/* g/j.c ** */ #include "all.h" #if defined(U3_OS_osx) #include #else #include #endif /** Data structures. **/ /* _cj_hank: cached hook information. */ typedef struct { u3_weak hax; // axis of hooked inner core u3j_site sit_u; // call-site data } _cj_hank; /** Functions. **/ /* _cj_count(): count and link dashboard entries. */ static c3_w _cj_count(u3j_core* par_u, u3j_core* dev_u) { c3_w len_l = 0; c3_w i_w; if ( dev_u ) { for ( i_w = 0; 0 != dev_u[i_w].cos_c; i_w++ ) { u3j_core* kid_u = &dev_u[i_w]; if ( par_u ) { kid_u->par_u = par_u; } len_l += _cj_count(kid_u, kid_u->dev_u); } } return 1 + len_l; } /* _cj_core_loc(): location noun from u3j_core. */ static u3_noun _cj_core_loc(u3_noun pel, u3j_core* cop_u) { c3_w i_w; u3_noun nam = u3i_string(cop_u->cos_c), huc = u3_nul, pat; if ( cop_u->huc_u ) { for ( i_w = 0; 0 != cop_u->huc_u[i_w].nam_c; ++i_w ) { u3j_hood* huc_u = &(cop_u->huc_u[i_w]); u3_noun fol = ( c3n == huc_u->kic_o ) ? u3nc(0, huc_u->axe_l) : u3nt(9, huc_u->axe_l, u3nc(0, (0 == huc_u->sax_l) ? 1 : huc_u->sax_l)); huc = u3kdb_put(huc, u3i_string(huc_u->nam_c), fol); } } pat = ( 0 == cop_u->axe_l ) ? u3nt(c3y, c3y, pel) : ( (3 == cop_u->axe_l) && (c3y == u3h(u3h(pel))) ) ? u3nt(c3y, c3n, pel) : u3nt(c3n, cop_u->axe_l, pel); return u3nt(pat, nam, huc); } /* _cj_hash(): noun from pasted-in battery hash */ static u3_noun _cj_hash(c3_c* has_c) { c3_w i_w, len_w = strlen(has_c); if ( 64 != len_w ) { fprintf(stderr, "bash not 64 characters: %s\r\n", has_c); c3_assert(0); } c3_assert( 64 == len_w ); c3_y dig_y[32]; for ( i_w = 0; i_w < 64; ) { c3_y hi_y = has_c[i_w++], lo_y = has_c[i_w++], hid_y = hi_y >= 'a' ? (hi_y - 'a') + 10 : hi_y - '0', lod_y = lo_y >= 'a' ? (lo_y - 'a') + 10 : lo_y - '0'; dig_y[32-(i_w>>1)] = hid_y << 4 | lod_y; } u3_noun pro = u3i_bytes(32, dig_y); return pro; } // in the jam jet file c3_w* u3qe_jam_buf(u3_noun, c3_w* bit_w); /* _cj_bash(): battery hash. RETAIN. */ static u3_noun _cj_bash(u3_noun bat) { if ( u3C.wag_w & u3o_hashless ) { return u3_nul; } u3_weak pro; u3a_road* rod_u = u3R; while ( 1 ) { pro = u3h_get(rod_u->jed.bas_p, bat); if ( u3_none != pro ) { break; } if ( rod_u->par_p ) { rod_u = u3to(u3_road, rod_u->par_p); } else { c3_w bit_w, met_w; c3_w* wor_w; c3_y* fat_y; c3_y dig_y[32]; wor_w = u3qe_jam_buf(bat, &bit_w); met_w = bit_w >> 3; if ( bit_w != met_w << 3 ) { ++met_w; } // assume little-endian fat_y = (c3_y*) wor_w; #if defined(U3_OS_osx) CC_SHA256_CTX ctx_h; CC_SHA256_Init(&ctx_h); CC_SHA256_Update(&ctx_h, fat_y, met_w); CC_SHA256_Final(dig_y, &ctx_h); #else SHA256_CTX ctx_h; SHA256_Init(&ctx_h); SHA256_Update(&ctx_h, fat_y, met_w); SHA256_Final(dig_y, &ctx_h); #endif pro = u3i_bytes(32, dig_y); u3h_put(u3R->jed.bas_p, bat, u3k(pro)); u3a_wfree(wor_w); break; } } return pro; } /* _cj_mine_par_old(): register hooks and parent location within existing * axis in ancestor list or u3_none. */ static u3_weak _cj_mine_par_old(u3_noun lan, u3_noun axe, u3_noun pel, u3_noun loc) { u3_noun par; u3_weak pro; if ( u3_nul == lan ) { pro = u3_none; u3z(axe); u3z(pel); u3z(loc); } else if ( c3y == u3r_sing(axe, u3h(par = u3h(lan))) ) { u3_noun lol = u3kdb_put(u3k(u3t(par)), pel, loc), rap = u3nc(axe, lol); pro = u3nc(rap, u3k(u3t(lan))); } else { u3_weak nex = _cj_mine_par_old(u3k(u3t(lan)), axe, pel, loc); if ( u3_none == nex ) { pro = u3_none; } else { pro = u3nc(u3k(par), nex); } } u3z(lan); return pro; } /* _cj_mine_par_new(): insert ancestor within lan at sorted index. */ static u3_noun _cj_mine_par_new(u3_noun lan, u3_noun axe, u3_noun pel, u3_noun loc) { u3_weak pro; if ( (u3_nul == lan) || (c3y == u3qa_lth(axe, u3h(u3h(lan)))) ) { u3_noun par = u3nc(axe, u3kdb_put(u3_nul, pel, loc)); pro = u3nc(par, lan); } else { pro = u3nc(u3k(u3h(lan)), _cj_mine_par_new(u3k(u3t(lan)), axe, pel, loc)); u3z(lan); } return pro; } /* _cj_mine_par(): register a location as an ancestor * in a list of ancestors. */ static u3_noun _cj_mine_par(u3_noun lan, u3_noun axe, u3_noun pel, u3_noun loc) { u3_weak old = _cj_mine_par_old(u3k(lan), u3k(axe), u3k(pel), u3k(loc)); if ( u3_none != old ) { u3z(lan); u3z(axe); u3z(pel); u3z(loc); return old; } else { return _cj_mine_par_new(lan, axe, pel, loc); } } /* _cj_gust(): add location to registry. */ static u3_noun _cj_gust(u3_weak reg, u3_noun axe, u3_noun pel, u3_noun loc) { u3_noun ger; if ( u3_none == reg ) { reg = u3nc(u3_nul, u3_nul); } ger = ( 0 == axe ) ? u3nc(u3kdb_put(u3k(u3h(reg)), pel, loc), u3k(u3t(reg))) : u3nc(u3k(u3h(reg)), _cj_mine_par(u3k(u3t(reg)), axe, pel, loc)); u3z(reg); return ger; } /* _cj_axis(): axis from formula, or 0. `fol` is RETAINED. */ static c3_l _cj_axis(u3_noun fol) { u3_noun p_fol, q_fol, r_fol; while ( _(u3du(fol)) && (11 == u3h(fol)) ) { fol = u3t(u3t(fol)); } if ( !_(u3r_trel(fol, &p_fol, &q_fol, &r_fol)) ) { if ( !_(u3r_cell(fol, &p_fol, &q_fol)) || (0 != p_fol) || (!_(u3a_is_cat(q_fol))) ) { fprintf(stderr, "axis: bad a\r\n"); return 0; } return q_fol; } else { if ( 9 != p_fol ) { fprintf(stderr, "axis: bad b\r\n"); return 0; } if ( !_(u3a_is_cat(q_fol)) ) { fprintf(stderr, "axis: bad c\r\n"); return 0; } if ( !_(u3du(r_fol)) || (0 != u3h(r_fol)) || (1 != u3t(r_fol)) ) { fprintf(stderr, "axis: bad d\r\n"); return 0; } return q_fol; } } /* _cj_warm_hump(): generate axis-to-arm map. RETAIN. */ static u3_noun _cj_warm_hump(c3_l jax_l, u3_noun huc) { u3_noun hap = u3_nul; u3j_core* cop_u; /* Compute axes of all correctly declared arms. */ if ( jax_l && (cop_u = &u3D.ray_u[jax_l])->arm_u ) { u3j_harm* jet_u; c3_l i_l; for ( i_l = 0; (jet_u = &cop_u->arm_u[i_l])->fcs_c; i_l++ ) { c3_l axe_l = 0; if ( '.' == *(jet_u->fcs_c) ) { c3_d axe_d = 0; if ( (1 != sscanf(jet_u->fcs_c+1, "%" SCNu64, &axe_d)) || axe_d >> 32ULL || ((1 << 31) & (axe_l = (c3_w)axe_d)) || (axe_l < 2) ) { fprintf(stderr, "jets: activate: bad fcs %s\r\n", jet_u->fcs_c); } } else { u3_noun nam = u3i_string(jet_u->fcs_c); u3_noun fol = u3kdb_get(u3k(huc), nam); if ( u3_none == fol ) { fprintf(stderr, "jets: activate: bad fcs %s\r\n", jet_u->fcs_c); } else { axe_l = _cj_axis(fol); u3z(fol); } } if ( 0 != axe_l ) { hap = u3kdb_put(hap, axe_l, i_l); } } } return hap; } /* _cj_install(): install dashboard entries. */ static c3_w _cj_install(u3j_core* ray_u, c3_w jax_l, u3_noun pel, u3_noun lab, u3j_core* dev_u) { c3_w i_w; c3_assert(u3R == &(u3H->rod_u)); if ( dev_u ) { for ( i_w = 0; 0 != dev_u[i_w].cos_c; i_w++ ) { u3j_core* kid_u = &dev_u[i_w]; u3_noun loc = _cj_core_loc(u3k(pel), kid_u), bal = u3nc(u3k(u3h(u3t(loc))), u3k(lab)); kid_u->jax_l = jax_l; ray_u[jax_l] = *kid_u; if ( kid_u->bas_u ) { c3_w j_w; for ( j_w = 0; 0 != kid_u->bas_u[j_w]; j_w++ ) { u3_noun key = _cj_hash(kid_u->bas_u[j_w]), hot = u3h_get(u3R->jed.hot_p, key), old = ( u3_none == hot ) ? u3_none : u3k(u3h(hot)), reg = _cj_gust(old, kid_u->axe_l, u3k(pel), u3k(loc)), huc = u3t(u3t(loc)), hap = _cj_warm_hump(jax_l, huc), toh = u3nq(reg, jax_l, hap, u3k(bal)); u3h_put(u3R->jed.hot_p, key, toh); u3z(key); u3z(hot); } } jax_l = _cj_install(ray_u, ++jax_l, loc, bal, kid_u->dev_u); } } u3z(pel); u3z(lab); return jax_l; } #if 0 /* _cj_by_gut(): (~(get by a) b), unifying; RETAINS a, b, AND result. */ static u3_weak _cj_by_gut(u3_noun a, u3_noun b) { if ( u3_nul == a ) { return u3_none; } else { u3_noun l_a, n_a, r_a; u3_noun pn_a, qn_a; u3x_trel(a, &n_a, &l_a, &r_a); u3x_cell(n_a, &pn_a, &qn_a); { if ( (c3y == u3r_sing(b, pn_a)) ) { return qn_a; } else { if ( c3y == u3qc_gor(b, pn_a) ) { return _cj_by_gut(l_a, b); } else return _cj_by_gut(r_a, b); } } } } #endif /* _cj_chum(): decode chum as string. */ static c3_c* _cj_chum(u3_noun chu) { if ( _(u3ud(chu)) ) { return u3r_string(chu); } else { u3_noun h_chu = u3h(chu); u3_noun t_chu = u3t(chu); if ( !_(u3a_is_cat(t_chu)) ) { return 0; } else { c3_c* h_chu_c = u3r_string(h_chu); c3_c buf[33]; memset(buf, 0, 33); snprintf(buf, 32, "%s%d", h_chu_c, t_chu); free(h_chu_c); return strdup(buf); } } } /* _cj_je_fsck: fsck:je, or none. */ static u3_noun _cj_je_fsck(u3_noun clu) { u3_noun p_clu, q_clu, r_clu; u3_noun huk; c3_c* nam_c; c3_l axe_l; if ( c3n == u3r_trel(clu, &p_clu, &q_clu, &r_clu) ) { u3z(clu); return u3_none; } if ( 0 == (nam_c = _cj_chum(p_clu)) ) { u3z(clu); return u3_none; } while ( _(u3du(q_clu)) && (11 == u3h(q_clu)) ) { q_clu = u3t(u3t(q_clu)); } if ( !_(u3du(q_clu)) ) { u3z(clu); free(nam_c); return u3_none; } if ( (1 == u3h(q_clu)) && (0 == u3t(q_clu)) ) { axe_l = 0; } else { if ( (0 != u3h(q_clu)) || !_(u3a_is_cat(axe_l = u3t(q_clu))) ) { u3z(clu); free(nam_c); return u3_none; } } { huk = 0; while ( _(u3du(r_clu)) ) { u3_noun ir_clu, tr_clu, pir_clu, qir_clu; if ( (c3n == u3r_cell(r_clu, &ir_clu, &tr_clu)) || (c3n == u3r_cell(ir_clu, &pir_clu, &qir_clu)) || (c3n == u3ud(pir_clu)) ) { u3z(huk); u3z(clu); free(nam_c); return u3_none; } huk = u3kdb_put(huk, u3k(pir_clu), u3k(qir_clu)); r_clu = tr_clu; } } u3z(clu); return u3nt(u3i_string(nam_c), axe_l, huk); } /* _cj_find_cold(): search cold state for `bat`s [bash registry]. * RETAIN. */ static u3_weak _cj_find_cold(u3_noun bat) { u3a_road* rod_u = u3R; while ( 1 ) { u3_weak bar = u3h_gut(rod_u->jed.cod_p, bat); if ( u3_none != bar ) { return bar; } if ( rod_u->par_p ) { rod_u = u3to(u3_road, rod_u->par_p); } else return u3_none; } } /* _cj_find_warm(): search warm state for `loc`s activation. * RETAIN. */ static u3_weak _cj_find_warm(u3_noun loc) { u3a_road* rod_u = u3R; while ( 1 ) { u3_weak ank = u3h_gut(rod_u->jed.war_p, loc); if ( u3_none != ank ) { return ank; } if ( rod_u->par_p ) { rod_u = u3to(u3_road, rod_u->par_p); } else return u3_none; } } static u3_weak _cj_spot(u3_noun cor, u3_weak* bas); /* _cj_reg_find(): locate core within registry. RETAIN. */ static u3_weak _cj_reg_find(u3_noun reg, u3_noun cor) { u3_noun rut = u3h(reg), pas = u3t(reg), rum = u3qdb_get(rut, u3t(cor)); if ( u3_nul != rum ) { u3_noun loc = u3k(u3t(rum)); u3z(rum); return loc; } else { while ( u3_nul != pas ) { u3_noun pap = u3h(pas), axe = u3h(pap), lol = u3t(pap); u3_weak par = u3r_at(axe, cor), pel; if ( u3_none != par ) { pel = _cj_spot(par, NULL); if ( u3_none != pel ) { u3_noun nit = u3qdb_get(lol, pel); u3z(pel); if ( u3_nul != nit ) { u3_noun loc = u3k(u3t(nit)); u3z(nit); return loc; } } } pas = u3t(pas); } return u3_none; } } /* _cj_jit(): generate arbitrary warm jet-associated data. RETAIN. */ static u3_noun _cj_jit(c3_l jax_l, u3_noun bat) { return u3_nul; } /* _cj_loc_axe(): axis-within-core from location (0 for root). RETAIN. */ static u3_noun _cj_loc_axe(u3_noun loc) { u3_noun pat = u3h(loc); return ( c3n == u3h(pat) ) ? u3k(u3h(u3t(pat))) : (c3y == u3h(u3t(pat))) ? 0 : 3; } /* _cj_loc_pel(): parent location (or root noun, if root) of loc. RETAIN. */ static u3_noun _cj_loc_pel(u3_noun loc) { return u3k(u3t(u3t(u3h(loc)))); } /* _cj_spot_cold(): spot, cold dashboard only. *bar is set to * the [bash registry] found for battery. RETAIN. */ static u3_weak _cj_spot_cold(u3_noun cor, u3_weak* bar) { *bar = _cj_find_cold(u3h(cor)); if ( u3_none == *bar ) { return u3_none; } else { return _cj_reg_find(u3t(*bar), cor); } } /* _cj_spot_hot(): try to locate core by hot dashboard. if found, * the activation (warm state) is returned and the * location is produced at *loc. RETAIN. */ static u3_weak _cj_spot_hot(u3_noun cor, u3_noun bas, u3_noun* loc) { u3_noun bat = u3h(cor); u3_weak act = u3_none, hot = u3h_get(u3H->rod_u.jed.hot_p, bas); if ( u3_none != hot ) { u3_noun reg, jax, hap, bal; c3_l jax_l; u3x_qual(hot, ®, &jax, &hap, &bal); jax_l = (c3_l) jax; if ( u3_none != (*loc = _cj_reg_find(reg, cor)) ) { act = u3nq(jax_l, u3k(hap), u3k(bal), _cj_jit(jax_l, bat)); } u3z(hot); } return act; } /* _cj_spot(): find location of cor. expensive. RETAIN. * bas is complicated to make it easy to cache bashes. * you can safely ignore it by passing NULL. Otherwise, * if it points to u3_none, and no location is found, * a bash will be PRODUCED there. if it contains a bash, * that will be used instead of calling _cj_bash. */ static u3_weak _cj_spot(u3_noun cor, u3_weak* bas) { u3_weak bak = u3_none, bar = u3_none, reg = u3_none, loc = _cj_spot_cold(cor, &bar); if ( NULL == bas ) { bas = &bak; } if ( u3_none != bar ) { if ( (u3_none == *bas) ) { *bas = u3k(u3h(bar)); } reg = u3k(u3t(bar)); u3z(bar); } if ( u3_none == loc ) { if ( u3_none == *bas ) { *bas = _cj_bash(u3h(cor)); } if ( !(u3C.wag_w & u3o_hashless) ) { u3_weak act = _cj_spot_hot(cor, *bas, &loc); if ( u3_none != act ) { reg = _cj_gust(reg, _cj_loc_axe(loc), _cj_loc_pel(loc), u3k(loc)); u3h_put(u3R->jed.cod_p, u3h(cor), u3nc(u3k(*bas), u3k(reg))); /* caution: could overwrites old value, debug batteries etc. ** old value contains old _cj_jit (from different ** battery). if we change jit to (map battery *), ** will need to merge with that map here. */ u3h_put(u3R->jed.war_p, loc, act); } } } if ( u3_none != bak ) { u3z(bak); } if ( u3_none != reg ) { u3z(reg); } return loc; } /* _cj_cast(): create a u3j_fink that can be used to efficiently verify * that another core is located where this one is. RETAIN. */ static u3p(u3j_fink) _cj_cast(u3_noun cor, u3_noun loc) { c3_w i_w = 0; u3_noun j, par, bat, dyn, pax, rev = u3_nul, pat = u3h(loc); u3j_fink* fin_u; while ( c3n == u3h(pat) ) { bat = u3h(cor); dyn = u3t(pat); pax = u3h(dyn); loc = u3t(dyn); pat = u3h(loc); rev = u3nc(u3nc(u3k(bat), u3k(pax)), rev); // pax already known-valid cor = u3r_at(pax, cor); ++i_w; } fin_u = u3a_walloc(c3_wiseof(u3j_fink) + (i_w * c3_wiseof(u3j_fist))); fin_u->len_w = i_w; fin_u->sat = u3k(cor); for ( j = rev; i_w-- > 0; j = u3t(j) ) { u3j_fist* fis_u = &(fin_u->fis_u[i_w]); par = u3h(j); fis_u->bat = u3k(u3h(par)); fis_u->pax = u3k(u3t(par)); } u3z(rev); c3_assert( u3_nul == j ); return u3of(u3j_fink, fin_u); } /* _cj_fine(): check that a core matches a u3j_fink. RETAIN. */ static c3_o _cj_fine(u3_noun cor, u3p(u3j_fink) fin_p) { u3j_fink* fin_u = u3to(u3j_fink, fin_p); c3_w i_w; for ( i_w = 0; i_w < fin_u->len_w; ++i_w ) { u3j_fist* fis_u = &(fin_u->fis_u[i_w]); if ( c3n == u3r_sing(fis_u->bat, u3h(cor)) ) { return c3n; } else { cor = u3r_at(fis_u->pax, cor); } } return u3r_sing(fin_u->sat, cor); } /* _cj_nail(): resolve hot state for arm at axis within cores located * at loc. a label will be PRODUCED at *lab, unconditionally. * Arguments are RETAINED. Return value is yes if a jet driver * is present. */ static c3_o _cj_nail(u3_noun loc, u3_noun axe, u3_noun* lab, u3j_core** cop_u, u3j_harm** ham_u) { c3_o ret_o; u3_noun jax, hap, bal, jit; u3_weak act; act = _cj_find_warm(loc); c3_assert(u3_none != act); u3x_qual(act, &jax, &hap, &bal, &jit); *lab = u3k(bal); if ( 0 == jax ) { ret_o = c3n; } else { u3_weak inx = u3kdb_get(u3k(hap), u3k(axe)); if ( u3_none == inx ) { ret_o = c3n; } else { c3_l jax_l = jax, inx_l = inx; *cop_u = &(u3D.ray_u[jax_l]); *ham_u = &((*cop_u)->arm_u[inx_l]); ret_o = c3y; } } u3z(act); return ret_o; } /* _cj_hot_mean(): in parent, declare a core. RETAINS. */ static c3_l _cj_hot_mean(c3_l par_l, u3_noun nam) { u3j_core* par_u; u3j_core* dev_u; if ( 0 != par_l ) { par_u = &u3D.ray_u[par_l]; dev_u = par_u->dev_u; } else { par_u = 0; dev_u = u3D.dev_u; } { c3_w i_l = 0; u3j_core* cop_u; while ( (cop_u = &dev_u[i_l])->cos_c ) { if ( _(u3r_sing_c(cop_u->cos_c, nam)) ) { #if 0 fprintf(stderr, "hot: bound jet %d/%s/%s/\r\n", cop_u->jax_l, cop_u->cos_c, par_u ? par_u->cos_c : "~"); #endif return cop_u->jax_l; } i_l++; } } return 0; } /* u3j_boot(): initialize jet system. */ void u3j_boot(c3_o nuu_o) { c3_w jax_l; c3_assert(u3R == &(u3H->rod_u)); u3D.len_l =_cj_count(0, u3D.dev_u); u3D.all_l = (2 * u3D.len_l) + 1024; // horrid heuristic u3D.ray_u = (u3j_core*) malloc(u3D.all_l * sizeof(u3j_core)); memset(u3D.ray_u, 0, (u3D.all_l * sizeof(u3j_core))); if ( c3n == nuu_o ) { u3h_free(u3R->jed.hot_p); } u3R->jed.hot_p = u3h_new(); jax_l = _cj_install(u3D.ray_u, 1, (c3_l) (long long) u3D.dev_u[0].par_u, u3_nul, u3D.dev_u); fprintf(stderr, "boot: installed %d jets\n", jax_l); } /* _cj_soft(): kick softly by arm axis. */ static u3_noun _cj_soft(u3_noun cor, u3_noun axe) { u3_noun arm = u3x_at(axe, cor); return u3n_nock_on(cor, u3k(arm)); } void find_error(u3_noun cor, u3_noun old, u3_noun new); /* _cj_kick_z(): try to kick by jet. If no kick, produce u3_none. ** ** `cor` is RETAINED iff there is no kick, TRANSFERRED if one. ** `axe` is RETAINED. */ static u3_weak _cj_kick_z(u3_noun cor, u3j_core* cop_u, u3j_harm* ham_u, u3_atom axe) { if ( 0 == ham_u->fun_f ) { return u3_none; } if ( !_(ham_u->liv) ) { return u3_none; } else { #ifdef U3_MEMORY_DEBUG c3_w cod_w; { char soc_c[5]; memset(soc_c, 0, 5); strncpy(soc_c, cop_u->cos_c, 4); soc_c[4] = 0; cod_w = u3i_string(soc_c); cod_w = u3a_lush(cod_w); } #endif if ( _(ham_u->ice) ) { u3_weak pro = ham_u->fun_f(cor); #ifdef U3_MEMORY_DEBUG u3a_lop(cod_w); #endif if ( u3_none != pro ) { u3z(cor); return pro; } } else { u3_weak pro, ame; ham_u->ice = c3y; pro = ham_u->fun_f(cor); ham_u->ice = c3n; #ifdef U3_MEMORY_DEBUG u3a_lop(cod_w); #endif if ( u3_none == pro ) { u3z(cor); return pro; } ham_u->liv = c3n; ame = _cj_soft(cor, axe); ham_u->liv = c3y; if ( c3n == u3r_sing(ame, pro) ) { fprintf(stderr, "test: %s %s: mismatch: good %x, bad %x\r\n", cop_u->cos_c, (!strcmp(".2", ham_u->fcs_c)) ? "$" : ham_u->fcs_c, u3r_mug(ame), u3r_mug(pro)); ham_u->liv = c3n; c3_assert(0); return u3m_bail(c3__fail); } else { #if 1 fprintf(stderr, "test: %s %s\r\n", cop_u->cos_c, (!strcmp(".2", ham_u->fcs_c)) ? "$" : ham_u->fcs_c); #endif u3z(ame); return pro; } } return u3_none; } } /* _cj_hook_in(): execute hook from core, or fail. */ static u3_noun _cj_hook_in(u3_noun cor, const c3_c* tam_c, c3_o jet_o) { u3_weak loc, col; u3_noun roc, tem, got, pat, nam, huc; if ( c3n == u3du(cor) ) { return u3m_bail(c3__fail); } loc = _cj_spot(cor, NULL); if ( u3_none == loc ) { return u3m_bail(c3__fail); } tem = u3i_string(tam_c); while ( 1 ) { u3x_trel(loc, &pat, &nam, &huc); got = u3qdb_get(huc, tem); if ( u3_nul != got ) { c3_l axe_l; u3_noun pro, fol; u3j_core* cop_u; u3z(tem); fol = u3k(u3t(got)); u3z(got); axe_l = _cj_axis(fol); if ( 0 == axe_l ) { u3t_off(glu_o); pro = u3n_nock_on(cor, fol); u3t_on(glu_o); } else { c3_l jax_l, inx_l; u3_noun hap, act; u3z(fol); act = _cj_find_warm(loc); jax_l = u3h(act); hap = u3h(u3t(act)); cop_u = &u3D.ray_u[jax_l]; // Tricky: the above case would work here too, but would // disable jet_o and create some infinite recursions. // u3t_off(glu_o); if ( (c3n == jet_o) || (u3_none == (inx_l = u3kdb_get(u3k(hap), axe_l))) || (u3_none == (pro = _cj_kick_z(cor, cop_u, &cop_u->arm_u[inx_l], axe_l))) ) { pro = u3n_nock_on(cor, u3k(u3x_at(axe_l, cor))); } u3t_on(glu_o); u3z(act); } u3z(loc); return pro; } else if ( c3n == u3h(pat) ) { u3_noun dyn = u3t(pat), axe = u3h(dyn), pel = u3t(dyn); // axe already known-valid roc = u3k(u3r_at(axe, cor)); u3z(cor); cor = roc; col = u3k(pel); u3z(loc); loc = col; } else { u3_noun sat = u3t(pat); if ( c3y == u3h(sat) ) { return u3m_bail(c3__fail); } else { col = u3k(u3t(sat)); u3z(loc); loc = col; roc = u3k(u3t(cor)); u3z(cor); cor = roc; } } } } /* u3j_soft(): execute soft hook. */ u3_noun u3j_soft(u3_noun cor, const c3_c* tam_c) { u3_noun pro; u3t_on(glu_o); pro = _cj_hook_in(cor, tam_c, c3n); u3t_off(glu_o); return pro; } /* u3j_hook(): execute hook from core, or fail. */ u3_noun u3j_hook(u3_noun cor, const c3_c* tam_c) { u3_noun pro; u3t_on(glu_o); pro = _cj_hook_in(cor, tam_c, c3y); u3t_off(glu_o); return pro; } /* _cj_prog(): stop tracing glu and find a nock program */ static u3p(u3n_prog) _cj_prog(u3_weak loc, u3_noun fol) { u3p(u3n_prog) pog_p; u3t_off(glu_o); pog_p = u3n_find((loc == u3_none ? u3_nul : loc), fol); u3t_on(glu_o); return pog_p; } /* cj_hank_find(): find cached hook information, keyed by arbitrary * prefix and term cords. RETAIN. */ static _cj_hank* _cj_hank_find(u3_noun pre, u3_noun tam) { u3_noun key = u3nc(u3k(pre), u3k(tam)); u3_noun got = u3h_git(u3R->jed.han_p, key); if ( u3_none != got ) { u3z(key); return u3to(_cj_hank, got); } else { _cj_hank* new_u = u3a_walloc(c3_wiseof(_cj_hank)); u3a_road* rod_u = u3R; while ( rod_u->par_p && u3_none == got ) { rod_u = u3to(u3a_road, rod_u->par_p); got = u3h_git(u3R->jed.han_p, key); } if ( u3_none == got ) { new_u->hax = u3_none; } else { _cj_hank* old_u = u3to(_cj_hank, got); if ( u3_none != (new_u->hax = old_u->hax) ) { u3j_site_copy(&(new_u->sit_u), &(old_u->sit_u), c3n); } } u3h_put(u3R->jed.han_p, key, u3a_outa(new_u)); u3z(key); return new_u; } } /* _cj_hank_fine(): check that cached hook information is valid * for given core. *inn will point to the hooked * core on return if valid. RETAIN. */ static c3_o _cj_hank_fine(_cj_hank* han_u, u3_noun cor, u3_noun *inn) { u3_noun hax = han_u->hax; if ( u3_none == hax ) { return c3n; } else { *inn = u3r_at(hax, cor); if ( u3_none == *inn ) { return c3n; } else { u3j_site* sit_u = &(han_u->sit_u); c3_assert(u3_none != sit_u->loc); return _cj_fine(*inn, sit_u->fin_p); } } } /* _cj_hank_lose(): release memory maintained in a hook cache. */ static void _cj_hank_lose(_cj_hank* han_u) { if ( u3_none != han_u->hax ) { u3z(han_u->hax); u3j_site_lose(&(han_u->sit_u)); } } /* _cj_hank_fill(): slow path, populate han_u. */ static u3_noun _cj_hank_fill(_cj_hank* han_u, u3_noun tam, u3_noun cor) { u3_weak loc, col; u3_noun got, pat, nam, huc; u3_noun hax = 1; u3j_site* sit_u = &(han_u->sit_u); if ( c3n == u3du(cor) ) { return u3m_bail(c3__fail); } sit_u->bas = u3_none; if ( u3_none == (col = loc = _cj_spot(cor, NULL)) ) { return u3m_bail(c3__fail); } while ( 1 ) { u3x_trel(loc, &pat, &nam, &huc); got = u3qdb_get(huc, tam); if ( u3_nul != got ) { u3_noun fol = u3k(u3t(got)); u3z(got); sit_u->bat = u3k(u3h(cor)); sit_u->loc = u3k(loc); sit_u->fin_p = _cj_cast(cor, loc); sit_u->fon_o = c3y; if ( 0 == (sit_u->axe = _cj_axis(fol)) ) { sit_u->jet_o = c3n; sit_u->pog_p = _cj_prog(loc, fol); } else { // loc already known-valid han_u->sit_u.pog_p = _cj_prog(loc, u3r_at(sit_u->axe, cor)); han_u->sit_u.jet_o = _cj_nail(loc, sit_u->axe, &(sit_u->lab), &(sit_u->cop_u), &(sit_u->ham_u)); } u3z(fol); u3z(col); han_u->hax = hax; return cor; } else if ( c3n == u3h(pat) ) { u3_noun dyn = u3t(pat), axe = u3h(dyn), xah; // axe already known-valid cor = u3r_at(axe, cor); loc = u3t(dyn); xah = u3qc_peg(axe, hax); u3z(hax); hax = xah; } else { u3_noun sat = u3t(pat); if ( c3y == u3h(sat) ) { return u3m_bail(c3__fail); } else { u3_noun xah; cor = u3t(cor); loc = u3t(sat); xah = u3qc_peg(3, hax); u3z(hax); hax = xah; } } } } /* _cj_sink(): kick by nock. */ static u3_noun _cj_sink(u3_noun cor, u3_noun axe) { u3_noun fol = u3x_at(axe, cor); u3z(axe); return u3n_nock_on(cor, u3k(fol)); } /* u3j_kick(): new kick. ** ** `axe` is RETAINED by the caller; `cor` is RETAINED iff there ** is no kick, TRANSFERRED if one. */ u3_weak u3j_kick(u3_noun cor, u3_noun axe) { u3t_on(glu_o); u3_weak loc = _cj_spot(cor, NULL); if ( u3_none == loc ) { u3t_off(glu_o); return u3_none; } else { u3_weak act = _cj_find_warm(loc); u3z(loc); if ( u3_none == act ) { u3t_off(glu_o); return u3_none; } else { c3_l jax_l; u3_noun hap, bal, jit, inx; u3x_qual(act, &jax_l, &hap, &bal, &jit); if ( u3_none == (inx = u3kdb_get(u3k(hap), u3k(axe))) ) { u3t_off(glu_o); { c3_o pof_o = __(u3C.wag_w & u3o_debug_cpu); if ( _(pof_o) ) { pof_o = u3t_come(bal); } u3z(act); if ( _(pof_o) ) { u3_noun pro = _cj_sink(cor, u3k(axe)); u3t_flee(); return pro; } else { return u3_none; } } } else { u3j_core* cop_u = &u3D.ray_u[jax_l]; c3_l inx_l = inx; u3j_harm* ham_u = &cop_u->arm_u[inx_l]; c3_o pof_o = __(u3C.wag_w & u3o_debug_cpu); u3_noun pro; if ( _(pof_o) ) { pof_o = u3t_come(bal); } u3z(act); u3t_off(glu_o); pro = _cj_kick_z(cor, cop_u, ham_u, axe); if ( u3_none == pro ) { if ( _(pof_o) ) { pro = _cj_sink(cor, u3k(axe)); u3t_flee(); return pro; } else return u3_none; } else { if ( _(pof_o) ) { u3t_flee(); } return pro; } } } } } /* _cj_fink_take(): copy u3j_fink from junior road. */ static u3j_fink* _cj_fink_take(u3j_fink* jun_u) { c3_w i_w, len_w = jun_u->len_w; u3j_fink* fin_u = u3a_walloc(c3_wiseof(u3j_fink) + (len_w * c3_wiseof(u3j_fist))); fin_u->len_w = len_w; fin_u->sat = u3a_take(jun_u->sat); for ( i_w = 0; i_w < len_w; ++i_w ) { u3j_fist* fis_u = &(fin_u->fis_u[i_w]); u3j_fist* sif_u = &(jun_u->fis_u[i_w]); fis_u->bat = u3a_take(sif_u->bat); fis_u->pax = u3a_take(sif_u->pax); } return fin_u; } /* _cj_fink_free(): lose and free everything in a u3j_fink. */ static void _cj_fink_free(u3p(u3j_fink) fin_p) { c3_w i_w; u3j_fink* fin_u = u3to(u3j_fink, fin_p); u3z(fin_u->sat); for ( i_w = 0; i_w < fin_u->len_w; ++i_w ) { u3j_fist* fis_u = &(fin_u->fis_u[i_w]); u3z(fis_u->bat); u3z(fis_u->pax); } u3a_wfree(fin_u); } /* u3j_rite_copy(): copy rite references from src_u to dst_u, ** losing old references if los_o is yes */ void u3j_rite_copy(u3j_rite* dst_u, u3j_rite* src_u, c3_o los_o) { if ( u3_none == src_u->clu ) { dst_u->clu = u3_none; dst_u->fin_p = 0; } else { u3p(u3j_fink) fon_p = dst_u->fin_p; u3_noun old = dst_u->clu; c3_o own_o = dst_u->own_o; if ( c3y == src_u->own_o ) { dst_u->own_o = c3y; dst_u->clu = u3a_take(src_u->clu); dst_u->fin_p = u3of(u3j_fink, _cj_fink_take(u3to(u3j_fink, src_u->fin_p))); if ( (c3y == los_o) && (u3_none != old) && (c3y == own_o) ) { u3z(old); _cj_fink_free(fon_p); } } } } /* u3j_site_copy(): copy site references from src_u to dst_u, ** losing old references if los_o is yes */ void u3j_site_copy(u3j_site* dst_u, u3j_site* src_u, c3_o los_o) { u3_noun old = dst_u->axe; dst_u->axe = u3a_take(src_u->axe); if ( c3y == los_o ) { u3z(old); } else { dst_u->bat = u3_none; dst_u->bas = u3_none; dst_u->pog_p = 0; dst_u->loc = u3_none; dst_u->lab = u3_none; dst_u->jet_o = c3n; dst_u->fon_o = c3n; dst_u->cop_u = NULL; dst_u->ham_u = NULL; dst_u->fin_p = 0; } if ( u3_none != src_u->loc ) { u3_noun lob = dst_u->lab, lod = dst_u->loc; c3_o fon_o = dst_u->fon_o; u3p(u3j_fink) fon_p = dst_u->fin_p; dst_u->loc = u3a_take(src_u->loc); dst_u->lab = u3a_take(src_u->lab); dst_u->cop_u = src_u->cop_u; dst_u->ham_u = src_u->ham_u; dst_u->jet_o = src_u->jet_o; if ( c3y == src_u->fon_o ) { dst_u->fin_p = u3of(u3j_fink, _cj_fink_take(u3to(u3j_fink, src_u->fin_p))); dst_u->fon_o = c3y; } else if ( fon_p != src_u->fin_p ) { dst_u->fin_p = src_u->fin_p; dst_u->fon_o = c3n; } else { fon_o = c3n; } if ( c3y == los_o ) { if ( u3_none != lod ) { u3z(lod); u3z(lob); if ( c3y == fon_o ) { _cj_fink_free(fon_p); } } } } } /* u3j_site_ream(): refresh u3j_site after restoring from checkpoint */ void u3j_site_ream(u3j_site* sit_u) { if ( u3_none != sit_u->loc ) { u3z(sit_u->lab); sit_u->jet_o = _cj_nail(sit_u->loc, sit_u->axe, &(sit_u->lab), &(sit_u->cop_u), &(sit_u->ham_u)); } } /* _cj_site_lock(): ensure site has a valid program pointer */ static void _cj_site_lock(u3_noun loc, u3_noun cor, u3j_site* sit_u) { if ( (u3_none != sit_u->bat) && (c3y == u3r_sing(sit_u->bat, u3h(cor))) ) { return; } sit_u->pog_p = _cj_prog(loc, u3x_at(sit_u->axe, cor)); if ( u3_none != sit_u->bat ) { u3z(sit_u->bat); } sit_u->bat = u3k(u3h(cor)); } /* _cj_burn(): stop tracing glu and call a nock program */ static u3_noun _cj_burn(u3p(u3n_prog) pog_p, u3_noun cor) { u3_noun pro; u3t_off(glu_o); pro = u3n_burn(pog_p, cor); u3t_on(glu_o); return pro; } /* _cj_site_kick_hot(): execute site's kick on located core ** (no validity checks). */ static u3_weak _cj_site_kick_hot(u3_noun loc, u3_noun cor, u3j_site* sit_u, c3_o lok_o) { u3_weak pro = u3_none; c3_o jet_o = sit_u->jet_o; c3_o pof_o = __(u3C.wag_w & u3o_debug_cpu); if ( c3n == pof_o ) { if ( c3y == jet_o ) { u3t_off(glu_o); pro = _cj_kick_z(cor, sit_u->cop_u, sit_u->ham_u, sit_u->axe); u3t_on(glu_o); } if ( u3_none == pro ) { if ( c3y == lok_o ) { _cj_site_lock(loc, cor, sit_u); } } } else { pof_o = u3t_come(sit_u->lab); if ( c3y == jet_o ) { u3t_off(glu_o); pro = _cj_kick_z(cor, sit_u->cop_u, sit_u->ham_u, sit_u->axe); u3t_on(glu_o); } if ( u3_none == pro ) { if ( c3y == lok_o ) { _cj_site_lock(loc, cor, sit_u); } pro = _cj_burn(sit_u->pog_p, cor); } if ( c3y == pof_o ) { u3t_flee(); } } return pro; } /* _cj_site_kick(): execute site's kick on core. */ static u3_weak _cj_site_kick(u3_noun cor, u3j_site* sit_u) { u3_weak loc, pro; loc = pro = u3_none; if ( u3_none != sit_u->loc ) { if ( c3y == _cj_fine(cor, sit_u->fin_p) ) { loc = sit_u->loc; pro = _cj_site_kick_hot(loc, cor, sit_u, c3y); } } if ( u3_none == loc ) { loc = _cj_spot(cor, &(sit_u->bas)); if ( u3_none != loc ) { u3p(u3j_fink) fon_p = 0; u3_weak lod = u3_none; u3_weak lob = u3_none; if ( u3_none != sit_u->loc ) { lod = sit_u->loc; lob = sit_u->lab; if ( c3y == sit_u->fon_o ) { fon_p = sit_u->fin_p; } } sit_u->loc = loc; sit_u->fin_p = _cj_cast(cor, loc); sit_u->fon_o = c3y; sit_u->jet_o = _cj_nail(loc, sit_u->axe, &(sit_u->lab), &(sit_u->cop_u), &(sit_u->ham_u)); pro = _cj_site_kick_hot(loc, cor, sit_u, c3y); if ( u3_none != lod ) { u3z(lod); u3z(lob); if ( 0 != fon_p ) { _cj_fink_free(fon_p); } } } } if ( u3_none == pro ) { _cj_site_lock(loc, cor, sit_u); } return pro; } /* u3j_site_kick(): kick a core with a u3j_site cache. */ u3_weak u3j_site_kick(u3_noun cor, u3j_site* sit_u) { u3_weak pro; u3t_on(glu_o); pro = _cj_site_kick(cor, sit_u); u3t_off(glu_o); return pro; } /* u3j_cook(): Execute hook from core, call site cached by arbitrary c string */ u3_noun u3j_cook(const c3_c* key_c, u3_noun cor, const c3_c* tam_c) { u3_noun pro, key, tam, inn; _cj_hank* han_u; u3t_on(glu_o); key = u3i_string(key_c); tam = u3i_string(tam_c); han_u = _cj_hank_find(key, tam); if ( c3n == _cj_hank_fine(han_u, cor, &inn) ) { _cj_hank_lose(han_u); inn = _cj_hank_fill(han_u, tam, cor); } pro = _cj_site_kick(u3k(inn), &(han_u->sit_u)); if ( u3_none == pro ) { pro = _cj_burn(han_u->sit_u.pog_p, inn); } u3z(cor); u3z(key); u3z(tam); u3t_off(glu_o); return pro; } /* u3j_kink(): kick either by jet or by nock. */ u3_noun u3j_kink(u3_noun cor, u3_noun axe) { u3_weak pro = u3j_kick(cor, axe); if ( u3_none != pro ) { return pro; } else { return _cj_sink(cor, axe); } } /* u3j_gate_prep(): prepare a locally cached gate to call repeatedly. * core is TRANSFERRED. */ void u3j_gate_prep(u3j_site* sit_u, u3_noun cor) { u3_noun loc; u3t_on(glu_o); if ( c3n == u3du(cor) || c3n == u3du(u3t(cor)) ) { u3m_bail(c3__exit); return; } sit_u->bas = u3_none; sit_u->axe = 2; sit_u->bat = cor; // a lie, this isn't really the battery! sit_u->loc = loc = _cj_spot(cor, &(sit_u->bas)); sit_u->pog_p = _cj_prog(loc, u3h(cor)); if ( u3_none != loc ) { u3_noun pax = _cj_loc_axe(loc), pay = u3qc_cap(pax), pam = u3qc_mas(pax); if ( 3 != pay || 2 == pam || (3 != pam && 3 != u3qc_cap(pam)) ) { fprintf(stderr, "u3j_gate_prep(): parent axis includes sample\r\n"); u3m_p("axis", pax); u3_weak act = _cj_find_warm(loc); c3_assert( u3_none != act ); sit_u->jet_o = c3n; sit_u->lab = u3k(u3h(u3t(u3t(act)))); u3z(act); } else { sit_u->jet_o = _cj_nail(loc, 2, &(sit_u->lab), &(sit_u->cop_u), &(sit_u->ham_u)); } u3z(pam); u3z(pax); } u3t_off(glu_o); } /* u3j_gate_slam(): slam a site prepared by u3j_gate_find() with sample. * sam is TRANSFERRED. */ u3_noun u3j_gate_slam(u3j_site* sit_u, u3_noun sam) { u3_weak pro; u3_noun cor; u3t_on(glu_o); pro = u3_none; cor = u3nt(u3k(u3h(sit_u->bat)), sam, u3k(u3t(u3t(sit_u->bat)))); if ( u3_none != sit_u->loc ) { pro = _cj_site_kick_hot(sit_u->loc, cor, sit_u, c3n); } if ( u3_none == pro ) { pro = _cj_burn(sit_u->pog_p, cor); } u3t_off(glu_o); return pro; } /* u3j_gate_lose(): clean up site prepared by u3j_gate_find(). */ void u3j_gate_lose(u3j_site* sit_u) { u3z(sit_u->bat); u3z(sit_u->bas); if ( u3_none != sit_u->loc ) { u3z(sit_u->loc); u3z(sit_u->lab); } } /* _cj_minx(): produce location of core from fsck'd clue. RETAIN. */ static u3_weak _cj_minx(u3_noun cey, u3_noun cor) { u3_noun nam, axe, huc; u3x_trel(cey, &nam, &axe, &huc); if ( 0 == axe ) { return u3nt(u3nt(c3y, c3y, u3k(u3t(cor))), u3k(nam), u3k(huc)); } else { u3_weak par, pel; u3_noun pat; par = u3r_at(axe, cor); if ( u3_none == par || c3n == u3du(par) ) { fprintf(stderr, "fund: %s is bogus\r\n", u3r_string(nam)); return u3_none; } pel = _cj_spot(par, NULL); if ( u3_none == pel ) { fprintf(stderr, "fund: in %s, parent %x not found at %d\r\n", u3r_string(nam), u3r_mug(u3h(par)), axe); return u3_none; } pat = ( ( 3 == axe ) && (c3y == u3h(u3h(pel))) ) ? u3nt(c3y, c3n, pel) : u3nt(c3n, u3k(axe), pel); return u3nt(pat, u3k(nam), u3k(huc)); } } static void _cj_print_tas(FILE* fh, u3_noun tas) { c3_w met_w = u3r_met(3, tas); c3_c* str_c = alloca(met_w + 1); u3r_bytes(0, met_w, (c3_y*)str_c, tas); str_c[met_w] = 0; fprintf(fh, "/%s", str_c); } /* _cj_mine(): declare a core and produce location. RETAIN. */ static u3_weak _cj_mine(u3_noun cey, u3_noun cor, u3_noun bas) { u3_weak loc = _cj_minx(cey, cor); if ( u3_none != loc ) { c3_l par_l, jax_l; u3_noun pel = _cj_loc_pel(loc), axe = _cj_loc_axe(loc), bat = u3h(cor), nam = u3h(u3t(loc)), bar = _cj_find_cold(bat), reg, hap, bal, act; if ( u3_none == bar ) { reg = u3_none; } else { reg = u3k(u3t(bar)); u3z(bar); } reg = _cj_gust(reg, u3k(axe), u3k(pel), u3k(loc)); if ( 0 == axe ) { par_l = 0; bal = u3nc(u3k(nam), u3_nul); } else { u3_weak pac = _cj_find_warm(pel); c3_assert(u3_none != pac); par_l = u3h(pac); bal = u3nc(u3k(nam), u3k(u3h(u3t(u3t(pac))))); u3z(pac); } jax_l = _cj_hot_mean(par_l, nam); #if 0 u3m_p("new jet", bal); fprintf(stderr, " bat %x, jax %d\r\n", u3r_mug(bat), jax_l); #endif if ( !(u3C.wag_w & u3o_hashless) ) { if ( jax_l ) { c3_y dig_y[32]; c3_w i_w; u3_noun i = bal; fprintf(stderr, "hot jet: "); while ( i != u3_nul ) { _cj_print_tas(stderr, u3h(i)); i = u3t(i); } fprintf(stderr, "\r\n axe %d, jax %d,\r\n bash ", axe, jax_l); u3r_bytes(0, 32, dig_y, bas); for ( i_w = 32; i_w > 0; ) { fprintf(stderr, "%02x", dig_y[--i_w]); } fprintf(stderr, "\r\n"); } } hap = _cj_warm_hump(jax_l, u3t(u3t(loc))); act = u3nq(jax_l, hap, bal, _cj_jit(jax_l, bat)); u3h_put(u3R->jed.cod_p, bat, u3nc(u3k(bas), reg)); u3h_put(u3R->jed.war_p, loc, act); // see note in _cj_spot u3z(pel); u3z(axe); } return loc; #if 0 { u3_noun bas = _cj_bash(bat), hot = u3h_get(u3D.hot_p, bas); c3_o hav_o = c3n; if ( u3_none != hot ) { u3_noun her = u3h(hot), hol = _cj_reg_find(her, cor); if ( hol != u3_none ) { hav_o = c3y; u3z(hol); } u3z(hot); } if ( c3n == hav_o ) { u3m_p("unregistered battery", bal); fprintf(stderr, "hash: %x\r\n", bas); } u3z(bas); } #endif } static void _cj_audit(u3_noun loc, u3_noun cey, u3_noun cor) { u3_noun pat, nam, huc, cax, can, cuc, pax; u3x_trel(loc, &pat, &nam, &huc); u3x_trel(cey, &can, &cax, &cuc); pax = _cj_loc_axe(loc); if ( (c3n == u3r_sing(nam, can)) || (c3n == u3r_sing(pax, cax)) || (c3n == u3r_sing(huc, cuc)) ) { u3_noun mix = _cj_minx(cey, cor); u3m_p("bad audit", loc); u3m_p("hint says", mix); u3z(mix); } u3z(pax); } /* _cj_mile(): register core for jets, returning location. */ static u3_weak _cj_mile(u3_noun clu, u3_noun cor) { u3_weak loc = u3_none; if ( c3n == u3du(cor) ) { u3z(clu); u3z(cor); } else { u3_weak cey = _cj_je_fsck(clu); if ( u3_none != cey ) { u3_weak bas = u3_none; loc = _cj_spot(cor, &bas); if ( u3_none == loc ) { loc = _cj_mine(cey, cor, bas); } else { _cj_audit(loc, cey, cor); } u3z(cey); if ( u3_none != bas ) { u3z(bas); } } u3z(cor); } return loc; } /* u3j_mine(): register core for jets. */ void u3j_mine(u3_noun clu, u3_noun cor) { u3_weak loc; u3t_on(glu_o); loc = _cj_mile(clu, cor); u3z(loc); u3t_off(glu_o); } /* u3j_rite_mine(): mine cor with clue, using u3j_rite for caching */ void u3j_rite_mine(u3j_rite* rit_u, u3_noun clu, u3_noun cor) { c3_t non_t; u3t_on(glu_o); non_t = (u3_none == rit_u->clu); if ( non_t || c3n == u3r_sing(rit_u->clu, clu) || c3n == _cj_fine(cor, rit_u->fin_p) ) { u3_weak loc = _cj_mile(u3k(clu), u3k(cor)); if ( u3_none != loc ) { u3p(u3j_fink) fon_p = rit_u->fin_p; u3_noun old = rit_u->clu; c3_o own_o = rit_u->own_o; rit_u->own_o = c3y; rit_u->clu = u3k(clu); rit_u->fin_p = _cj_cast(cor, loc); u3z(loc); if ( !non_t && (c3y == own_o) ) { u3z(old); _cj_fink_free(fon_p); } } } u3z(clu); u3z(cor); u3t_off(glu_o); } /* _cj_warm_reap(): reap key and value from warm table. */ static void _cj_warm_reap(u3_noun kev) { u3_noun loc = u3a_take(u3h(kev)); u3_noun act = u3a_take(u3t(kev)); u3h_put(u3R->jed.war_p, loc, act); u3z(loc); } /* _cj_cold_reap(): reap cold dashboard entries. */ static void _cj_cold_reap(u3_noun kev) { u3_noun bat = u3a_take(u3h(kev)); u3_noun reg = u3a_take(u3t(kev)); u3h_put(u3R->jed.cod_p, bat, reg); u3z(bat); } /* _cj_bash_reap(): reap battery hashes. */ static void _cj_bash_reap(u3_noun kev) { u3_noun key = u3a_take(u3h(kev)), val = u3a_take(u3t(kev)); u3h_put(u3R->jed.bas_p, key, val); u3z(key); } /* _cj_hank_reap(): reap hook resolutions. */ static void _cj_hank_reap(u3_noun kev) { u3_noun key = u3a_take(u3h(kev)); u3_noun got = u3h_git(u3R->jed.han_p, key); _cj_hank* nah_u = u3to(_cj_hank, u3t(kev)); _cj_hank* han_u; if ( u3_none != got ) { if ( u3_none != nah_u->hax ) { u3_weak old; han_u = u3to(_cj_hank, got); old = han_u->hax; han_u->hax = u3a_take(nah_u->hax); u3j_site_copy(&(han_u->sit_u), &(nah_u->sit_u), c3y); if ( u3_none != old ) { u3z(old); } } } else if ( u3_none != nah_u->hax ) { han_u = u3a_walloc(c3_wiseof(_cj_hank)); han_u->hax = u3a_take(nah_u->hax); u3j_site_copy(&(han_u->sit_u), &(nah_u->sit_u), c3n); u3h_put(u3R->jed.han_p, key, u3a_outa(han_u)); } u3z(key); } /* u3j_reap(): promote jet state. */ void u3j_reap(u3p(u3h_root) cod_p, u3p(u3h_root) war_p, u3p(u3h_root) han_p, u3p(u3h_root) bas_p) { u3h_walk(cod_p, _cj_cold_reap); u3h_walk(war_p, _cj_warm_reap); u3h_walk(han_p, _cj_hank_reap); u3h_walk(bas_p, _cj_bash_reap); } /* _cj_ream(): ream list of battery [bash registry] pairs. RETAIN. */ static void _cj_ream(u3_noun all) { c3_l par_l, jax_l; u3_noun i, j, k, rul, loc, bal, act, lop, kev, rut, hap, pat, reg, pol, rem, rec, bat, pel, nam, huc; u3_weak pac; for ( i = all, lop = u3_nul; i != u3_nul; i = u3t(i) ) { kev = u3h(i); bat = u3h(kev); reg = u3t(u3t(kev)); rut = u3h(reg); // register roots rul = u3qdb_tap(rut); for ( j = rul; j != u3_nul; j = u3t(j) ) { loc = u3t(u3h(j)); u3x_trel(loc, &pat, &nam, &huc); bal = u3nc(u3k(nam), u3_nul); jax_l = _cj_hot_mean(0, nam); hap = _cj_warm_hump(jax_l, huc); act = u3nq(jax_l, hap, bal, _cj_jit(jax_l, bat)); #if 0 u3m_p("old jet", bal); fprintf(stderr, " bat %x, jax %d\r\n", u3r_mug(bat), jax_l); #endif u3h_put(u3R->jed.war_p, loc, act); } u3z(rul); // put ancestors in lop (list [battery=^ parent=location this=location]) for ( j = u3t(reg); j != u3_nul; j = u3t(j) ) { pol = lop; lop = u3qdb_tap(u3t(u3h(j))); for ( k = lop; u3_nul != k; k = u3t(k) ) { pol = u3nc(u3nc(u3k(bat), u3k(u3h(k))), pol); } u3z(lop); lop = pol; } } // ordering is random so we need to push onto rem when parent // isn't yet present in the warm state while ( u3_nul != lop ) { rem = u3_nul; for ( i = lop; u3_nul != i; i = u3t(i) ) { rec = u3h(i); u3x_trel(rec, &bat, &pel, &loc); pac = _cj_find_warm(pel); if ( u3_none == pac ) { rem = u3nc(u3k(rec), rem); } else { u3x_trel(loc, &pat, &nam, &huc); par_l = u3h(pac); jax_l = _cj_hot_mean(par_l, nam); bal = u3nc(u3k(nam), u3k(u3h(u3t(u3t(pac))))); hap = _cj_warm_hump(jax_l, huc), u3z(pac); act = u3nq(jax_l, hap, bal, _cj_jit(jax_l, bat)); #if 0 u3m_p("old jet", bal); fprintf(stderr, " bat %x, jax %d\r\n", u3r_mug(bat), jax_l); #endif u3h_put(u3R->jed.war_p, loc, act); } } u3z(lop); lop = rem; } } /* _cj_warm_tap(): tap war_p to rel */ static void _cj_warm_tap(u3_noun kev, void* wit) { u3_noun* rel = wit; *rel = u3nc(u3k(kev), *rel); } /* _cj_ream_hank(): clear hot state out of hook sites. */ static void _cj_ream_hank(u3_noun kev) { u3j_site_ream(&(u3to(_cj_hank, u3t(kev))->sit_u)); } /* u3j_ream(): rebuild warm state */ void u3j_ream(void) { u3_noun rel = u3_nul; c3_assert(u3R == &(u3H->rod_u)); u3h_free(u3R->jed.war_p); u3R->jed.war_p = u3h_new(); u3h_walk_with(u3R->jed.cod_p, _cj_warm_tap, &rel); _cj_ream(rel); u3z(rel); u3h_walk(u3R->jed.han_p, _cj_ream_hank); } /* _cj_fink_mark(): mark a u3j_fink for gc. */ static c3_w _cj_fink_mark(u3j_fink* fin_u) { c3_w i_w, tot_w = u3a_mark_noun(fin_u->sat); for ( i_w = 0; i_w < fin_u->len_w; ++i_w ) { u3j_fist* fis_u = &(fin_u->fis_u[i_w]); tot_w += u3a_mark_noun(fis_u->bat); tot_w += u3a_mark_noun(fis_u->pax); } tot_w += u3a_mark_ptr(fin_u); return tot_w; } /* u3j_site_lose(): lose references of u3j_site (but do not free). */ void u3j_site_lose(u3j_site* sit_u) { u3z(sit_u->axe); if ( u3_none != sit_u->bat ) { u3z(sit_u->bat); } if ( u3_none != sit_u->bas ) { u3z(sit_u->bas); } if ( u3_none != sit_u->loc ) { u3z(sit_u->loc); u3z(sit_u->lab); if ( c3y == sit_u->fon_o ) { _cj_fink_free(sit_u->fin_p); } } } /* u3j_rite_lose(): lose references of u3j_rite (but do not free). */ void u3j_rite_lose(u3j_rite* rit_u) { if ( (c3y == rit_u->own_o) && u3_none != rit_u->clu ) { u3z(rit_u->clu); _cj_fink_free(rit_u->fin_p); } } /* u3j_rite_mark(): mark u3j_rite for gc. */ c3_w u3j_rite_mark(u3j_rite* rit_u) { c3_w tot_w = 0; if ( (c3y == rit_u->own_o) && u3_none != rit_u->clu ) { tot_w += u3a_mark_noun(rit_u->clu); tot_w += _cj_fink_mark(u3to(u3j_fink, rit_u->fin_p)); } return tot_w; } /* u3j_site_mark(): mark u3j_site for gc. */ c3_w u3j_site_mark(u3j_site* sit_u) { c3_w tot_w = u3a_mark_noun(sit_u->axe); if ( u3_none != sit_u->bat ) { tot_w += u3a_mark_noun(sit_u->bat); } if ( u3_none != sit_u->bas ) { tot_w += u3a_mark_noun(sit_u->bas); } if ( u3_none != sit_u->loc ) { tot_w += u3a_mark_noun(sit_u->loc); tot_w += u3a_mark_noun(sit_u->lab); if ( c3y == sit_u->fon_o ) { tot_w += _cj_fink_mark(u3to(u3j_fink, sit_u->fin_p)); } } return tot_w; } /* _cj_mark_hank(): mark hank cache for gc. */ static void _cj_mark_hank(u3_noun kev, void* dat) { c3_w* tot_w = (c3_w*) dat; _cj_hank* han_u = u3to(_cj_hank, u3t(kev)); *tot_w += u3a_mark_ptr(han_u); if ( u3_none != han_u->hax ) { *tot_w += u3a_mark_noun(han_u->hax); *tot_w += u3j_site_mark(&(han_u->sit_u)); } } /* u3j_mark(): mark jet state for gc. */ c3_w u3j_mark(void) { c3_w tot_w = 0; tot_w += u3h_mark(u3R->jed.war_p); tot_w += u3h_mark(u3R->jed.cod_p); tot_w += u3h_mark(u3R->jed.han_p); tot_w += u3h_mark(u3R->jed.bas_p); u3h_walk_with(u3R->jed.han_p, _cj_mark_hank, &tot_w); if ( u3R == &(u3H->rod_u) ) { tot_w += u3h_mark(u3R->jed.hot_p); } return tot_w; } /* _cj_free_hank(): free hank cache. */ static void _cj_free_hank(u3_noun kev) { _cj_hank* han_u = u3to(_cj_hank, u3t(kev)); if ( u3_none != han_u->hax ) { u3z(han_u->hax); u3j_site_lose(&(han_u->sit_u)); } u3a_wfree(han_u); } /* u3j_free(): free jet state. */ void u3j_free(void) { u3h_walk(u3R->jed.han_p, _cj_free_hank); u3h_free(u3R->jed.war_p); u3h_free(u3R->jed.cod_p); u3h_free(u3R->jed.han_p); u3h_free(u3R->jed.bas_p); if ( u3R == &(u3H->rod_u) ) { u3h_free(u3R->jed.hot_p); } }