/* vere/reck.c ** */ #include #include #include #include #include #include #include #include #include "all.h" #include "vere/vere.h" /* _reck_mole(): parse simple atomic mole. */ static u3_noun _reck_mole(u3_noun fot, u3_noun san, c3_d* ato_d) { u3_noun uco = u3dc("slaw", fot, san); u3_noun p_uco, q_uco; if ( (c3n == u3r_cell(uco, &p_uco, &q_uco)) || (u3_nul != p_uco) ) { uL(fprintf(uH, "strange mole %s\n", u3r_string(san))); u3z(fot); u3z(uco); return c3n; } else { *ato_d = u3r_chub(0, q_uco); u3z(fot); u3z(uco); return c3y; } } /* _reck_lily(): parse little atom. */ static u3_noun _reck_lily(u3_noun fot, u3_noun txt, c3_l* tid_l) { c3_d ato_d; if ( c3n == _reck_mole(fot, txt, &ato_d) ) { return c3n; } else { if ( ato_d >= 0x80000000ULL ) { return c3n; } else { *tid_l = (c3_l) ato_d; return c3y; } } } /* _reck_orchid(): parses only a number as text * * Parses a text string which contains a decimal number. In practice, this * number is always '1'. */ static u3_noun _reck_orchid(u3_noun fot, u3_noun txt, c3_l* tid_l) { c3_c* str = u3r_string(txt); c3_d ato_d = strtol(str, NULL, 10); free(str); if ( ato_d >= 0x80000000ULL ) { return c3n; } else { *tid_l = (c3_l) ato_d; return c3y; } } /* _reck_kick_term(): apply terminal outputs. */ static u3_noun _reck_kick_term(u3_noun pox, c3_l tid_l, u3_noun fav) { u3_noun p_fav; if ( c3n == u3du(fav) ) { u3z(pox); u3z(fav); return c3n; } else switch ( u3h(fav) ) { default: u3z(pox); u3z(fav); return c3n; case c3__bbye: { u3z(pox); u3z(fav); return c3y; } break; case c3__blit: p_fav = u3t(fav); { u3_term_ef_blit(tid_l, u3k(p_fav)); u3z(pox); u3z(fav); return c3y; } break; case c3__logo: { u3_Host.liv = c3n; u3_Host.xit_i = u3t(fav); u3z(pox); u3z(fav); return c3y; } break; case c3__init: p_fav = u3t(fav); { c3_assert( c3y == u3r_sing(u3A->own, p_fav) ); u3z(pox); u3z(fav); return c3y; } break; case c3__mass: p_fav = u3t(fav); { u3A->sac = u3k(p_fav); u3z(pox); u3z(fav); return c3y; } break; } c3_assert(!"not reached"); return 0; } /* _reck_kick_http(): apply http effects. */ static u3_noun _reck_kick_http(u3_noun pox, c3_l sev_l, c3_l coq_l, c3_l seq_l, u3_noun fav) { u3_noun p_fav, q_fav; if ( c3n == u3du(fav) ) { u3z(pox); u3z(fav); return c3n; } else switch ( u3h(fav) ) { default: u3z(pox); u3z(fav); return c3n; case c3__form: p_fav = u3t(fav); { u3_http_ef_form(u3k(p_fav)); u3z(pox); u3z(fav); return c3y; } case c3__that: p_fav = u3t(fav); { u3_http_ef_that(u3k(p_fav)); u3z(pox); u3z(fav); return c3y; } case c3__thus: p_fav = u3h(u3t(fav)); q_fav = u3t(u3t(fav)); { u3_cttp_ef_thus(u3r_word(0, p_fav), u3k(q_fav)); u3z(pox); u3z(fav); return c3y; } case c3__thou: p_fav = u3t(fav); { u3_http_ef_thou(sev_l, coq_l, seq_l, u3k(p_fav)); u3z(pox); u3z(fav); return c3y; } break; } c3_assert(!"not reached"); return c3n; } /* _reck_kick_behn(): apply packet network outputs. */ static u3_noun _reck_kick_behn(u3_noun pox, u3_noun fav) { switch ( u3h(fav) ) { default: break; case c3__doze: { u3_behn_ef_doze(u3k(u3t(fav))); u3z(pox); u3z(fav); return c3y; } break; } u3z(pox); u3z(fav); return c3n; } /* _reck_kick_sync(): apply sync outputs. */ static u3_noun _reck_kick_sync(u3_noun pox, u3_noun fav) { switch ( u3h(fav) ) { default: break; case c3__ergo: { u3_noun mon = u3k(u3h(u3t(fav))); u3_noun can = u3k(u3t(u3t(fav))); u3_unix_ef_ergo(mon, can); u3z(pox); u3z(fav); return c3y; } break; case c3__ogre: { u3_unix_ef_ogre(u3k(u3t(fav))); u3z(pox); u3z(fav); return c3y; } case c3__hill: { u3_unix_ef_hill(u3k(u3t(fav))); u3z(pox); u3z(fav); return c3y; } } // XX obviously not right! // ? looks fine to me u3z(pox); u3z(fav); return c3n; } /* _reck_kick_newt(): apply packet network outputs. */ static u3_noun _reck_kick_newt(u3_noun pox, u3_noun fav) { switch ( u3h(fav) ) { default: break; case c3__send: { u3_noun lan = u3k(u3h(u3t(fav))); u3_noun pac = u3k(u3t(u3t(fav))); u3_ames_ef_send(lan, pac); u3z(pox); u3z(fav); return c3y; } break; case c3__turf: { u3_ames_ef_turf(u3k(u3t(fav))); u3z(pox); u3z(fav); return c3y; } break; } u3z(pox); u3z(fav); return c3n; } /* _reck_kick_spec(): apply an effect, by path. */ static u3_noun _reck_kick_spec(u3_noun pox, u3_noun fav) { u3_noun i_pox, t_pox; if ( (c3n == u3r_cell(pox, &i_pox, &t_pox)) || ((i_pox != u3_blip) && (i_pox != c3__gold) && (i_pox != c3__iron) && (i_pox != c3__lead)) ) { u3z(pox); u3z(fav); return c3n; } else { u3_noun it_pox, tt_pox; if ( (c3n == u3r_cell(t_pox, &it_pox, &tt_pox)) ) { u3z(pox); u3z(fav); return c3n; } else if (c3y == u3r_sing(u3i_string("http-server"), u3k(it_pox))) { u3_noun pud = tt_pox; u3_noun p_pud, t_pud, tt_pud, q_pud, r_pud, s_pud; c3_l sev_l, coq_l, seq_l; if ( (c3n == u3r_cell(pud, &p_pud, &t_pud)) || (c3n == _reck_lily(c3__uv, u3k(p_pud), &sev_l)) ) { u3z(pox); u3z(fav); return c3n; } if ( u3_nul == t_pud ) { coq_l = seq_l = 0; } else { if ( (c3n == u3r_cell(t_pud, &q_pud, &tt_pud)) || (c3n == _reck_lily(c3__ud, u3k(q_pud), &coq_l)) ) { u3z(pox); u3z(fav); return c3n; } if ( u3_nul == tt_pud ) { seq_l = 0; } else { if ( (c3n == u3r_cell(tt_pud, &r_pud, &s_pud)) || (u3_nul != s_pud) || (c3n == _reck_lily(c3__ud, u3k(r_pud), &seq_l)) ) { u3z(pox); u3z(fav); return c3n; } } } u3_http_ef_http_server(sev_l, coq_l, seq_l, u3k(fav)); u3z(pox); u3z(fav); return c3y; } else switch ( it_pox ) { default: u3z(pox); u3z(fav); return c3n; case c3__behn: { return _reck_kick_behn(pox, fav); } break; case c3__clay: case c3__boat: case c3__sync: { return _reck_kick_sync(pox, fav); } break; case c3__newt: { return _reck_kick_newt(pox, fav); } break; case c3__term: { u3_noun pud = tt_pox; u3_noun p_pud, q_pud; c3_l tid_l; if ( (c3n == u3r_cell(pud, &p_pud, &q_pud)) || (u3_nul != q_pud) || (c3n == _reck_orchid(c3__ud, u3k(p_pud), &tid_l)) ) { uL(fprintf(uH, "term: bad tire\n")); u3z(pox); u3z(fav); return c3n; } else { return _reck_kick_term(pox, tid_l, fav); } } break; } } c3_assert(!"not reached"); return c3n; } /* _reck_kick_norm(): non path-specific effect handling. */ static u3_noun _reck_kick_norm(u3_noun pox, u3_noun fav) { if ( c3n == u3du(fav) ) { u3z(pox); u3z(fav); return c3n; } else switch ( u3h(fav) ) { default: u3z(pox); u3z(fav); return c3n; case c3__vega: { uL(fprintf(uH, "<<>>\n")); u3z(pox); u3z(fav); // u3_ds_wipe(u3_Wire); // doesn't work return c3y; } case c3__exit: { uL(fprintf(uH, "<<>>\n")); u3_lo_bail(); u3z(pox); u3z(fav); return c3y; } break; } c3_assert(!"not reached"); return c3n; u3z(pox); u3z(fav); return c3n; } /* u3_reck_kick(): handle effect. */ void u3_reck_kick(u3_noun ovo) { u3t_event_trace("Effect", 'b'); if ( (c3n == _reck_kick_spec(u3k(u3h(ovo)), u3k(u3t(ovo)))) && (c3n == _reck_kick_norm(u3k(u3h(ovo)), u3k(u3t(ovo)))) ) { #if 0 if ( (c3__warn != u3h(u3t(ovo))) && (c3__text != u3h(u3t(ovo))) && (c3__note != u3h(u3t(ovo))) ) #endif #if 1 if ( (c3__crud == u3h(u3t(ovo))) ) #if 0 (c3__talk == u3h(u3t(ovo))) || (c3__helo == u3h(u3t(ovo))) || (c3__init == u3h(u3t(ovo))) ) #endif { u3v_plan(u3nt(u3_blip, c3__term, u3_nul), u3nc(c3__flog, u3k(u3t(ovo)))); } else { u3_noun tox = u3do("spat", u3k(u3h(ovo))); uL(fprintf(uH, "kick: lost %%%s on %s\n", u3r_string(u3h(u3t(ovo))), u3r_string(tox))); u3z(tox); #if 0 if ( c3__hear == u3h(u3t(ovo)) ) { c3_assert(0); } #endif } #endif } u3z(ovo); u3t_event_trace("Effect", 'e'); }