}
}
-static inline __attribute__((__always_inline__))
-void float_check_status(CPUPPCState *env)
-{
- /* GETPC() works here because this is inline */
- do_float_check_status(env, GETPC());
-}
-
void helper_float_check_status(CPUPPCState *env)
{
do_float_check_status(env, GETPC());
float_flag_invalid) { \
float_invalid_op_vxcvi(env, 1, GETPC()); \
} \
- float_check_status(env); \
+ do_float_check_status(env, GETPC()); \
} \
return farg.ll; \
}
} else { \
farg.d = cvtr(arg, &env->fp_status); \
} \
- float_check_status(env); \
+ do_float_check_status(env, GETPC()); \
return farg.ll; \
}
env->fp_status.float_exception_flags &= ~float_flag_inexact;
}
}
- float_check_status(env);
+ do_float_check_status(env, GETPC());
return farg.ll;
}
float64_maddsub_update_excp(env, arg1, arg2, arg3, \
madd_flags, GETPC()); \
} \
- float_check_status(env); \
+ do_float_check_status(env, GETPC()); \
} \
return ret; \
}
} \
} \
putVSR(xT(opcode), &xt, env); \
- float_check_status(env); \
+ do_float_check_status(env, GETPC()); \
}
VSX_ADD_SUB(xsadddp, add, 1, float64, VsrD(0), 1, 0)
helper_compute_fprf_float128(env, xt.f128);
putVSR(rD(opcode) + 32, &xt, env);
- float_check_status(env);
+ do_float_check_status(env, GETPC());
}
/* VSX_MUL - VSX floating point multiply
} \
\
putVSR(xT(opcode), &xt, env); \
- float_check_status(env); \
+ do_float_check_status(env, GETPC()); \
}
VSX_MUL(xsmuldp, 1, float64, VsrD(0), 1, 0)
helper_compute_fprf_float128(env, xt.f128);
putVSR(rD(opcode) + 32, &xt, env);
- float_check_status(env);
+ do_float_check_status(env, GETPC());
}
/* VSX_DIV - VSX floating point divide
} \
\
putVSR(xT(opcode), &xt, env); \
- float_check_status(env); \
+ do_float_check_status(env, GETPC()); \
}
VSX_DIV(xsdivdp, 1, float64, VsrD(0), 1, 0)
helper_compute_fprf_float128(env, xt.f128);
putVSR(rD(opcode) + 32, &xt, env);
- float_check_status(env);
+ do_float_check_status(env, GETPC());
}
/* VSX_RE - VSX floating point reciprocal estimate
} \
\
putVSR(xT(opcode), &xt, env); \
- float_check_status(env); \
+ do_float_check_status(env, GETPC()); \
}
VSX_RE(xsredp, 1, float64, VsrD(0), 1, 0)
} \
\
putVSR(xT(opcode), &xt, env); \
- float_check_status(env); \
+ do_float_check_status(env, GETPC()); \
}
VSX_SQRT(xssqrtdp, 1, float64, VsrD(0), 1, 0)
} \
\
putVSR(xT(opcode), &xt, env); \
- float_check_status(env); \
+ do_float_check_status(env, GETPC()); \
}
VSX_RSQRTE(xsrsqrtedp, 1, float64, VsrD(0), 1, 0)
} \
} \
putVSR(xT(opcode), &xt_out, env); \
- float_check_status(env); \
+ do_float_check_status(env, GETPC()); \
}
VSX_MADD(xsmaddadp, 1, float64, VsrD(0), MADD_FLGS, 1, 1, 0)
} \
} \
putVSR(xT(opcode), &xt, env); \
- helper_float_check_status(env); \
+ do_float_check_status(env, GETPC()); \
}
VSX_SCALAR_CMP_DP(xscmpeqdp, eq, 1, 0)
env->fpscr |= cc << FPSCR_FPRF;
env->crf[BF(opcode)] = cc;
- helper_float_check_status(env);
+ do_float_check_status(env, GETPC());
}
void helper_xscmpexpqp(CPUPPCState *env, uint32_t opcode)
env->fpscr |= cc << FPSCR_FPRF;
env->crf[BF(opcode)] = cc;
- helper_float_check_status(env);
+ do_float_check_status(env, GETPC());
}
#define VSX_SCALAR_CMP(op, ordered) \
env->fpscr |= cc << FPSCR_FPRF; \
env->crf[BF(opcode)] = cc; \
\
- float_check_status(env); \
+ do_float_check_status(env, GETPC()); \
}
VSX_SCALAR_CMP(xscmpodp, 1)
env->fpscr |= cc << FPSCR_FPRF; \
env->crf[BF(opcode)] = cc; \
\
- float_check_status(env); \
+ do_float_check_status(env, GETPC()); \
}
VSX_SCALAR_CMPQ(xscmpoqp, 1)
} \
\
putVSR(xT(opcode), &xt, env); \
- float_check_status(env); \
+ do_float_check_status(env, GETPC()); \
}
VSX_MAX_MIN(xsmaxdp, maxnum, 1, float64, VsrD(0))
if ((opcode >> (31-21)) & 1) { \
env->crf[6] = (all_true ? 0x8 : 0) | (all_false ? 0x2 : 0); \
} \
- float_check_status(env); \
+ do_float_check_status(env, GETPC()); \
}
VSX_CMP(xvcmpeqdp, 2, float64, VsrD(i), eq, 0, 1)
} \
\
putVSR(xT(opcode), &xt, env); \
- float_check_status(env); \
+ do_float_check_status(env, GETPC()); \
}
VSX_CVT_FP_TO_FP(xscvdpsp, 1, float64, float32, VsrD(0), VsrW(0), 1)
} \
\
putVSR(rD(opcode) + 32, &xt, env); \
- float_check_status(env); \
+ do_float_check_status(env, GETPC()); \
}
VSX_CVT_FP_TO_FP_VECTOR(xscvdpqp, 1, float64, float128, VsrD(0), f128, 1)
} \
\
putVSR(xT(opcode), &xt, env); \
- float_check_status(env); \
+ do_float_check_status(env, GETPC()); \
}
VSX_CVT_FP_TO_FP_HP(xscvdphp, 1, float64, float16, VsrD(0), VsrH(3), 1)
helper_compute_fprf_float64(env, xt.VsrD(0));
putVSR(rD(opcode) + 32, &xt, env);
- float_check_status(env);
+ do_float_check_status(env, GETPC());
}
uint64_t helper_xscvdpspn(CPUPPCState *env, uint64_t xb)
} \
\
putVSR(xT(opcode), &xt, env); \
- float_check_status(env); \
+ do_float_check_status(env, GETPC()); \
}
VSX_CVT_FP_TO_INT(xscvdpsxds, 1, float64, int64, VsrD(0), VsrD(0), \
} \
\
putVSR(rD(opcode) + 32, &xt, env); \
- float_check_status(env); \
+ do_float_check_status(env, GETPC()); \
}
VSX_CVT_FP_TO_INT_VECTOR(xscvqpsdz, float128, int64, f128, VsrD(0), \
} \
\
putVSR(xT(opcode), &xt, env); \
- float_check_status(env); \
+ do_float_check_status(env, GETPC()); \
}
VSX_CVT_INT_TO_FP(xscvsxddp, 1, int64, float64, VsrD(0), VsrD(0), 1, 0)
helper_compute_fprf_##ttp(env, xt.tfld); \
\
putVSR(xT(opcode) + 32, &xt, env); \
- float_check_status(env); \
+ do_float_check_status(env, GETPC()); \
}
VSX_CVT_INT_TO_FP_VECTOR(xscvsdqp, int64, float128, VsrD(0), f128)
} \
\
putVSR(xT(opcode), &xt, env); \
- float_check_status(env); \
+ do_float_check_status(env, GETPC()); \
}
VSX_ROUND(xsrdpi, 1, float64, VsrD(0), float_round_ties_away, 1)
uint64_t xt = helper_frsp(env, xb);
helper_compute_fprf_float64(env, xt);
- float_check_status(env);
+ do_float_check_status(env, GETPC());
return xt;
}
}
helper_compute_fprf_float128(env, xt.f128);
- float_check_status(env);
+ do_float_check_status(env, GETPC());
putVSR(rD(opcode) + 32, &xt, env);
}
helper_compute_fprf_float128(env, xt.f128);
putVSR(rD(opcode) + 32, &xt, env);
- float_check_status(env);
+ do_float_check_status(env, GETPC());
}
void helper_xssqrtqp(CPUPPCState *env, uint32_t opcode)
helper_compute_fprf_float128(env, xt.f128);
putVSR(rD(opcode) + 32, &xt, env);
- float_check_status(env);
+ do_float_check_status(env, GETPC());
}
void helper_xssubqp(CPUPPCState *env, uint32_t opcode)
helper_compute_fprf_float128(env, xt.f128);
putVSR(rD(opcode) + 32, &xt, env);
- float_check_status(env);
+ do_float_check_status(env, GETPC());
}
projects / qemu.git / commitdiff