/* f/dash.c ** ** This file is in the public domain. */ #include "all.h" /* _ds_mate(): u2_yes iff `xip` binds to `cor`. */ static u2_bean _ds_mate(u2_noun xip, // retain u2_noun cor) // retain { u2_noun dac, bat, pet; u2_as_trel(xip, &dac, &bat, &pet); // Very important for performance that we mate top-down. // Reason: duplicates are much more common in shallower // batteries, and duplicate comparison is always slow. // if ( u2_nul != pet ) { u2_noun axe = u2_h(pet); u2_noun led = u2_t(pet); u2_noun ruc = u2_frag(axe, cor); if ( (u2_none == ruc) || (u2_no == _ds_mate(led, ruc)) ) { return u2_no; } } return u2_sing(bat, u2_h(cor)); } /* _ds_scan(): linear search for matching chip. */ static u2_noun // discover _ds_scan(u2_noun pug, // retain u2_noun cor) // retain { while ( u2_nul != pug ) { u2_noun i_pug = u2_h(pug); if ( u2_yes == _ds_mate(i_pug, cor) ) { return i_pug; } pug = u2_t(pug); } return u2_none; } /* u2_ds_find(): find chip by core, or none. */ u2_weak // senior u2_ds_find(u2_wire wir_r, u2_noun cor) // retain { if ( u2_no == u2_dust(cor) ) { return u2_none; } else { u2_rail bas_r = u2_wire_bas_r(wir_r); u2_noun pug = u2_cs_find(bas_r, u2_wire_des_r(wir_r), 0, u2_h(cor)); u2_noun out; if ( u2_none == pug ) { out = u2_none; } else out = _ds_scan(pug, cor); #if 0 if ( (u2_none == out) && (u2_none != pug) ) { fprintf(stderr, "half match\r\n"); } #endif return out; } } /* _ds_good_cop():: */ static u2_bean _ds_good_cop(u2_noun cop) { c3_w i_w = 0; while ( i_w < 4 ) { if ( u2_yes == u2_stud(cop) ) { return u2_yes; } if ( u2_no == u2_stud(u2_h(cop)) ) { return u2_no; } cop = u2_t(cop); i_w++; } return u2_no; } /* _ds_good_bud():: */ static u2_bean _ds_good_bud(u2_noun bud) { u2_noun p_bud, q_bud; if ( _0 == bud ) { return u2_yes; } else if ( (u2_no == u2_as_cell(bud, &p_bud, &q_bud)) ) { return u2_no; } if ( (u2_nock_bone == p_bud) && (_0 == q_bud) ) { return u2_yes; } if ( (u2_nock_frag == p_bud) && (u2_yes == u2_stud(q_bud)) ) { return u2_yes; } if ( u2_nock_hint == p_bud ) { return u2_yes == u2_dust(u2_t(bud)) ? _ds_good_bud(u2_t(u2_t(bud))) : u2_no; } else return u2_no; } /* _ds_good_pic():: */ static u2_bean _ds_good_pic(u2_noun pic) { if ( u2_nul == pic ) { return u2_yes; } else { u2_noun i_pic, t_pic; u2_noun pi_pic, qi_pic; if ( (u2_no == u2_as_cell(pic, &i_pic, &t_pic)) || (u2_no == u2_as_cell(i_pic, &pi_pic, &qi_pic)) || (u2_no == u2_stud(pi_pic)) ) { return u2_no; } else return u2_yes; } } extern void u2_lo_show(c3_c* cap_c, u2_noun nun); /* _ds_chip(): fabricate chip from clue and core. */ static u2_weak // senior _ds_chip(u2_wire wir_r, u2_noun clu, // retain u2_noun cor) // retain { u2_rail bas_r = u2_wire_bas_r(wir_r); u2_noun bud_clu, cop_clu, pic_clu; if ( (u2_no == u2_as_trel(clu, &bud_clu, &cop_clu, &pic_clu)) || (u2_no == _ds_good_bud(bud_clu)) || (u2_no == _ds_good_cop(cop_clu)) || (u2_no == _ds_good_pic(pic_clu)) ) { return u2_none; } else { u2_noun dac, bat, pet; /* disc: dac */ { if ( u2_none == (dac = u2_rx(bas_r, u2_t(clu))) ) { u2_ho_warn_here(); return u2_none; } } #if 1 /* battery: bat */ { if ( u2_none == (bat = u2_rx(bas_r, u2_h(cor))) ) { u2_ho_warn_here(); u2_rz(bas_r, dac); return u2_none; } } #endif #if 0 /* bat: battery */ { // Important to reuse existing battery even if it does not match // the whole chip - since battery is a comparison key, we don't // want duplicates, which compare slowly. // if ( u2_nul == pug ) { bat = u2_rx(bas_r, u2_h(cor)); } else { u2_noun i_pug = u2_h(pug); bat = u2_rx(bas_r, u2_h(u2_t(i_pug))); } if ( u2_none == bat ) { u2_ho_warn_here(); u2_rz(bas_r, dac); return u2_none; } } #endif /* trunk: pet */ { if ( _0 == bud_clu ) { pet = u2_nul; } else { while ( _10 == u2_h(bud_clu) ) { bud_clu = u2_t(u2_t(bud_clu)); } if ( _1 == u2_h(bud_clu) ) { pet = u2_nul; } else { u2_atom axe = u2_t(bud_clu); u2_noun ruc = u2_frag(axe, cor); u2_noun led; if ( u2_none == ruc ) { // u2_err(wir_r, "clu", clu); u2_ho_warn_here(); u2_rz(bas_r, dac); u2_rz(bas_r, bat); return u2_none; } else { if ( u2_none == (led = u2_ds_find(wir_r, ruc)) ) { u2_lo_show("clu", clu); u2_ho_warn_here(); c3_assert(0); u2_rz(bas_r, dac); u2_rz(bas_r, bat); return u2_none; } pet = u2_rc(bas_r, u2_rx(bas_r, axe), u2_rx(bas_r, led)); } } } } return u2_rt(bas_r, dac, bat, pet); } } /* u2_ds_wipe(): ** ** Clear dashboard. */ void u2_ds_wipe(u2_wire wir_r) { u2_noun bas_r = u2_wire_bas_r(wir_r); u2_cs_lose(bas_r, u2_wire_des_r(wir_r)); } /* u2_ds_mine(): ** ** Register and/or save core. */ u2_noun // transfer u2_ds_mine(u2_wire wir_r, u2_noun clu, // retain u2_noun cor) // transfer { u2_noun bas_r = u2_wire_bas_r(wir_r); if ( u2_no == u2_dust(cor) ) { return cor; } else { u2_noun pay = u2_t(cor); u2_noun bat = u2_h(cor); u2_noun pug = u2_cs_find(bas_r, u2_wire_des_r(wir_r), 0, bat); u2_noun xip, bat_xip; u2_noun gop; if ( u2_none == pug ) { pug = u2_nul; } if ( u2_none == (xip = _ds_scan(pug, cor)) ) { gop = u2_rc(bas_r, (xip = _ds_chip(wir_r, clu, cor)), u2_rx(bas_r, pug)); if ( u2_none == gop ) { return cor; } else { bat_xip = u2_h(u2_t(xip)); #if 0 { c3_c* xip_c = u2_ho_cstring(xip); fprintf(stderr, "!%s - lent %d\r\n", xip_c, u2_ckb_lent(gop)); free(xip_c); } #endif gop = u2_cs_save(bas_r, u2_wire_des_r(wir_r), 0, bat_xip, gop); { u2_noun poo = u2_cs_find(bas_r, u2_wire_des_r(wir_r), 0, bat_xip); { _ds_scan(poo, cor); } } u2_rz(bas_r, gop); } } else { bat_xip = u2_h(u2_t(xip)); } if ( bat_xip != bat ) { u2_noun cyr = u2_rc(wir_r, bat_xip, u2_rx(wir_r, pay)); if ( u2_none == cyr ) { return cor; } else { u2_rz(wir_r, cor); return cyr; } } else return cor; } } /* _ds_leap(): formula from name and chip. */ static u2_weak // senior _ds_leap(u2_wire wir_r, u2_noun xip, // retain const c3_c* tam_c) // retain { u2_noun dac = u2_h(xip); u2_noun pic = u2_t(dac); while ( u2_nul != pic ) { u2_noun i_pic = u2_h(pic); u2_noun t_pic = u2_t(pic); if ( u2_yes == u2_sing_c(tam_c, u2_h(i_pic)) ) { return u2_t(i_pic); } else pic = t_pic; } return u2_none; } /* u2_ds_look(): ** ** Produce hook formula from core, or u2_none. */ u2_weak // produce u2_ds_look(u2_wire wir_r, u2_noun cor, // retain const c3_c* tam_c) // retain { u2_noun xip = u2_ds_find(wir_r, cor); if ( u2_none == xip ) { return u2_none; } else { c3_l axe_l = _1; while ( 1 ) { u2_noun fol = _ds_leap(wir_r, xip, tam_c); if ( u2_none == fol ) { u2_noun pet = u2_t(u2_t(xip)); if ( _0 == pet ) { // printf("no joy - %s\n", tam_c); return u2_none; } else { u2_axis pax = u2_h(pet); c3_assert(u2_fly_is_cat(pax)); c3_assert((u2_ax_dep(axe_l) + u2_ax_dep(pax)) <= 30); axe_l = u2_ax_peg(axe_l, pax); xip = u2_t(pet); continue; } } else { if ( _1 != axe_l ) { return u2_rt(wir_r, u2_nock_flac, u2_rc(wir_r, u2_nock_frag, axe_l), fol); } else return fol; } } } } /* u2_ds_fire(): ** ** Fire formula from core. */ u2_weak // produce u2_ds_fire(u2_wire wir_r, u2_noun cor, // retain const c3_c* tam_c) // retain { u2_noun fol = u2_ds_look(wir_r, cor, tam_c); if ( u2_none == fol ) { return u2_none; } else { u2_noun pro = u2_nk_nock(wir_r, u2_rx(wir_r, cor), fol); u2_rz(wir_r, fol); return pro; } }