// vmsbf.m vd, vs2, vm require(P.VU.vsew >= e8 && P.VU.vsew <= e64); require_vector(true); require(P.VU.vstart == 0); require_vm; require(insn.rd() != insn.rs2()); reg_t vl = P.VU.vl; reg_t rd_num = insn.rd(); reg_t rs2_num = insn.rs2(); bool has_one = false; for (reg_t i = P.VU.vstart; i < vl; ++i) { const int midx = i / 64; const int mpos = i % 64; const uint64_t mmask = UINT64_C(1) << mpos; \ bool vs2_lsb = ((P.VU.elt(rs2_num, midx) >> mpos) & 0x1) == 1; bool do_mask = (P.VU.elt(0, midx) >> mpos) & 0x1; if (insn.v_vm() == 1 || (insn.v_vm() == 0 && do_mask)) { auto &vd = P.VU.elt(rd_num, midx, true); uint64_t res = 0; if (!has_one && !vs2_lsb) { res = 1; } else if(!has_one && vs2_lsb) { has_one = true; } vd = (vd & ~mmask) | ((res << mpos) & mmask); } }