aggravate() { register struct linked_list *mi; for (mi = mlist; mi != NULL; mi = next(mi)) runto(THINGPTR(mi), &hero); }
void new_monster(THING *tp, int type, const coord *cp) { struct monster *mp; int lev_add; if ((lev_add = level - AMULETLEVEL) < 0) lev_add = 0; attach(mlist, tp); tp->t_type = type; tp->t_disguise = type; tp->t_pos = *cp; move(cp->y, cp->x); tp->t_oldch = CCHAR( inch() ); tp->t_room = roomin(cp); moat(cp->y, cp->x) = tp; mp = &monsters[tp->t_type-'A']; tp->t_stats.s_lvl = mp->m_stats.s_lvl + lev_add; tp->t_stats.s_maxhp = tp->t_stats.s_hpt = roll(tp->t_stats.s_lvl, 8); tp->t_stats.s_arm = mp->m_stats.s_arm - lev_add; strcpy(tp->t_stats.s_dmg,mp->m_stats.s_dmg); tp->t_stats.s_str = mp->m_stats.s_str; tp->t_stats.s_exp = mp->m_stats.s_exp + lev_add * 10 + exp_add(tp); tp->t_flags = mp->m_flags; if (level > 29) tp->t_flags |= ISHASTE; tp->t_turn = TRUE; tp->t_pack = NULL; if (ISWEARING(R_AGGR)) runto(cp); if (type == 'X') tp->t_disguise = rnd_thing(); }
void QedQcd::runto_safe(double scale, double eps) { if (runto(scale, eps)) { throw flexiblesusy::NonPerturbativeRunningQedQcdError( std::string("Non-perturbative running to Q = ") + flexiblesusy::ToString(scale) + " during determination of the SM(5) parameters."); } }
void wanderer(void) { THING *tp; coord cp; int cnt = 0; tp = new_item(); do { /* Avoid endless loop when all rooms are filled with monsters * and the player room is not accessible to the monsters. */ if (cnt++ >= 500) { discard(tp); return; } find_floor(NULL, &cp, FALSE, TRUE); } while (roomin(&cp) == proom && moat(cp.y, cp.x) == NULL); new_monster(tp, randmonster(TRUE), &cp); if (on(player, SEEMONST)) { standout(); if (!on(player, ISHALU)) addch(tp->t_type); else addch(rnd(26) + 'A'); standend(); } runto(&tp->t_pos); #ifdef MASTER if (wizard) msg("started a wandering %s", monsters[tp->t_type-'A'].m_name); #endif }
void Mssm<Two_scale>::run_to(double scale, double eps) { if (eps < 0.0) eps = precision; runto(scale, eps); }
void Mssm<Two_scale>::calculate_spectrum() { run_to(maximum(displayMsusy(), MZ)); physical(3); runto(displayMz()); }
int SNmssm<Two_scale>::run_to(double scale, double eps) { if (eps < 0.0) eps = precision; return runto(scale, eps); }