// The OS/K Team licenses this file to you under the MIT license. // See the LICENSE file in the project root for more information. #include #define _NEED_ARCH_I #include //----------------------------------------------------------------------------// IMPL_START(or) { SRCP(p2); SRCP(p3); *r1 = p2->val | p3->val; return 1; } IMPL_START(and) { SRCP(p2); SRCP(p3); *r1 = p2->val & p3->val; return 1; } IMPL_START(xor) { SRCP(p2); SRCP(p3); *r1 = p2->val ^ p3->val; return 1; } //----------------------------------------------------------------------------// IMPL_START(shl) { SRCP(p2); SRCP(p3); *r1 = p2->val << p3->val; return 1; } IMPL_START(shr) { SRCP(p2); SRCP(p3); *r1 = p2->val >> p3->val; return 1; } IMPL_START(sal) { SRCP(p2); SRCP(p3); *r1 = (ulong)((long)p2->val << (long)p3->val); return 1; } IMPL_START(sar) { SRCP(p2); SRCP(p3); *r1 = (ulong)((long)p2->val >> (long)p3->val); return 1; } //----------------------------------------------------------------------------// IMPL_START(inc) { SRCP(p1); SRCP(p2); *r1 = p1->val + p2->val; return 1; } IMPL_START(add) { SRCP(p2); SRCP(p3); *r1 = p2->val + p3->val; return 1; } IMPL_START(addf) { SRCP(p2); SRCP(p3); COMPARE_ADD(p2->val, p3->val); *r1 = p2->val + p3->val; return 1; } IMPL_START(dec) { SRCP(p1); SRCP(p2); *r1 = p1->val - p2->val; return 1; } IMPL_START(sub) { SRCP(p2); SRCP(p3); *r1 = p2->val - p3->val; return 1; } IMPL_START(subf) { SRCP(p2); SRCP(p3); COMPARE_SUB(p2->val, p3->val); *r1 = p2->val - p3->val; return 1; } IMPL_START(adcx) { SRCP(p2); SRCP(p3); p3->val += !!(R(RFX)&CF); COMPARE_ADD(p2->val, p3->val); *r1 = p2->val + p3->val; return 1; } IMPL_START(sbbx) { SRCP(p2); SRCP(p3); p3->val += !!(R(RFX)&CF); COMPARE_SUB(p2->val, p3->val); *r1 = p2->val - p3->val; return 1; } //----------------------------------------------------------------------------// IMPL_START(mul) { SRCP(p2); SRCP(p3); *r1 = p2->val * p3->val; return 1; } IMPL_START(rem) { SRCP(p2); SRCP(p3); *r1 = p2->val % p3->val; return 1; } IMPL_START(div) { SRCP(p2); SRCP(p3); if (!p3->val) _except(E_DIV, "DIV by 0"); *r1 = p2->val / p3->val; return 1; } IMPL_START(idiv) { SRCP(p2); SRCP(p3); if (!p3->val) _except(E_DIV, "IDIV by 0"); *r1 = (ulong)((long)p2->val/(long)p3->val); return 1; } //----------------------------------------------------------------------------// static void __unsigned_multiply128(ulong u, ulong v, ulong *hi, ulong *lo) { __uint128_t r = (__uint128_t)u * (__uint128_t)v; *hi = r >> 64; *lo = r; } IMPL_START(mulhi) { SRCP(p2); SRCP(p3); __unsigned_multiply128(p2->val, p3->val, r1, r2); return 2; } IMPL_START(mulf) { SRCP(p2); SRCP(p3); ulong tmp; __unsigned_multiply128(p2->val, p3->val, &tmp, r1); R(RFX) = p2->val ? (R(RFX)|CF|OF) : R(RFX)&~(CF|OF); return 1; } //----------------------------------------------------------------------------// static void __signed_multiply128(ulong u, ulong v, ulong *hi, ulong *lo) { __int128_t r = (__int128_t)(long)u * (__int128_t)(long)v; *hi = r >> 64; *lo = r; } IMPL_START(imulhi) { SRCP(p2); SRCP(p3); __signed_multiply128(p2->val, p3->val, r1, r2); return 2; } //----------------------------------------------------------------------------//