/* g/n.c ** */ #include "all.h" static u3_noun _n_nock_on(u3_noun bus, u3_noun fol); /* u3_term_io_hija(): hijack console for cooked print. */ FILE* u3_term_io_hija(void); /* u3_term_io_loja(): release console from cooked print. */ void u3_term_io_loja(int x); /* uL, uH: wrap hijack/lojack around fprintf. ** ** uL(fprintf(uH, ...)); */ # define uH u3_term_io_hija() # define uL(x) u3_term_io_loja(x) /* _n_hint(): process hint. */ static u3_noun _n_hint(u3_noun zep, u3_noun hod, u3_noun bus, u3_noun nex) { switch ( zep ) { default: { // u3m_p("weird zep", zep); u3a_lose(zep); u3a_lose(hod); return _n_nock_on(bus, nex); } case c3__hunk: case c3__lose: case c3__mean: case c3__spot: { u3_noun tac = u3nc(zep, hod); u3_noun pro; u3t_push(tac); #if 0 { static int low_i; if ( !low_i ) { low_i = 1; if ( 0 == (u3R->pro.nox_d % 65536ULL) ) { if ( c3__spot == zep ) { uL(fprintf(uH, "spot %d/%d : %d/%d\r\n", u3h(u3h(u3t(hod))), u3t(u3h(u3t(hod))), u3h(u3t(u3t(hod))), u3t(u3t(u3t(hod))))); } } low_i = 0; } } #endif pro = _n_nock_on(bus, nex); u3t_drop(); return pro; } case c3__live: { if ( c3y == u3ud(hod) ) { u3t_off(noc_o); u3t_heck(hod); u3t_on(noc_o); } else { u3z(hod); } return _n_nock_on(bus, nex); } case c3__slog: { if ( !(u3C.wag_w & u3o_quiet) ) { u3t_off(noc_o); u3t_slog(hod); u3t_on(noc_o); } return _n_nock_on(bus, nex); } case c3__germ: { u3_noun pro = _n_nock_on(bus, nex); if ( c3y == u3r_sing(pro, hod) ) { u3z(pro); return hod; } else { u3z(hod); return pro; } } case c3__fast: { u3_noun pro = _n_nock_on(bus, nex); u3t_off(noc_o); u3j_mine(hod, u3k(pro)); u3t_on(noc_o); return pro; } case c3__memo: { u3z(hod); #if 0 return _n_nock_on(bus, nex); #else { u3_noun pro = u3z_find_2(144 + c3__nock, bus, nex); if ( pro != u3_none ) { u3z(bus); u3z(nex); return pro; } pro = _n_nock_on(u3k(bus), u3k(nex)); if ( &(u3H->rod_u) != u3R ) { u3z_save_2(144 + c3__nock, bus, nex, pro); } u3z(bus); u3z(nex); return pro; } #endif } case c3__sole: { u3z(hod); { u3_noun pro = _n_nock_on(bus, nex); // return u3z_uniq(pro); return pro; } } } } /* _n_mush_in(): see _n_mush(). */ static u3_noun _n_mush_in(u3_noun val) { if ( c3n == u3du(val) ) { return u3_nul; } else { u3_noun h_val = u3h(val); u3_noun ite; if ( c3n == u3ud(h_val) ) { ite = u3nc(c3__leaf, u3_nul); } else { ite = u3nc(c3__leaf, u3qe_trip(h_val)); } return u3nc(ite, _n_mush_in(u3t(val))); } } /* _n_mush(): tank from failed path request. */ static u3_noun _n_mush(u3_noun val) { u3_noun pro; pro = u3nt(c3__rose, u3nt(u3nc('/', u3_nul), u3nc('/', u3_nul), u3_nul), _n_mush_in(val)); u3z(val); return pro; } /* _n_nock_on(): produce .*(bus fol). Do not virtualize. */ static u3_noun _n_nock_on(u3_noun bus, u3_noun fol) { u3_noun hib, gal; while ( 1 ) { hib = u3h(fol); gal = u3t(fol); #ifdef U3_CPU_DEBUG u3R->pro.nox_d += 1; #endif if ( c3y == u3r_du(hib) ) { u3_noun poz, riv; poz = _n_nock_on(u3k(bus), u3k(hib)); riv = _n_nock_on(bus, u3k(gal)); u3a_lose(fol); return u3i_cell(poz, riv); } else switch ( hib ) { default: return u3m_bail(c3__exit); case 0: { if ( c3n == u3r_ud(gal) ) { return u3m_bail(c3__exit); } else { u3_noun pro = u3k(u3at(gal, bus)); u3a_lose(bus); u3a_lose(fol); return pro; } } c3_assert(!"not reached"); case 1: { u3_noun pro = u3k(gal); u3a_lose(bus); u3a_lose(fol); return pro; } c3_assert(!"not reached"); case 2: { u3_noun nex = _n_nock_on(u3k(bus), u3k(u3t(gal))); u3_noun seb = _n_nock_on(bus, u3k(u3h(gal))); u3a_lose(fol); bus = seb; fol = nex; continue; } c3_assert(!"not reached"); case 3: { u3_noun gof, pro; gof = _n_nock_on(bus, u3k(gal)); pro = u3r_du(gof); u3a_lose(gof); u3a_lose(fol); return pro; } c3_assert(!"not reached"); case 4: { u3_noun gof, pro; gof = _n_nock_on(bus, u3k(gal)); pro = u3i_vint(gof); u3a_lose(fol); return pro; } c3_assert(!"not reached"); case 5: { u3_noun wim = _n_nock_on(bus, u3k(gal)); u3_noun pro = u3r_sing(u3h(wim), u3t(wim)); u3a_lose(wim); u3a_lose(fol); return pro; } c3_assert(!"not reached"); case 6: { u3_noun b_gal, c_gal, d_gal; u3x_trel(gal, &b_gal, &c_gal, &d_gal); { u3_noun tys = _n_nock_on(u3k(bus), u3k(b_gal)); u3_noun nex; if ( 0 == tys ) { nex = u3k(c_gal); } else if ( 1 == tys ) { nex = u3k(d_gal); } else return u3m_bail(c3__exit); u3a_lose(fol); fol = nex; continue; } } c3_assert(!"not reached"); case 7: { u3_noun b_gal, c_gal; u3x_cell(gal, &b_gal, &c_gal); { u3_noun bod = _n_nock_on(bus, u3k(b_gal)); u3_noun nex = u3k(c_gal); u3a_lose(fol); bus = bod; fol = nex; continue; } } c3_assert(!"not reached"); case 8: { u3_noun b_gal, c_gal; u3x_cell(gal, &b_gal, &c_gal); { u3_noun heb = _n_nock_on(u3k(bus), u3k(b_gal)); u3_noun bod = u3nc(heb, bus); u3_noun nex = u3k(c_gal); u3a_lose(fol); bus = bod; fol = nex; continue; } } c3_assert(!"not reached"); case 9: { u3_noun b_gal, c_gal; u3x_cell(gal, &b_gal, &c_gal); { u3_noun seb = _n_nock_on(bus, u3k(c_gal)); u3_noun pro; u3t_off(noc_o); pro = u3j_kick(seb, b_gal); u3t_on(noc_o); if ( u3_none != pro ) { u3a_lose(fol); return pro; } else { if ( c3n == u3r_ud(b_gal) ) { return u3m_bail(c3__exit); } else { u3_noun nex = u3k(u3at(b_gal, seb)); u3a_lose(fol); bus = seb; fol = nex; continue; } } } } c3_assert(!"not reached"); case 10: { u3_noun p_gal, q_gal; u3x_cell(gal, &p_gal, &q_gal); { u3_noun zep, hod, nex; if ( c3y == u3r_du(p_gal) ) { u3_noun b_gal = u3h(p_gal); u3_noun c_gal = u3t(p_gal); u3_noun d_gal = q_gal; zep = u3k(b_gal); hod = _n_nock_on(u3k(bus), u3k(c_gal)); nex = u3k(d_gal); } else { u3_noun b_gal = p_gal; u3_noun c_gal = q_gal; zep = u3k(b_gal); hod = u3_nul; nex = u3k(c_gal); } u3a_lose(fol); return _n_hint(zep, hod, bus, nex); } } case 11: { u3_noun ref = _n_nock_on(u3k(bus), u3k(u3h(gal))); u3_noun gof = _n_nock_on(bus, u3k(u3t(gal))); u3_noun val; u3t_off(noc_o); val = u3m_soft_esc(ref, u3k(gof)); u3t_on(noc_o); if ( !_(u3du(val)) ) { u3m_bail(u3nt(1, gof, 0)); } if ( !_(u3du(u3t(val))) ) { // // replace with proper error stack push // u3t_push(u3nc(c3__hunk, _n_mush(gof))); return u3m_bail(c3__exit); } else { u3_noun pro; u3z(gof); u3z(fol); pro = u3k(u3t(u3t(val))); u3z(val); return pro; } } c3_assert(!"not reached"); } } } /* u3n_nock_on(): produce .*(bus fol). Do not virtualize. */ u3_noun u3n_nock_on(u3_noun bus, u3_noun fol) { u3_noun pro; u3t_on(noc_o); pro = _n_nock_on(bus, fol); u3t_off(noc_o); return pro; } /* u3n_kick_on(): fire `gat` without changing the sample. */ u3_noun u3n_kick_on(u3_noun gat) { return u3j_kink(gat, 2); } c3_w exc_w; /* u3n_slam_on(): produce (gat sam). */ u3_noun u3n_slam_on(u3_noun gat, u3_noun sam) { u3_noun cor = u3nc(u3k(u3h(gat)), u3nc(sam, u3k(u3t(u3t(gat))))); #if 0 if ( &u3H->rod_u == u3R ) { if ( exc_w == 1 ) { c3_assert(0); } exc_w++; } #endif u3z(gat); return u3n_kick_on(cor); } /* u3n_nock_et(): produce .*(bus fol), as ++toon, in namespace. */ u3_noun u3n_nock_et(u3_noun gul, u3_noun bus, u3_noun fol) { return u3m_soft_run(gul, u3n_nock_on, bus, fol); } /* u3n_slam_et(): produce (gat sam), as ++toon, in namespace. */ u3_noun u3n_slam_et(u3_noun gul, u3_noun gat, u3_noun sam) { return u3m_soft_run(gul, u3n_slam_on, gat, sam); } /* u3n_nock_an(): as slam_in(), but with empty fly. */ u3_noun u3n_nock_an(u3_noun bus, u3_noun fol) { u3_noun gul = u3nt(u3nt(1, 0, 0), 0, 0); // |=(a/{* *} ~) return u3n_nock_et(gul, bus, fol); } /* These must match the order in the section marked OPCODE TABLE */ #define HALT 0 #define BAIL 1 #define COPY 2 #define SWAP 3 #define TOSS 4 #define AUTO 5 #define AULT 6 #define HEAD 7 #define HELD 8 #define TAIL 9 #define TALL 10 #define FRAS 11 #define FRAG 12 #define FRAB 13 #define FLAS 14 #define FLAG 15 #define FLAB 16 #define LIT0 17 #define LIT1 18 #define LITB 19 #define LITS 20 #define LITN 21 #define LIL0 22 #define LIL1 23 #define LILB 24 #define LILS 25 #define LILN 26 #define NOLK 27 #define NOCT 28 #define NOCK 29 #define DEEP 30 #define BUMP 31 #define SAME 32 #define SALM 33 #define SKIP 34 #define SBIP 35 #define SKIN 36 #define SBIN 37 #define SNOC 38 #define SNOL 39 #define KICB 40 #define KICS 41 #define KICK 42 #define TICB 43 #define TICS 44 #define TICK 45 #define WILS 46 #define WISH 47 #define CUSH 48 #define DROP 49 #define HECK 50 #define SLOG 51 #define FALT 52 #define FAST 53 #define SKIB 54 #define SKIM 55 #define SLIB 56 #define SLIM 57 #define SAVE 58 /* _n_apen(): emit the instructions contained in src to dst */ static inline void _n_apen(u3_noun* dst, u3_noun src) { *dst = u3qb_weld(src, *dst); } /* _n_emit(): emit a single instruction to ops, returning * the size (in bytes) required to store that * opcode. */ static inline c3_y _n_emit(u3_noun *ops, u3_noun op) { *ops = u3nc(op, *ops); if ( c3n == u3du(op) ) { return sizeof(c3_y); } else switch ( u3h(op) ) { case FRAB: case FLAB: case LILB: case LITB: case SBIP: case SBIN: case KICB: case TICB: return sizeof(c3_y) + sizeof(c3_y); case FRAS: case FLAS: case LILS: case LITS: case SKIP: case SKIN: case KICS: case TICS: return sizeof(c3_y) + sizeof(c3_s); case CUSH: case FRAG: case FLAG: case LILN: case LITN: case TICK: case KICK: return sizeof(c3_y) + sizeof(u3_noun); case SKIM: case SLIM: return sizeof(c3_y) + sizeof(c3_s) + sizeof(u3_noun); case SKIB: case SLIB: return sizeof(c3_y) + sizeof(c3_y) + sizeof(u3_noun); default: c3_assert(0); } } static c3_s _n_comp(u3_noun*, u3_noun, c3_o, c3_o); /* _n_bint(): hint-processing helper for _n_comp. * hif: hint-formula (first part of 10). RETAIN. * nef: next-formula (second part of 10). RETAIN. */ static c3_s _n_bint(u3_noun* ops, u3_noun hif, u3_noun nef, c3_o los_o, c3_o tel_o) { if ( c3n == u3du(hif) ) { // no currently recognized static hints return _n_comp(ops, nef, los_o, tel_o); } else { c3_s tot_s = 0; u3_noun zep, hod; u3x_cell(hif, &zep, &hod); switch ( zep ) { default: tot_s += _n_comp(ops, hod, c3n, c3n); tot_s += _n_emit(ops, TOSS); tot_s += _n_comp(ops, nef, los_o, tel_o); break; case c3__hunk: case c3__lose: case c3__mean: case c3__spot: tot_s += _n_comp(ops, hod, c3n, c3n); tot_s += _n_emit(ops, u3nc(CUSH, zep)); tot_s += _n_comp(ops, nef, los_o, c3n); tot_s += _n_emit(ops, DROP); break; case c3__live: tot_s += _n_comp(ops, hod, c3n, c3n); tot_s += _n_emit(ops, HECK); tot_s += _n_comp(ops, nef, los_o, tel_o); break; case c3__slog: tot_s += _n_comp(ops, hod, c3n, c3n); tot_s += _n_emit(ops, SLOG); tot_s += _n_comp(ops, nef, los_o, tel_o); break; // germ and sole are unused... case c3__fast: tot_s += _n_comp(ops, hod, c3n, c3n); tot_s += _n_emit(ops, SWAP); tot_s += _n_comp(ops, nef, c3n, c3n); tot_s += _n_emit(ops, (c3y == los_o) ? FALT : FAST); break; case c3__memo: { u3_noun mem = u3_nul; c3_s mem_s = 0; c3_y op_y; tot_s += _n_comp(ops, hod, c3n, c3n); tot_s += _n_emit(ops, TOSS); // SKIM leaves [bus key] on the stack in the unmemoized case mem_s += _n_comp(&mem, nef, c3n, c3n); // now [pro key bus?], where bus was left on if appropropriate mem_s += _n_emit(ops, SAVE); op_y = (c3y == los_o) ? (( mem_s <= 0xFF ) ? SLIB : SLIM) : (( mem_s <= 0xFF ) ? SKIB : SKIM); // SKIM leaves [pro bus] and SLIM leaves [pro] tot_s += _n_emit(ops, u3nt(op_y, mem_s, u3k(nef))); tot_s += mem_s; _n_apen(ops, mem); break; } } return tot_s; } } /* _n_comp(): compile nock formula to reversed opcode list * ops is a pointer to a list (to be emitted to) * fol is the nock formula to compile. RETAIN. * los_o indicates whether we should remove our subject from the stack * tel_o is yes if this formula is in tail position * return: the number of bytes needed for this opcode list */ static c3_s _n_comp(u3_noun* ops, u3_noun fol, c3_o los_o, c3_o tel_o) { c3_y op_y; c3_s tot_s = 0; u3_noun cod, arg, hed, tel; u3x_cell(fol, &cod, &arg); if ( c3y == u3du(cod) ) { tot_s += _n_comp(ops, cod, c3n, c3n); tot_s += _n_emit(ops, SWAP); tot_s += _n_comp(ops, arg, c3n, c3n); tot_s += _n_emit(ops, (c3y == los_o ) ? AULT : AUTO); } else switch ( cod ) { case 0: if ( c3n == u3ud(arg) ) { u3m_bail(c3__exit); return 0; } switch ( arg ) { case 0: tot_s += _n_emit(ops, BAIL); break; case 1: if ( c3n == los_o ) { tot_s += _n_emit(ops, COPY); } break; case 2: tot_s += _n_emit(ops, (c3y == los_o) ? HELD : HEAD); break; case 3: tot_s += _n_emit(ops, (c3y == los_o) ? TALL : TAIL); break; default: op_y = (c3y == los_o) ? (arg <= 0xFF ? FLAB : arg <= 0xFFFF ? FLAS : FLAG) : (arg <= 0xFF ? FRAB : arg <= 0xFFFF ? FRAS : FRAG); tot_s += _n_emit(ops, u3nc(op_y, arg)); break; } break; case 1: switch ( arg ) { case 0: tot_s += _n_emit(ops, (c3y == los_o) ? LIL0 : LIT0); break; case 1: tot_s += _n_emit(ops, (c3y == los_o) ? LIL1 : LIT1); break; default: op_y = (c3y == los_o) ? (arg <= 0xFF ? LILB : arg <= 0xFFFF ? LILS : LILN) : (arg <= 0xFF ? LITB : arg <= 0xFFFF ? LITS : LITN); tot_s += _n_emit(ops, u3nc(op_y, u3k(arg))); break; } break; case 2: u3x_cell(arg, &hed, &tel); tot_s += _n_comp(ops, hed, c3n, c3n); tot_s += _n_emit(ops, SWAP); tot_s += _n_comp(ops, tel, c3n, c3n); /* things in tail position replace (so, lose) top of stack, * so NOCT "loses" and there is no non-losing version */ op_y = (c3y == tel_o) ? NOCT : ((c3y == los_o) ? NOLK : NOCK); tot_s += _n_emit(ops, op_y); break; case 3: tot_s += _n_comp(ops, arg, los_o, c3n); tot_s += _n_emit(ops, DEEP); break; case 4: tot_s += _n_comp(ops, arg, los_o, c3n); tot_s += _n_emit(ops, BUMP); break; case 5: u3x_cell(arg, &hed, &tel); tot_s += _n_comp(ops, hed, c3n, c3n); tot_s += _n_emit(ops, SWAP); tot_s += _n_comp(ops, tel, c3n, c3n); tot_s += _n_emit(ops, (c3y == los_o) ? SALM : SAME); break; case 6: { u3_noun mid, yep = u3_nul, nop = u3_nul; c3_s yep_s, nop_s; u3x_trel(arg, &hed, &mid, &tel); tot_s += _n_comp(ops, hed, c3n, c3n); yep_s = _n_comp(&yep, mid, los_o, tel_o); nop_s = _n_comp(&nop, tel, los_o, tel_o); op_y = (nop_s <= 0xFF ? SBIP : SKIP); yep_s += _n_emit(&yep, u3nc(op_y, nop_s)); op_y = (yep_s <= 0xFF ? SBIN : SKIN); tot_s += _n_emit(ops, u3nc(op_y, yep_s)); tot_s += yep_s; _n_apen(ops, yep); tot_s += nop_s; _n_apen(ops, nop); break; } case 7: u3x_cell(arg, &hed, &tel); tot_s += _n_comp(ops, hed, los_o, c3n); tot_s += _n_comp(ops, tel, c3y, tel_o); break; case 8: u3x_cell(arg, &hed, &tel); tot_s += _n_comp(ops, hed, c3n, c3n); tot_s += _n_emit(ops, (c3y == los_o) ? SNOL : SNOC); tot_s += _n_comp(ops, tel, c3y, tel_o); break; case 9: u3x_cell(arg, &hed, &tel); if ( 3 == u3qc_cap(hed) ) { u3_noun mac = u3nq(7, u3k(tel), 2, u3nt(u3nc(0, 1), 0, u3k(hed))); tot_s += _n_comp(ops, mac, los_o, tel_o); u3z(mac); } else { op_y = (c3y == tel_o) ? (hed <= 0xFF ? TICB : hed <= 0xFFFF ? TICS : TICK) : (hed <= 0xFF ? KICB : hed <= 0xFFFF ? KICS : KICK); tot_s += _n_comp(ops, tel, (c3y == tel_o ? c3y : los_o), c3n); tot_s += _n_emit(ops, u3nc(op_y, u3k(hed))); } break; case 10: u3x_cell(arg, &hed, &tel); tot_s += _n_bint(ops, hed, tel, los_o, tel_o); break; case 11: u3x_cell(arg, &hed, &tel); tot_s += _n_comp(ops, hed, c3n, c3n); tot_s += _n_emit(ops, SWAP); tot_s += _n_comp(ops, tel, c3n, c3n); tot_s += _n_emit(ops, (c3y == los_o) ? WILS : WISH); break; default: u3m_bail(c3__exit); return 0; } return tot_s; } static void _n_print_byc(c3_y* pog); /* _n_asm(): assemble an accumulated list of instructions (i.e. from _n_comp) */ static c3_y* _n_asm(u3_noun ops, c3_s len_s) { u3_noun top = ops; c3_y* buf_y = u3a_malloc(sizeof(c3_y) * (len_s+1)); c3_s i_s = len_s; buf_y[i_s] = HALT; while ( i_s-- > 0 ) { u3_noun op = u3h(ops); if ( c3y == u3ud(op) ) { buf_y[i_s] = (c3_y) u3h(ops); } else { u3_noun cod = u3h(op); switch ( cod ) { case FRAB: case FLAB: case LILB: case LITB: case SBIP: case SBIN: case KICB: case TICB: buf_y[i_s--] = (c3_y) u3t(op); buf_y[i_s] = (c3_y) cod; break; case FRAS: case FLAS: case LILS: case LITS: case SKIP: case SKIN: case KICS: case TICS: { c3_s off_s = u3t(op); buf_y[i_s--] = (c3_y) (off_s >> 8); buf_y[i_s--] = (c3_y) off_s; buf_y[i_s] = (c3_y) cod; break; } case CUSH: case FRAG: case FLAG: case LILN: case LITN: case TICK: case KICK: { c3_w non_w = u3k(u3t(op)); buf_y[i_s--] = (c3_y) (non_w >> 24); buf_y[i_s--] = (c3_y) (non_w >> 16); buf_y[i_s--] = (c3_y) (non_w >> 8); buf_y[i_s--] = (c3_y) non_w; buf_y[i_s] = (c3_y) cod; break; } case SKIB: case SLIB: { c3_w non_w = u3k(u3t(u3t(op))); buf_y[i_s--] = (c3_y) (non_w >> 24); buf_y[i_s--] = (c3_y) (non_w >> 16); buf_y[i_s--] = (c3_y) (non_w >> 8); buf_y[i_s--] = (c3_y) non_w; buf_y[i_s--] = (c3_y) u3h(u3t(op)); buf_y[i_s] = (c3_y) cod; break; } case SKIM: case SLIM: { c3_w non_w = u3k(u3t(u3t(op))); c3_s sip_s = u3h(u3t(op)); buf_y[i_s--] = (c3_y) (non_w >> 24); buf_y[i_s--] = (c3_y) (non_w >> 16); buf_y[i_s--] = (c3_y) (non_w >> 8); buf_y[i_s--] = (c3_y) non_w; buf_y[i_s--] = (c3_y) (sip_s >> 8); buf_y[i_s--] = (c3_y) sip_s; buf_y[i_s] = (c3_y) cod; break; } default: u3m_bail(c3__exit); return 0; } } ops = u3t(ops); } u3z(top); return buf_y; } /* _n_push(): push a noun onto the stack. RETAIN * mov: -1 north, 1 south * off: 0 north, -1 south */ static inline void _n_push(c3_ys mov, c3_ys off, u3_noun a) { u3R->cap_p += mov; u3_noun* p = u3to(u3_noun, u3R->cap_p + off); //u3_noun* p = (u3_noun*) u3a_push(sizeof(u3_noun)); *p = a; } /* _n_peek(): pointer to noun at top of stack * off: 0 north, -1 south */ static inline u3_noun* _n_peek(c3_ys off) { return u3to(u3_noun, u3R->cap_p + off); //return (u3_noun*) u3a_peek(sizeof(u3_noun)); } /* _n_peet(): address of the next-to-top of stack * mov: -1 north, 1 south * off: 0 north, -1 south */ static inline u3_noun* _n_peet(c3_ys mov, c3_ys off) { return u3to(u3_noun, (u3R->cap_p - mov) + off); } /* _n_pop(): pop a noun from the cap stack * mov: -1 north, 1 south */ static inline void _n_pop(c3_ys mov) { u3R->cap_p -= mov; } /* _n_pep(): pop and return noun from the cap stack * mov: -1 north, 1 south * off: 0 north, -1 south */ static inline u3_noun _n_pep(c3_ys mov, c3_ys off) { u3_noun r = *(_n_peek(off)); _n_pop(mov); return r; } /* _n_toss(): pep and lose */ static inline void _n_toss(c3_ys mov, c3_ys off) { u3z(_n_pep(mov, off)); } /* _n_rean(): read a c3_s from the bytecode stream */ static inline c3_s _n_resh(c3_y* buf, c3_s* ip_s) { c3_y les = buf[(*ip_s)++]; c3_y mos = buf[(*ip_s)++]; return les | (mos << 8); } /* _n_rean(): read a noun from the bytecode stream */ static inline u3_noun _n_rean(c3_y* buf, c3_s* ip_s) { c3_y one = buf[(*ip_s)++], two = buf[(*ip_s)++], tre = buf[(*ip_s)++], qua = buf[(*ip_s)++]; return one | (two << 8) | (tre << 16) | (qua << 24); } /* _n_bite(): compile a nock formula to bytecode */ static inline c3_y* _n_bite(u3_noun fol) { u3_noun bok = u3_nul; c3_s len_s = _n_comp(&bok, fol, c3y, c3y); c3_y* buf_y = _n_asm(bok, len_s); u3m_p("fol", fol); _n_print_byc(buf_y); return buf_y; } /* _n_find(): return bytecode for given formula. fol is RETAINED. */ static inline c3_y* _n_find(u3_noun fol) { u3_noun got = u3h_get(u3R->byc.har_p, fol); if ( u3_none != got ) { return u3a_into(got); } else { c3_y* gop = _n_bite(fol); got = u3a_outa(gop); u3h_put(u3R->byc.har_p, fol, got); return gop; } } /* _n_swap(): swap two items on the top of the stack, return pointer to top */ static inline u3_noun* _n_swap(c3_ys mov, c3_ys off) { u3_noun* top = _n_peek(off); u3_noun* up = _n_peet(mov, off); u3_noun tmp = *up; *up = *top; *top = tmp; return top; } /* _n_kale(): bail(exit) if not cell */ static inline u3_noun _n_kale(u3_noun a) { if ( c3n == u3du(a) ) { u3m_bail(c3__exit); } return a; } typedef struct { c3_y* pog; c3_s ip_s; } burnframe; /* _n_burn(): pog: program * bus: subject * mov: -1 north, 1 south * off: 0 north, -1 south */ static u3_noun _n_burn(c3_y* pog, u3_noun bus, c3_ys mov, c3_ys off) { /* OPCODE TABLE */ static void* lab[] = { &&do_halt, &&do_bail, &&do_copy, &&do_swap, &&do_toss, &&do_auto, &&do_ault, &&do_head, &&do_held, &&do_tail, &&do_tall, &&do_fras, &&do_frag, &&do_frab, &&do_flas, &&do_flag, &&do_flab, &&do_lit0, &&do_lit1, &&do_litb, &&do_lits, &&do_litn, &&do_lil0, &&do_lil1, &&do_lilb, &&do_lils, &&do_liln, &&do_nolk, &&do_noct, &&do_nock, &&do_deep, &&do_bump, &&do_same, &&do_salm, &&do_skip, &&do_sbip, &&do_skin, &&do_sbin, &&do_snoc, &&do_snol, &&do_kicb, &&do_kics, &&do_kick, &&do_ticb, &&do_tics, &&do_tick, &&do_wils, &&do_wish, &&do_cush, &&do_drop, &&do_heck, &&do_slog, &&do_falt, &&do_fast, &&do_skib, &&do_skim, &&do_slib, &&do_slim, &&do_save }; c3_s sip_s, ip_s = 0; u3_noun* top; u3_noun x, o; u3p(void) empty; burnframe* fam; empty = u3R->cap_p; _n_push(mov, off, bus); #define BURN() goto *lab[pog[ip_s++]] BURN(); while ( 1 ) { do_halt: // [product ...burnframes...] x = _n_pep(mov, off); if ( empty == u3R->cap_p ) { return x; } else { fam = u3to(burnframe, u3R->cap_p) + off; pog = fam->pog; ip_s = fam->ip_s; u3R->cap_p = u3of(burnframe, fam - mov); _n_push(mov, off, x); BURN(); } do_bail: u3m_bail(c3__exit); return u3_none; do_copy: top = _n_peek(off); _n_push(mov, off, u3k(*top)); BURN(); do_swap: _n_swap(mov, off); BURN(); do_toss: _n_toss(mov, off); BURN(); do_auto: // [tel bus hed] x = _n_pep(mov, off); // [bus hed] top = _n_swap(mov, off); // [hed bus] *top = u3nc(*top, x); // [pro bus] BURN(); do_ault: // [tel bus hed] x = _n_pep(mov, off); // [bus hed] _n_toss(mov, off); // [hed] top = _n_peek(off); *top = u3nc(*top, x); // [pro] BURN(); do_head: top = _n_peek(off); _n_push(mov, off, u3k(u3h(_n_kale(*top)))); BURN(); do_held: top = _n_peek(off); o = _n_kale(*top); *top = u3k(u3h(o)); u3z(o); BURN(); do_tail: top = _n_peek(off); _n_push(mov, off, u3k(u3t(_n_kale(*top)))); BURN(); do_tall: top = _n_peek(off); o = _n_kale(*top); *top = u3k(u3t(o)); u3z(o); BURN(); do_fras: x = _n_resh(pog, &ip_s); goto frag_in; do_frag: x = _n_rean(pog, &ip_s); goto frag_in; do_frab: x = pog[ip_s++]; frag_in: top = _n_peek(off); _n_push(mov, off, u3k(u3x_at(x, *top))); BURN(); do_flas: x = _n_resh(pog, &ip_s); goto flag_in; do_flag: x = _n_rean(pog, &ip_s); goto flag_in; do_flab: x = pog[ip_s++]; flag_in: top = _n_peek(off); o = *top; *top = u3k(u3x_at(x, o)); u3z(o); BURN(); do_lil0: _n_toss(mov, off); do_lit0: x = 0; goto quot_in; do_lil1: _n_toss(mov, off); do_lit1: x = 1; goto quot_in; do_lils: _n_toss(mov, off); do_lits: x = _n_resh(pog, &ip_s); goto quot_in; do_liln: _n_toss(mov, off); do_litn: x = u3k(_n_rean(pog, &ip_s)); goto quot_in; do_lilb: _n_toss(mov, off); do_litb: x = pog[ip_s++]; quot_in: _n_push(mov, off, x); BURN(); do_noct: // [fol old bus] o = _n_pep(mov, off); // [old bus] _n_toss(mov, off); // [bus] goto nock_out; do_nolk: // [fol old bus] o = _n_pep(mov, off); // [old bus] _n_toss(mov, off); // [bus] goto nock_in; do_nock: // [fol old bus] o = _n_pep(mov, off); // [old bus] _n_swap(mov, off); // [bus old] nock_in: x = _n_pep(mov, off); fam = u3to(burnframe, u3R->cap_p) + off + mov; u3R->cap_p = u3of(burnframe, fam); fam->ip_s = ip_s; fam->pog = pog; _n_push(mov, off, x); nock_out: pog = _n_find(o); ip_s = 0; u3z(o); BURN(); do_deep: top = _n_peek(off); o = *top; *top = u3du(o); u3z(o); BURN(); do_bump: top = _n_peek(off); o = *top; *top = u3i_vint(o); u3z(o); BURN(); do_same: x = _n_pep(mov, off); top = _n_swap(mov, off); o = *top; *top = u3r_sing(x, o); u3z(o); BURN(); do_salm: x = _n_pep(mov, off); _n_toss(mov, off); top = _n_peek(off); o = *top; *top = u3r_sing(x, o); u3z(o); BURN(); do_skip: ip_s += _n_resh(pog, &ip_s); BURN(); do_sbip: ip_s += pog[ip_s] + 1; BURN(); do_skin: sip_s = _n_resh(pog, &ip_s); goto skin_in; do_sbin: sip_s = pog[ip_s++]; skin_in: x = _n_pep(mov, off); if ( c3n == x ) { ip_s += sip_s; } else if ( c3y != x ) { u3m_bail(c3__exit); return u3_none; } BURN(); do_snoc: // [hed tel] x = _n_pep(mov, off); top = _n_peek(off); _n_push(mov, off, u3nc(x, u3k(*top))); BURN(); do_snol: x = _n_pep(mov, off); top = _n_peek(off); *top = u3nc(x, *top); BURN(); do_kics: x = _n_resh(pog, &ip_s); goto kick_in; do_kick: x = _n_rean(pog, &ip_s); goto kick_in; do_kicb: x = pog[ip_s++]; kick_in: top = _n_peek(off); o = *top; u3t_off(noc_o); *top = u3j_kick(o, x); u3t_on(noc_o); if ( u3_none == *top ) { u3_noun fol = u3x_at(x, o); _n_toss(mov, off); fam = u3to(burnframe, u3R->cap_p) + off + mov; u3R->cap_p = u3of(burnframe, fam); fam->ip_s = ip_s; fam->pog = pog; pog = _n_find(fol); ip_s = 0; _n_push(mov, off, o); } BURN(); do_tics: x = _n_resh(pog, &ip_s); goto tick_in; do_tick: x = _n_rean(pog, &ip_s); goto tick_in; do_ticb: x = pog[ip_s++]; tick_in: top = _n_peek(off); o = *top; u3t_off(noc_o); *top = u3j_kick(o, x); u3t_on(noc_o); if ( u3_none == *top ) { u3_noun fol = u3r_at(x, o); *top = o; pog = _n_find(fol); ip_s = 0; } BURN(); do_wils: // [gof bus ref] o = _n_pep(mov,off); // [bus ref] _n_toss(mov, off); // [ref] top = _n_peek(off); goto wish_in; do_wish: // [gof bus ref] o = _n_pep(mov,off); // [bus ref] top = _n_swap(mov, off); // [ref bus] wish_in: u3t_off(noc_o); x = u3m_soft_esc(u3k(o), *top); u3t_on(noc_o); if ( c3n == u3du(x) ) { u3m_bail(u3nt(1, o, 0)); return u3_none; } else if ( c3n == u3du(u3t(x)) ) { // replace with proper error stack push u3t_push(u3nc(c3__hunk, _n_mush(o))); u3m_bail(c3__exit); return u3_none; } else { u3z(o); *top = u3k(u3t(u3t(x))); u3z(x); BURN(); } do_cush: x = _n_rean(pog, &ip_s); o = _n_pep(mov, off); u3t_push(u3nc(u3k(x), o)); BURN(); do_drop: u3t_drop(); BURN(); do_heck: x = _n_pep(mov, off); if ( c3y == u3ud(x) ) { u3t_off(noc_o); u3t_heck(x); u3t_on(noc_o); } else { u3z(x); } BURN(); do_slog: x = _n_pep(mov, off); if ( !(u3C.wag_w & u3o_quiet) ) { u3t_off(noc_o); u3t_slog(x); u3t_on(noc_o); } else { u3z(x); } BURN(); do_falt: // [pro bus clu] o = _n_pep(mov, off); // [bus clu] _n_toss(mov, off); // [clu] top = _n_peek(off); goto fast_in; do_fast: // [pro bus clu] o = _n_pep(mov, off); // [bus clu] top = _n_swap(mov, off); // [clu bus] fast_in: u3t_off(noc_o); u3j_mine(*top, u3k(o)); u3t_on(noc_o); *top = o; BURN(); do_skim: sip_s = _n_resh(pog, &ip_s); goto skim_in; do_slim: sip_s = _n_resh(pog, &ip_s); goto slim_in; do_slib: sip_s = pog[ip_s++]; goto slim_in; do_skib: sip_s = pog[ip_s++]; skim_in: top = _n_peek(off); _n_push(mov, off, u3k(*top)); slim_in: o = _n_rean(pog, &ip_s); x = u3nc(u3k(o), _n_pep(mov, off)); o = u3z_find(144 + c3__nock, x); if ( u3_none == o ) { _n_push(mov, off, x); _n_push(mov, off, u3k(u3t(x))); } else { ip_s += sip_s; _n_push(mov, off, o); u3z(x); } BURN(); do_save: x = _n_pep(mov, off); top = _n_peek(off); o = *top; if ( &(u3H->rod_u) != u3R ) { u3z_save(144 + c3__nock, o, x); } *top = x; u3z(o); BURN(); } } static void _n_print_byc(c3_y* pog) { // match to OPCODE TABLE static char* names[] = { "halt", "bail", "copy", "swap", "toss", "auto", "ault", "head", "held", "tail", "tall", "fras", "frag", "frab", "flas", "flag", "flab", "lit0", "lit1", "litb", "lits", "litn", "lil0", "lil1", "lilb", "lils", "liln", "nolk", "noct", "nock", "deep", "bump", "same", "salm", "skip", "sbip", "skin", "sbin", "snoc", "snol", "kicb", "kics", "kick", "ticb", "tics", "tick", "wils", "wish", "cush", "drop", "heck", "slog", "falt", "fast", "skib", "skim", "slib", "slim", "save" }; c3_s ip_s = 0; printf("bytecode: {"); int first = 1; while ( pog[ip_s] ) { if ( first ) { first = 0; } else { printf(" "); } switch ( pog[ip_s] ) { default: printf("%s", names[pog[ip_s++]]); break; case FRAB: case FLAB: case LILB: case LITB: case SBIP: case SBIN: case KICB: case TICB: printf("[%s ", names[pog[ip_s++]]); printf("%u]", pog[ip_s++]); break; case FRAS: case FLAS: case LILS: case LITS: case SKIP: case SKIN: case KICS: case TICS: printf("[%s ", names[pog[ip_s++]]); printf("%u]", _n_resh(pog, &ip_s)); break; case CUSH: case FRAG: case FLAG: case LILN: case LITN: case TICK: case KICK: printf("[%s ", names[pog[ip_s++]]); printf("%u]", _n_rean(pog, &ip_s)); break; case SKIB: case SLIB: printf("[%s", names[pog[ip_s++]]); printf(" %u ", pog[ip_s++]); printf("%u]", _n_rean(pog, &ip_s)); break; case SKIM: case SLIM: printf("[%s", names[pog[ip_s++]]); printf(" %u ", _n_resh(pog, &ip_s)); printf("%u]", _n_rean(pog, &ip_s)); break; } } printf(" halt}\r\n"); } static void _n_print_stack(u3p(u3_noun) empty) { c3_w cur_p = u3R->cap_p; printf("["); int first = 1; while ( cur_p != empty ) { if ( first ) { first = 0; } else { printf(" "); } if ( c3y == u3a_is_north(u3R) ) { printf("%u", *(u3to(u3_noun, cur_p))); cur_p++; } else { printf("%u", *(u3to(u3_noun, cur_p-1))); cur_p--; } } printf("]\r\n"); } /* _n_burn_on(): produce .*(bus fol) with bytecode interpreter */ static u3_noun _n_burn_on(u3_noun bus, u3_noun fol) { c3_y* pog = _n_find(fol); c3_ys mov, off; u3z(fol); if ( c3y == u3a_is_north(u3R) ) { mov = -1; off = 0; } else { mov = 1; off = -1; } return _n_burn(pog, bus, mov, off); } u3_noun u3n_burn_on(u3_noun bus, u3_noun fol) { u3_noun pro; u3t_on(noc_o); pro = _n_burn_on(bus, fol); u3t_off(noc_o); return pro; } /* u3n_beep(): promote bytecode state. */ void u3n_beep(u3p(u3h_root) har_p) { u3m_p("beep", 0); }