Lines Matching full:arg2
698 Iop_AtanF64, /* FPATAN, arctan(arg1/arg2) */
699 Iop_Yl2xF64, /* FYL2X, arg1 * log2(arg2) */
700 Iop_Yl2xp1F64, /* FYL2XP1, arg1 * log2(arg2+1.0) */
701 Iop_PRemF64, /* FPREM, non-IEEE remainder(arg1/arg2) */
703 Iop_PRem1F64, /* FPREM1, IEEE remainder(arg1/arg2) */
705 Iop_ScaleF64, /* FSCALE, arg1 * (2^RoundTowardsZero(arg2)) */
727 (computes arg2 * arg3 +/- arg4) */
737 (computes arg2 * arg3 +/- arg4) */
832 /* Vector Reciprocal Step computes (2.0 - arg1 * arg2).
841 /* Vector Reciprocal Square Root Step computes (3.0 - arg1 * arg2) / 2.0.
901 /* AVERAGING: note: (arg1 + arg2 + 1) >>u 1 */
999 /* SLICE -- produces the lowest 64 bits of (arg1:arg2) >> (8 * arg3).
1001 inclusive. When 0, the result is arg2; when 8, the result is arg1.
1309 /* Vector Reciprocal Step computes (2.0 - arg1 * arg2).
1318 /* Vector Reciprocal Square Root Step computes (3.0 - arg1 * arg2) / 2.0.
1536 /* AVERAGING: note: (arg1 + arg2 + 1) >>u 1 */
1740 /* SLICE -- produces the lowest 128 bits of (arg1:arg2) >> (8 * arg3).
1742 inclusive. When 0, the result is arg2; when 16, the result is arg1.
2002 ppIRExpr output: <op>(<arg1>, <arg2>, <arg3>, <arg4>),
2010 ppIRExpr output: <op>(<arg1>, <arg2>, <arg3>),
2018 ppIRExpr output: <op>(<arg1>, <arg2>), eg. Add32(t1,t2)
2023 IRExpr* arg2; /* operand 2 */
2125 IRExpr* arg2; /* operand 2 */
2133 IRExpr* arg2; /* operand 2 */
2167 extern IRExpr* IRExpr_Qop ( IROp op, IRExpr* arg1, IRExpr* arg2,
2170 IRExpr* arg2, IRExpr* arg3 );
2171 extern IRExpr* IRExpr_Binop ( IROp op, IRExpr* arg1, IRExpr* arg2 );
