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Lines Matching defs:zero

917    Nb: t must be zero to denote no saturation, and any nonzero
935    masked out.  If the resulting value is zero then the GE flag is
959 /* Return the (32-bit, zero-or-nonzero representation scheme) of
1019          11  to zero
1024          11  to zero
1031       we don't zero out bits 24 and above, since the assignment to
1086    bits 7:4, and be zero everywhere else.
1349 /* Minor variant of the above that sets NDEP to zero (if it
1361 /* Minor variant of the above that sets DEP2 to zero (if it
1373 /* Minor variant of the above that sets DEP2 and NDEP to zero (if it
1617       if sat did not occur, resQ is guaranteed to be zero. */
1663       if sat did not occur, resQ is guaranteed to be zero. */
3761                element is non-zero, then QC flag should be set. */
4076                non-zero, then QC flag should be set. */
6881                IRExpr *zero;
6883                   zero = binop(Iop_64HLtoV128, mkU64(0), mkU64(0));
6885                   zero = mkU64(0);
6905                assign(res, binop(op, zero, mkexpr(arg_m)));
6907                setFlag_QC(mkexpr(res), binop(op2, zero, mkexpr(arg_m)),
6936                IRExpr *zero;
6939                   zero = binop(Iop_64HLtoV128, mkU64(0), mkU64(0));
6941                   zero = mkU64(0);
6958                assign(res, binop(op, mkexpr(arg_m), zero));
6966                IRExpr *zero;
6968                   zero = binop(Iop_64HLtoV128, mkU64(0), mkU64(0));
6970                   zero = mkU64(0);
6978                   assign(res, binop(op, mkexpr(arg_m), zero));
6988                                    binop(op, zero, mkexpr(arg_m))));
6997                IRExpr *zero;
7000                      zero = binop(Iop_64HLtoV128, mkU64(0), mkU64(0));
7002                      zero = mkU64(0);
7009                   assign(res, binop(op, zero, mkexpr(arg_m)));
7027                IRExpr *zero;
7030                   zero = binop(Iop_64HLtoV128, mkU64(0), mkU64(0));
7032                   zero = mkU64(0);
7040                   assign(res, binop(op, zero, mkexpr(arg_m)));
7050                                    binop(op, mkexpr(arg_m), zero)));
7059                IRExpr *zero;
7061                   zero = binop(Iop_64HLtoV128, mkU64(0), mkU64(0));
7063                   zero = mkU64(0);
7071                   assign(res, binop(op, zero, mkexpr(arg_m)));
7080                   assign(res, binop(op, zero, mkexpr(arg_m)));
7112                IRExpr *zero;
7122                      zero = binop(Iop_64HLtoV128, mkU64(0), mkU64(0));
7124                      zero = mkU64(0);
7133                   assign(res, binop(op, zero, mkexpr(arg_m)));
11155       Z=1 Compare Dd vs zero
11619       Z=1 Compare Fd:D vs zero
12119       condT :: Ity_I32 and is always either zero or one. */
12263                break; /* rN must be zero */
12298                break; /* rD must be zero */
12324                break; /* rD must be zero */
12634         LDRB: loaded data is zero extended
14286       guest_ITSTATE must be zero.  So write zero into ITSTATE right
14365       equivalent to setting guest_ITSTATE to zero and then folding
14469          instruction.  condT :: Ity_I32 and is always either zero or
14610       IRTemp zero = newTemp(Ity_I32);
14612       assign(zero, mkU32(0));
14614       putIRegT(rD, binop(Iop_Sub32, mkexpr(zero), mkexpr(arg)), condT);
14615       setFlags_D1_D2( ARMG_CC_OP_SUB, zero, arg, cond_AND_notInIT_T);
15885          (not-BL), that insn1[0] must be zero. */
15927       UInt rL13    = INSN1(13,13); /* must be zero */