/* g/v.c ** ** This file is in the public domain. */ #include #include "all.h" int WISH; /* _cv_nock_wish(): call wish through hardcoded interface. */ static u3_noun _cv_nock_wish(u3_noun txt) { u3_noun fun, pro; WISH = 1; fun = u3_cn_nock_on(u3k(u3A->roc), u3k(u3_cx_at(20, u3A->roc))); pro = u3_cn_slam_on(fun, txt); WISH = 0; return pro; } /* u3_cv_make(): make a new pier and instantiate pill. */ void u3_cv_make(c3_c* pas_c) { u3_noun sys = u3_cke_cue(u3_cm_file(pas_c)); printf("cv_make: loaded pill %s, as %x\n", pas_c, u3_cr_mug(sys)); u3A->ken = u3k(u3h(sys)); u3A->roc = u3k(u3t(sys)); printf("cv_make: kernel %x, core %x\n", u3_cr_mug(u3A->ken), u3_cr_mug(u3A->roc)); u3z(sys); } int JACK; /* u3_cv_jack(): execute kernel formula to bind jets. */ void u3_cv_jack(void) { u3_noun cor; JACK = 1; printf("cv_jack: activating kernel %x\n", u3_cr_mug(u3A->ken)); cor = u3_cn_nock_on(0, u3k(u3A->ken)); printf("cv_jack: activated\n"); JACK = 0; u3z(cor); } /* u3_cv_hose(): clear initial ovum queue. */ void u3_cv_hose(void) { u3p(u3_cs_cart) egg_p = u3A->ova.egg_p; while ( egg_p ) { u3_cs_cart* egg_u = u3to(u3_cs_cart, egg_p); u3p(u3_cs_cart) nex_p = egg_u->nex_p; u3_ca_lose(egg_u->vir); u3_ca_free(egg_u); egg_p = nex_p; } u3A->ova.egg_p = u3A->ova.geg_p = 0; u3z(u3A->roe); u3A->roe = u3_nul; } /* u3_cv_start(): start time. */ void u3_cv_start(u3_noun now) { u3_cv_time(now); u3_cv_numb(); { c3_c* wen_c = u3_cr_string(u3A->wen); printf("cv_start: time: %s\n", wen_c); free(wen_c); } } /* u3_cv_wish(): text expression with cache. */ u3_noun u3_cv_wish(const c3_c* str_c) { u3_noun exp; if ( u3R == &u3H->rod_u ) { u3_noun txt = u3_ci_string(str_c); exp = u3_ckdb_get(u3k(u3A->yot), u3k(txt)); if ( u3_none == exp ) { exp = _cv_nock_wish(u3k(txt)); u3A->yot = u3_ckdb_put(u3A->yot, u3k(txt), u3k(exp)); } u3z(txt); return exp; } else { // It's probably not a good idea to use u3_cv_wish() // outside the top level... // return _cv_nock_wish(u3_ci_string(str_c)); } } /* _cv_mung(): formula wrapper with gate and sample. */ static u3_noun _cv_mung_in(u3_noun gam) { u3_noun pro = u3_cn_slam_on(u3k(u3h(gam)), u3k(u3t(gam))); u3z(gam); return pro; } static u3_noun _cv_mung(c3_w sec_w, u3_noun gat, u3_noun sam) { u3_noun gam = u3nc(gat, sam); return u3_cm_soft(0, _cv_mung_in, gam); } /* u3_cv_pike(): poke with floating core. */ u3_noun u3_cv_pike(u3_noun ovo, u3_noun cor) { u3_noun fun = u3_cn_nock_on(cor, u3k(u3_cx_at(42, cor))); u3_noun sam = u3nc(u3k(u3A->now), ovo); return _cv_mung(0, fun, sam); } /* u3_cv_nick(): transform enveloped packets, [vir cor]. */ u3_noun u3_cv_nick(u3_noun vir, u3_noun cor) { if ( u3_nul == vir ) { return u3nt(u3_blip, vir, cor); } else { u3_noun i_vir = u3h(vir); u3_noun pi_vir, qi_vir; u3_noun vix; if ( (c3y == u3_cr_cell((i_vir=u3h(vir)), &pi_vir, &qi_vir)) && (c3y == u3du(qi_vir)) && (c3__hear == u3h(qi_vir)) ) { u3_noun gon; gon = u3_cv_pike(u3k(i_vir), cor); if ( u3_blip != u3h(gon) ) { u3z(vir); return gon; } else { u3_noun viz; vix = u3k(u3h(u3t(gon))); cor = u3k(u3t(u3t(gon))); u3z(gon); viz = u3_ckb_weld(vix, u3k(u3t(vir))); u3z(vir); return u3_cv_nick(viz, cor); } } else { u3_noun nez = u3_cv_nick(u3k(u3t(vir)), cor); if ( u3_blip != u3h(nez) ) { u3z(vir); return nez; } else { u3_noun viz; viz = u3nc(u3k(i_vir), u3k(u3h(u3t(nez)))); cor = u3k(u3t(u3t(nez))); u3z(vir); u3z(nez); return u3nt(u3_blip, viz, cor); } } } } /* _cv_nock_poke(): call poke through hardcoded interface. */ static u3_noun _cv_nock_poke(u3_noun ovo) { u3_noun fun = u3_cn_nock_on(u3k(u3A->roc), u3k(u3_cx_at(42, u3A->roc))); u3_noun sam, pro; sam = u3nc(u3k(u3A->now), ovo); #if 0 { c3_c* ovi_c = u3_cr_string(u3h(u3t(ovo))); u3_noun tox = u3_do("spat", u3k(u3h(ovo))); c3_c* tox_c = u3_cr_string(tox); printf("poke: %%%s (%x) on %s\r\n", ovi_c, u3_cr_mug(ovo), tox_c); free(tox_c); free(ovi_c); u3z(tox); } #endif // u3_leak_on(1); pro = u3_cn_slam_on(fun, sam); // u3_leak_off; #if 0 { c3_c* ovi_c = u3_cr_string(u3h(u3t(ovo))); printf("poked: %s\r\n", ovi_c); free(ovi_c); } #endif return pro; } /* _cv_nock_peek(): call peek through hardcoded interface. */ static u3_noun _cv_nock_peek(u3_noun hap) { u3_noun fun = u3_cn_nock_on(u3k(u3A->roc), u3k(u3_cx_at(87, u3A->roc))); u3_noun sam = u3nc(u3k(u3A->now), hap); return u3_cn_slam_on(fun, sam); } /* _cv_nock_keep(): call wait through hardcoded interface. */ static u3_noun _cv_nock_keep(u3_noun hap) { u3_noun fun = u3_cn_nock_on(u3k(u3A->roc), u3k(u3_cx_at(4, u3A->roc))); u3_noun sam = u3nc(u3k(u3A->now), hap); return u3_cn_slam_on(fun, sam); } /* u3_cv_do(): use a kernel gate. */ u3_noun u3_cv_do(const c3_c* txt_c, u3_noun sam) { u3_noun gat = u3_cv_wish(txt_c); u3_noun pro; #if 0 if ( &u3H->rod_u == u3R ) { pro = u3_cm_soft_slam(gat, sam); } else { pro = u3_cn_slam_on(gat, sam); } #else pro = u3_cn_slam_on(gat, sam); #endif return pro; } /* _cv_scot(): print atom. */ static u3_noun _cv_scot(u3_noun dim) { return u3_do("scot", dim); } /* u3_cv_time(): set the reck time. */ void u3_cv_time(u3_noun now) { u3z(u3A->now); u3A->now = now; u3z(u3A->wen); u3A->wen = _cv_scot(u3nc(c3__da, u3k(u3A->now))); } /* u3_cv_numb(): set the instance number. */ void u3_cv_numb() { u3A->sev_l = u3_cr_mug(u3A->now); u3z(u3A->sen); u3A->sen = _cv_scot(u3nc(c3__uv, u3A->sev_l)); } #if 0 /* _cv_time_bump(): advance the reck time by a small increment. */ static void _cv_time_bump(u3_reck* rec_u) { c3_d bum_d = (1ULL << 48ULL); u3A->now = u3_cka_add(u3A->now, u3_ci_chubs(1, &bum_d)); } #endif /* u3_cv_peek(): query the reck namespace (protected). */ u3_noun u3_cv_peek(u3_noun hap) { return u3_cm_soft_sure(_cv_nock_peek, hap); } /* u3_cv_keep(): measure timer. */ u3_noun u3_cv_keep(u3_noun hap) { return u3_cm_soft_sure(_cv_nock_keep, hap); } #if 0 /* _cv_mole(): parse simple atomic mole. */ static u3_bean _cv_mole(u3_noun fot, u3_noun san, c3_d* ato_d) { u3_noun uco = u3_do("slay", san); u3_noun p_uco, q_uco, r_uco, s_uco; if ( (c3n == u3_cr_qual(uco, &p_uco, &q_uco, &r_uco, &s_uco)) || (0 != p_uco) || (0 != q_uco) || (c3n == u3_sing(fot, r_uco)) ) { uL(fprintf(uH, "strange mole %s\n", u3_cr_string(san))); u3z(fot); u3z(uco); return c3n; } else { *ato_d = u3_cr_chub(0, s_uco); u3z(fot); u3z(uco); return c3y; } } /* _cv_lily(): parse little atom. */ static u3_bean _cv_lily(u3_noun fot, u3_noun txt, c3_l* tid_l) { c3_d ato_d; if ( c3n == _cv_mole(fot, txt, &ato_d) ) { return c3n; } else { if ( ato_d >= 0x80000000ULL ) { return c3n; } else { *tid_l = (c3_l) ato_d; return c3y; } } } #endif /* u3_cv_poke(): insert and apply an input ovum (protected). */ u3_noun u3_cv_poke(u3_noun ovo) { return _cv_nock_poke(ovo); } /* u3_cv_http_request(): hear http request on channel (unprotected). */ void u3_cv_http_request(u3_bean sec, u3_noun pox, u3_noun req) { // uL(fprintf(uH, "http: request\n")); u3_cv_plan(pox, u3nq(c3__this, sec, 0, req)); } /* u3_cv_tank(): dump single tank. */ void u3_cv_tank(u3_noun blu, c3_l tab_l, u3_noun tac) { u3_cv_punt(blu, tab_l, u3nc(tac, u3_nul)); } /* u3_cv_punt(): dump tank list. */ void u3_cv_punt(u3_noun blu, c3_l tab_l, u3_noun tac) { #if 0 u3_noun blu = u3_term_get_blew(0); #endif c3_l col_l = u3h(blu); u3_noun cat = tac; // We are calling nock here, but hopefully need no protection. // while ( c3y == u3_cr_du(cat) ) { u3_noun wol = u3_dc("wash", u3nc(tab_l, col_l), u3k(u3h(cat))); u3_cm_wall(wol); cat = u3t(cat); } u3z(tac); u3z(blu); } /* u3_cv_sway(): print trace. */ void u3_cv_sway(u3_noun blu, c3_l tab_l, u3_noun tax) { u3_noun mok = u3_dc("mook", 2, tax); u3_cv_punt(blu, tab_l, u3k(u3t(mok))); u3z(mok); } /* u3_cv_plan(): queue ovum (external). */ void u3_cv_plan(u3_noun pax, u3_noun fav) { u3_noun egg = u3nc(pax, fav); u3A->roe = u3nc(u3nc(u3_nul, egg), u3A->roe); } /* u3_cv_plow(): queue multiple ova (external). */ void u3_cv_plow(u3_noun ova) { u3_noun ovi = ova; while ( u3_nul != ovi ) { u3_noun ovo=u3h(ovi); u3_cv_plan(u3k(u3h(ovo)), u3k(u3t(ovo))); ovi = u3t(ovi); } u3z(ova); } /* u3_cv_louse(): last-minute deviltry upon a bail. */ void u3_cv_louse(c3_m how_m) { #if 0 if ( c3__exit == how_m ) { printf("louse: nocks: %d\n", NOX); printf("louse: washing kernel %x %d\n", u3A->ken, u3_ca_is_dog(u3A->ken)); u3_cm_wash(u3A->ken); printf("kernel %x; washed mug %x\n", u3A->ken, u3_cr_mug(u3A->ken)); } #endif } /* _cv_mark_ova(): mark ova queue. */ static void _cv_mark_ova(u3p(u3_cs_cart) egg_p) { while ( egg_p ) { u3_cs_cart* egg_u = u3to(u3_cs_cart, egg_p); u3_ca_mark_ptr(egg_u); u3_ca_mark_noun(egg_u->vir); egg_p = egg_u->nex_p; } } /* u3_cv_mark(): mark arvo kernel. */ void u3_cv_mark(void) { u3_cs_arvo* arv_u = &(u3H->arv_u); u3_ca_mark_noun(arv_u->yot); u3_ca_mark_noun(arv_u->now); u3_ca_mark_noun(arv_u->wen); u3_ca_mark_noun(arv_u->sen); u3_ca_mark_noun(arv_u->own); u3_ca_mark_noun(arv_u->roe); u3_ca_mark_noun(arv_u->key); u3_ca_mark_noun(arv_u->ken); u3_ca_mark_noun(arv_u->roc); _cv_mark_ova(arv_u->ova.egg_p); }