(p); }
DCushort dcbArgUShort (DCArgs* p) { return (DCushort) dcbArgUInt(p); }
DCbool dcbArgBool (DCArgs* p) { return (DCbool) dcbArgUInt(p); }
DCpointer dcbArgPointer(DCArgs* p) { return (DCpointer)dcbArgUInt(p); }
DCfloat dcbArgFloat(DCArgs* p)
{
DCfloat result;
#if defined(DC__ABI_HARDFLOAT)
if(p->freg_count < 2) {
/* Stored float regs (max 2) are always 8b aligned. The way we look them up, */
/* relative to a diverging p->stackptr, we need consider this. Only works */
/* with up to two float args, which is all we need. Hacky, but saves us */
/* from one more variable and more bookkeeping in DCArgs. */
result = ((DCfloat*)(p->stackptr + ((int)p->stackptr & 4)) - 4) /* '-4' b/c those regs are stored right before the args */
# if defined(DC__Endian_LITTLE)
[0];
# else
[1];
# endif
++p->freg_count;
} else
#endif /* DC__ABI_HARDFLOAT */
{
result = *((DCfloat*)p->stackptr);
}
p->stackptr += sizeof(DCfloat);
return result;
}
DCdouble dcbArgDouble(DCArgs* p)
{
union {
DCdouble result;
DCfloat f[2];
} d;
p->stackptr += ((int)p->stackptr & 4); /* Skip one slot if not aligned. */
#if defined(DC__ABI_HARDFLOAT)
if(p->freg_count < 2) {
/*result = *((DCdouble*)p->stackptr-2); this changes the value, slightly*/
d.f[0] = ((DCfloat*)p->stackptr-4)[0]; /* '-4' b/c those regs are stored right before the args */
d.f[1] = ((DCfloat*)p->stackptr-4)[1];
++p->freg_count;
} else
#endif /* DC__ABI_HARDFLOAT */
{
/*result = *((DCdouble*)p->stackptr); this changes the value, slightly*/
d.f[0] = ((DCfloat*)p->stackptr)[0];
d.f[1] = ((DCfloat*)p->stackptr)[1];
}
p->stackptr += sizeof(DCdouble);
return d.result;
}
DCpointer dcbArgAggr (DCArgs* p, DCpointer target) { /* @@@AGGR not impl */ return NULL; }
void dcbReturnAggr (DCArgs *args, DCValue *result, DCpointer ret) { /* @@@AGGR not impl */ }