/* g/m.c ** ** This file is in the public domain. */ #include #include #include #include #include #include "all.h" static jmp_buf u3_Signal; #ifndef SIGSTKSZ # define SIGSTKSZ 16384 #endif static uint8_t Sigstk[SIGSTKSZ]; void u3_unix_ef_hold(void); // suspend system signal regime void u3_unix_ef_move(void); // restore system signal regime extern void u3_lo_sway(c3_l tab_l, u3_noun tax); #if 0 /* _cm_punt(): crudely print trace. */ static void _cm_punt(u3_noun tax) { u3_noun xat; for ( xat = tax; xat; xat = u3t(xat) ) { u3_cm_p("&", u3h(xat)); } } #endif /* _cm_emergency(): write emergency text to stderr, never failing. */ static void _cm_emergency(c3_c* cap_c, c3_l sig_l) { write(2, "\r\n", 2); write(2, cap_c, strlen(cap_c)); if ( sig_l ) { write(2, ": ", 2); write(2, &sig_l, 4); } write(2, "\r\n", 2); } static void _cm_overflow(void *arg1, void *arg2, void *arg3) { (void)(arg1); (void)(arg2); (void)(arg3); siglongjmp(u3_Signal, c3__over); } /* _cm_signal_handle(): handle a signal in general. */ static void _cm_signal_handle(c3_l sig_l) { if ( c3__over == sig_l ) { sigsegv_leave_handler(_cm_overflow, NULL, NULL, NULL); } else { siglongjmp(u3_Signal, sig_l); } } static void _cm_signal_handle_over(int emergency, stackoverflow_context_t scp) { _cm_signal_handle(c3__over); } static void _cm_signal_handle_term(int x) { // Ignore if we are using base memory from work memory, very rare. // if ( (0 != u3H->rod_u.kid_u) && (&(u3H->rod_u) == u3R) ) { _cm_emergency("ignored", c3__term); } else { _cm_signal_handle(c3__term); } } static void _cm_signal_handle_intr(int x) { // Interrupt: stop work. Ignore if not working, or (rarely) using base. // if ( &(u3H->rod_u) == u3R ) { _cm_emergency("ignored", c3__intr); } else { _cm_signal_handle(c3__intr); } } static void _cm_signal_handle_alrm(int x) { _cm_signal_handle(c3__alrm); } /* _cm_signal_reset(): reset top road after signal longjmp. */ static void _cm_signal_reset(void) { u3R = &u3H->rod_u; u3R->cap_w = u3R->mat_w; u3R->ear_w = 0; u3R->kid_u = 0; } /* _cm_signal_recover(): recover from a deep signal, after longjmp. Free arg. */ static u3_noun _cm_signal_recover(c3_l sig_l, u3_noun arg) { u3_noun tax; // Unlikely to be set, but it can be made to happen. // tax = u3H->rod_u.bug.tax; u3H->rod_u.bug.tax = 0; if ( &(u3H->rod_u) == u3R ) { // A top-level crash - rather odd. We should GC. // _cm_emergency("recover: top", sig_l); u3H->rod_u.how.fag_w |= u3_cs_flag_gc; // Reset the top road - the problem could be a fat cap. // _cm_signal_reset(); if ( (c3__meme == sig_l) && (u3_co_open(u3R) <= 256) ) { // Out of memory at the top level. Error becomes c3__full, // and we release the emergency buffer. To continue work, // we need to readjust the image, eg, migrate to 64 bit. // u3z(u3R->bug.mer); u3R->bug.mer = 0; sig_l = c3__full; } return u3nt(3, sig_l, tax); } else { u3_noun pro; // A signal was generated while we were within Nock. // _cm_emergency("recover: dig", sig_l); // Descend to the innermost trace, collecting stack. // { u3_cs_road* rod_u; u3R = &(u3H->rod_u); rod_u = u3R; while ( rod_u->kid_u ) { tax = u3_ckb_weld(u3_ca_take(rod_u->kid_u->bug.tax), tax); rod_u = rod_u->kid_u; } } pro = u3nt(3, sig_l, tax); _cm_signal_reset(); u3z(arg); return pro; } } /* _cm_signal_deep(): start deep processing; set timer for sec_w or 0. */ static void _cm_signal_deep(c3_w sec_w) { u3_unix_ef_hold(); stackoverflow_install_handler(_cm_signal_handle_over, Sigstk, SIGSTKSZ); signal(SIGINT, _cm_signal_handle_intr); signal(SIGTERM, _cm_signal_handle_term); // Provide a little emergency memory, for use in case things // go utterly haywire. // if ( 0 == u3H->rod_u.bug.mer ) { u3H->rod_u.bug.mer = u3_ci_string("emergency buffer"); } if ( sec_w ) { struct itimerval itm_u; timerclear(&itm_u.it_interval); itm_u.it_value.tv_sec = sec_w; itm_u.it_value.tv_usec = 0; setitimer(ITIMER_VIRTUAL, &itm_u, 0); signal(SIGVTALRM, _cm_signal_handle_alrm); } } /* _cm_signal_done(): */ static void _cm_signal_done() { // signal(SIGINT, SIG_IGN); signal(SIGTERM, SIG_IGN); signal(SIGVTALRM, SIG_IGN); stackoverflow_deinstall_handler(); { struct itimerval itm_u; timerclear(&itm_u.it_interval); timerclear(&itm_u.it_value); setitimer(ITIMER_VIRTUAL, &itm_u, 0); } u3_unix_ef_move(); } /* u3_cm_signal(): treat a nock-level exception as a signal interrupt. */ void u3_cm_signal(u3_noun sig_l) { siglongjmp(u3_Signal, sig_l); } /* u3_cm_file(): load file, as atom, or bail. */ u3_noun u3_cm_file(c3_c* pas_c) { struct stat buf_b; c3_i fid_i = open(pas_c, O_RDONLY, 0644); c3_w fln_w, red_w; c3_y* pad_y; if ( (fid_i < 0) || (fstat(fid_i, &buf_b) < 0) ) { fprintf(stderr, "%s: %s\r\n", pas_c, strerror(errno)); return u3_cm_bail(c3__fail); } fln_w = buf_b.st_size; pad_y = c3_malloc(buf_b.st_size); red_w = read(fid_i, pad_y, fln_w); close(fid_i); if ( fln_w != red_w ) { free(pad_y); return u3_cm_bail(c3__fail); } else { u3_noun pad = u3_ci_bytes(fln_w, (c3_y *)pad_y); free(pad_y); return pad; } } /* _find_north(): in restored image, point to a north home. */ static u3_road* _find_north(c3_w* mem_w, c3_w siz_w, c3_w len_w) { return (void *) ((mem_w + len_w) - siz_w); } #if 0 /* _find_south(): in restored image, point to a south home. */ static u3_road* _find_south(c3_w* mem_w, c3_w siz_w, c3_w len_w) { return (void *)mem_w; } #endif static u3_road* _boot_north(c3_w* mem_w, c3_w siz_w, c3_w len_w) { c3_w* rut_w = mem_w; c3_w* hat_w = rut_w; c3_w* mat_w = ((mem_w + len_w) - siz_w); c3_w* cap_w = mat_w; u3_road* rod_u = (void*) mat_w; // memset(mem_w, 0, 4 * len_w); // enable in case of corruption memset(rod_u, 0, 4 * siz_w); rod_u->rut_w = rut_w; rod_u->hat_w = hat_w; rod_u->mat_w = mat_w; rod_u->cap_w = cap_w; return rod_u; } /* _boot_south(): install a south road. */ static u3_road* _boot_south(c3_w* mem_w, c3_w siz_w, c3_w len_w) { c3_w* rut_w = (mem_w + len_w); c3_w* hat_w = rut_w; c3_w* mat_w = mem_w; c3_w* cap_w = mat_w + siz_w; u3_road* rod_u = (void*) mat_w; // memset(mem_w, 0, 4 * len_w); // enable in case of corruption memset(rod_u, 0, 4 * siz_w); rod_u->rut_w = rut_w; rod_u->hat_w = hat_w; rod_u->mat_w = mat_w; rod_u->cap_w = cap_w; return rod_u; } /* _boot_parts(): build internal tables. */ static void _boot_parts(void) { u3R->cax.har_u = u3_ch_new(); u3R->jed.har_u = u3_ch_new(); u3R->jed.das = u3nc(u3_nul, u3_nul); } /* u3_cm_mark(): mark all nouns in the road. */ void u3_cm_mark(void) { u3_ch_mark(u3R->jed.har_u); u3_ca_mark_noun(u3R->jed.das); u3_ca_mark_noun(u3R->ski.flu); u3_ca_mark_noun(u3R->bug.tax); u3_ca_mark_noun(u3R->bug.mer); u3_ca_mark_noun(u3R->pro.don); u3_ca_mark_noun(u3R->pro.day); u3_ch_mark(u3R->cax.har_u); } /* u3_cm_boot(): instantiate or activate image. */ void u3_cm_boot(c3_o nuu_o, c3_o bug_o) { if ( u3_yes == nuu_o ) { u3H = (void *)_boot_north(u3_Loom + 1, c3_wiseof(u3_cs_home), u3_cc_words - 1); u3R = &u3H->rod_u; _boot_parts(); } else { u3H = (void *)_find_north(u3_Loom + 1, c3_wiseof(u3_cs_home), u3_cc_words - 1); u3R = &u3H->rod_u; } if ( u3_so(bug_o) ) { u3R->how.fag_w |= u3_cs_flag_debug; } } /* u3_cm_clear(): clear all allocated data in road. */ void u3_cm_clear(void) { u3_ch_free(u3R->cax.har_u); u3_ch_free(u3R->jed.har_u); u3_ca_lose(u3R->jed.das); } #if 0 void u3_cm_dump(void) { c3_w hat_w; c3_w fre_w = 0; c3_w i_w; hat_w = u3_so(u3_co_is_north(u3R)) ? u3R->hat_w - u3R->rut_w : u3R->rut_w - u3R->hat_w; for ( i_w = 0; i_w < u3_cc_fbox_no; i_w++ ) { u3_cs_fbox* fre_u = u3R->all.fre_u[i_w]; while ( fre_u ) { fre_w += fre_u->box_u.siz_w; fre_u = fre_u->nex_u; } } fprintf(stderr, "dump: hat_w %x, fre_w %x, allocated %x\n", hat_w, fre_w, (hat_w - fre_w)); if ( 0 != (hat_w - fre_w) ) { c3_w* box_w = u3_so(u3_co_is_north(u3R)) ? u3R->rut_w : u3R->hat_w; c3_w mem_w = 0; while ( box_w < (u3_so(u3_co_is_north(u3R)) ? u3R->hat_w : u3R->rut_w) ) { u3_cs_box* box_u = (void *)box_w; if ( 0 != box_u->use_w ) { #ifdef U3_MEMORY_DEBUG // printf("live %d words, code %x\n", box_u->siz_w, box_u->cod_w); #endif mem_w += box_u->siz_w; } box_w += box_u->siz_w; } fprintf(stderr, "second count: %x\n", mem_w); } } #endif c3_w Exit; /* u3_cm_bail(): bail out. Does not return. ** ** Bail motes: ** ** %evil :: erroneous cryptography ** %exit :: semantic failure ** %oops :: assertion failure ** %intr :: interrupt ** %fail :: computability failure ** %over :: stack overflow (a kind of %fail) ** %need :: namespace block ** %meme :: out of memory ** ** These are equivalents of the full exception noun, the error ball: ** ** $% [%0 success] ** [%1 paths] ** [%2 trace] ** [%3 code trace] ** == */ c3_i u3_cm_bail(u3_noun how) { if ( (c3__exit == how) && (u3R == &u3H->rod_u) ) { abort(); } if ( c3__fail == how ) { abort(); } if ( c3__foul == how ) { abort(); } /* Printf some metadata. */ if ( c3__exit != how ) { if ( u3_so(u3ud(how)) ) { c3_c str_c[5]; str_c[0] = ((how >> 0) & 0xff); str_c[1] = ((how >> 8) & 0xff); str_c[2] = ((how >> 16) & 0xff); str_c[3] = ((how >> 24) & 0xff); str_c[4] = 0; fprintf(stderr, "bail: %s (at %llu)\r\n", str_c, u3N); } else { c3_assert(u3_so(u3ud(u3h(how)))); fprintf(stderr, "bail: %d (at %llu)\r\n", u3h(how), u3N); u3_cm_p("bail", u3t(how)); } } if ( c3__oops == how ) { abort(); } if ( &(u3H->rod_u) == u3R ) { // For top-level errors, which shouln't happen often, we have no // choice but to use the signal process; and we require the flat // form of how. // c3_assert(u3_so(u3_co_is_cat(how))); u3_cm_signal(how); } /* Reconstruct a correct error ball. */ { if ( u3_so(u3ud(how)) ) { switch ( how ) { case c3__exit: { how = u3nc(2, u3R->bug.tax); break; } case c3__need: { c3_assert(0); } default: { how = u3nt(3, how, u3R->bug.tax); break; } } } } /* Longjmp, with an underscore. */ _longjmp(u3R->esc.buf, how); return 0; } int c3_cooked() { return u3_cm_bail(c3__oops); } /* u3_cm_error(): bail out with %exit, ct_pushing error. */ c3_i u3_cm_error(c3_c* str_c) { fprintf(stderr, "error: %s\r\n", str_c); // rong return u3_cm_bail(c3__exit); } /* u3_cm_leap(): in u3R, create a new road within the existing one. */ void u3_cm_leap(c3_w pad_w) { c3_w len_w; u3_road* rod_u; /* Measure the pad - we'll need it. */ { if ( pad_w < u3R->all.fre_w ) { pad_w = 0; } else { pad_w -= u3R->all.fre_w; } if ( (pad_w + c3_wiseof(u3_cs_road)) >= u3_co_open(u3R) ) { u3_cm_bail(c3__meme); } len_w = u3_co_open(u3R) - (pad_w + c3_wiseof(u3_cs_road)); } /* Allocate a region on the cap. */ { c3_w* bot_w; if ( u3_yes == u3_co_is_north(u3R) ) { bot_w = (u3R->cap_w - len_w); u3R->cap_w -= len_w; rod_u = _boot_south(bot_w, c3_wiseof(u3_cs_road), len_w); #if 0 fprintf(stderr, "leap: from north %p (cap %p), to south %p\r\n", u3R, u3R->cap_w + len_w, rod_u); #endif } else { bot_w = u3R->cap_w; u3R->cap_w += len_w; rod_u = _boot_north(bot_w, c3_wiseof(u3_cs_road), len_w); #if 0 fprintf(stderr, "leap: from north %p (cap %p), to south %p\r\n", u3R, u3R->cap_w - len_w, rod_u); #endif } } /* Attach the new road to its parents. */ { c3_assert(0 == u3R->kid_u); rod_u->par_u = u3R; u3R->kid_u = rod_u; } /* Set up the new road. */ { if ( u3R->how.fag_w & u3_cs_flag_debug ) { rod_u->how.fag_w |= u3_cs_flag_debug; } u3R = rod_u; _boot_parts(); } } /* u3_cm_fall(): in u3R, return an inner road to its parent. */ void u3_cm_fall() { c3_assert(0 != u3R->par_u); #if 0 fprintf(stderr, "fall: from %s %p, to %s %p (cap %p, was %p)\r\n", u3_so(u3_co_is_north(u3R)) ? "north" : "south", u3R, u3_so(u3_co_is_north(u3R)) ? "north" : "south", u3R->par_u, u3R->hat_w, u3R->rut_w); #endif /* The new cap is the old hat - it's as simple as that. */ u3R->par_u->cap_w = u3R->hat_w; /* And, we're back home. */ u3R = u3R->par_u; u3R->kid_u = 0; } /* u3_cm_hate(): new, integrated leap mechanism (enter). */ void u3_cm_hate(c3_w pad_w) { c3_assert(0 == u3R->ear_w); u3R->ear_w = u3R->cap_w; u3_cm_leap(pad_w); } /* u3_cm_love(): return product from leap. */ u3_noun u3_cm_love(u3_noun pro) { u3_noun das = u3R->jed.das; u3_ch_root* har_u = u3R->jed.har_u; u3_cm_fall(); pro = u3_ca_take(pro); u3_cj_reap(das, har_u); u3R->cap_w = u3R->ear_w; u3R->ear_w = 0; return pro; } /* u3_cm_golf(): record cap_w length for u3_flog(). */ c3_w u3_cm_golf(void) { if ( u3_yes == u3_co_is_north(u3R) ) { return u3R->mat_w - u3R->cap_w; } else { return u3R->cap_w - u3R->mat_w; } } /* u3_cm_flog(): reset cap_w. */ void u3_cm_flog(c3_w gof_w) { // Enable memsets in case of memory corruption. // if ( u3_yes == u3_co_is_north(u3R) ) { c3_w* bot_w = (u3R->mat_w - gof_w); // c3_w len_w = (bot_w - u3R->cap_w); // memset(u3R->cap_w, 0, 4 * len_w); u3R->cap_w = bot_w; } else { c3_w* bot_w = u3R->mat_w + gof_w; // c3_w len_w = (u3R->cap_w - bot_w); // memset(bot_w, 0, 4 * len_w); // u3R->cap_w = bot_w; } } /* u3_cm_water(): produce watermarks. */ void u3_cm_water(c3_w* low_w, c3_w* hig_w) { c3_assert(u3R == &u3H->rod_u); *low_w = (u3H->rod_u.hat_w - u3H->rod_u.rut_w); *hig_w = (u3H->rod_u.mat_w - u3H->rod_u.cap_w) + c3_wiseof(u3_cs_home); } /* u3_cm_soft_top(): top-level safety wrapper. */ u3_noun u3_cm_soft_top(c3_w sec_w, // timer seconds c3_w pad_w, // base memory pad u3_funk fun_f, u3_noun arg) { u3_noun why, pro; c3_l sig_l; /* Enter internal signal regime. */ _cm_signal_deep(0); if ( 0 != (sig_l = sigsetjmp(u3_Signal, 1)) ) { // return to blank state // _cm_signal_done(); // recover memory state from the top down // return _cm_signal_recover(sig_l, arg); } /* Record the cap, and leap. */ u3_cm_hate(pad_w); /* Trap for ordinary nock exceptions. */ if ( 0 == (why = u3_cm_trap()) ) { pro = fun_f(arg); /* Make sure the inner routine did not create garbage. */ if ( u3R->how.fag_w & u3_cs_flag_debug ) { u3_ce_grab("top", pro, u3_none); } /* Revert to external signal regime. */ _cm_signal_done(); /* Produce success, on the old road. */ pro = u3nc(0, u3_cm_love(pro)); } else { /* Overload the error result. */ pro = u3_cm_love(why); } /* Revert to external signal regime. */ _cm_signal_done(); /* Free the argument. */ u3z(arg); /* Return the product. */ return pro; } /* u3_cm_soft_sure(): top-level call assumed correct. */ u3_noun u3_cm_soft_sure(u3_funk fun_f, u3_noun arg) { u3_noun pro, pru = u3_cm_soft_top(0, 32768, fun_f, arg); c3_assert(u3_so(u3du(pru))); pro = u3k(u3t(pru)); u3z(pru); return pro; } /* u3_cm_soft_slam: top-level call. */ u3_noun _cm_slam(u3_noun arg) { return u3_cn_slam_on(u3h(arg), u3t(arg)); } u3_noun u3_cm_soft_slam(u3_noun gat, u3_noun sam) { return u3_cm_soft_sure(_cm_slam, u3nc(gat, sam)); } /* u3_cm_soft_run(): descend into virtualization context. */ u3_noun u3_cm_soft_run(u3_noun fly, u3_funq fun_f, u3_noun aga, u3_noun agb) { u3_noun why, pro; /* Record the cap, and leap. */ u3_cm_hate(32768); /* Configure the new road. */ { u3R->ski.flu = u3nc(fly, u3R->par_u->ski.flu); u3R->pro.don = u3R->par_u->pro.don; u3R->bug.tax = 0; } /* Trap for exceptions. */ if ( 0 == (why = u3_cm_trap()) ) { pro = fun_f(aga, agb); if ( u3R->how.fag_w & u3_cs_flag_debug ) { u3_ce_grab("top", pro, u3_none); } /* Produce success, on the old road. */ pro = u3nc(0, u3_cm_love(pro)); } else { /* Produce - or fall again. */ { c3_assert(u3_so(u3du(why))); switch ( u3h(why) ) { default: c3_assert(0); return 0; case 0: { // unusual: bail with success. pro = u3_cm_love(why); } break; case 1: { // blocking request pro = u3_cm_love(why); } break; case 2: { // true exit pro = u3_cm_love(why); } break; case 3: { // failure; rebail w/trace u3_noun yod = u3_cm_love(u3t(why)); u3_cm_bail (u3nt(3, u3_ca_take(u3h(yod)), u3_ckb_weld(u3t(yod), u3k(u3R->bug.tax)))); } break; case 4: { // meta-bail u3_cm_bail(u3_cm_love(u3t(why))); } break; } } } /* Release the arguments. */ { u3z(fly); u3z(aga); u3z(agb); } /* Return the product. */ return pro; } /* u3_cm_soft_esc(): namespace lookup. Produces direct result. */ u3_noun u3_cm_soft_esc(u3_noun sam) { u3_noun why, fly, pro; /* Assert preconditions. */ { c3_assert(0 != u3R->ski.flu); fly = u3h(u3R->ski.flu); } /* Record the cap, and leap. */ u3_cm_hate(32768); /* Configure the new road. */ { u3R->ski.flu = u3t(u3R->par_u->ski.flu); u3R->pro.don = u3R->par_u->pro.don; u3R->bug.tax = 0; } /* Trap for exceptions. */ if ( 0 == (why = u3_cm_trap()) ) { pro = u3_cn_slam_on(fly, sam); /* Fall back to the old road, leaving temporary memory intact. */ pro = u3_cm_love(pro); } else { /* Push the error back up to the calling context - not the run we ** are in, but the caller of the run, matching pure nock semantics. */ u3_cm_bail(u3nc(4, u3_cm_love(why))); } /* Release the sample. */ u3z(sam); /* Return the product. */ return pro; } /* u3_cm_soft(): top-level wrapper. ** ** Produces [0 product] or [%error (list tank)], top last. */ u3_noun u3_cm_soft(c3_w sec_w, u3_funk fun_f, u3_noun arg) { u3_noun why; why = u3_cm_soft_top(sec_w, (1 << 17), fun_f, arg); // 512K pad if ( 0 == u3h(why) ) { return why; } else { u3_noun tax, cod, pro, mok; c3_assert(1 != u3h(why)); // don't use .^ at the top level! if ( 2 == u3h(why) ) { cod = c3__exit; tax = u3k(u3t(why)); } else { c3_assert(3 == u3h(why)); cod = u3k(u3h(u3t(why))); tax = u3k(u3t(u3t(why))); } mok = u3_dc("mook", 2, tax); pro = u3nc(cod, u3k(u3t(mok))); u3z(mok); u3z(why); return pro; } } /* _cm_is_tas(): yes iff som (RETAIN) is @tas. */ static c3_o _cm_is_tas(u3_atom som, c3_w len_w) { c3_w i_w; for ( i_w = 0; i_w < len_w; i_w++ ) { c3_c c_c = u3_cr_byte(i_w, som); if ( islower(c_c) || (isdigit(c_c) && (0 != i_w) && ((len_w - 1) != i_w)) || '-' == c_c ) { continue; } return u3_no; } return u3_yes; } /* _cm_is_ta(): yes iff som (RETAIN) is @ta. */ static c3_o _cm_is_ta(u3_noun som, c3_w len_w) { c3_w i_w; for ( i_w = 0; i_w < len_w; i_w++ ) { c3_c c_c = u3_cr_byte(i_w, som); if ( (c_c < 32) || (c_c > 127) ) { return u3_no; } } return u3_yes; } /* _cm_hex(): hex byte. */ c3_y _cm_hex(c3_y c_y) { if ( c_y < 10 ) return '0' + c_y; else return 'a' + (c_y - 10); } /* _cm_in_pretty: measure/cut prettyprint. */ static c3_w _cm_in_pretty(u3_noun som, c3_o sel_o, c3_c* str_c) { if ( u3_so(u3du(som)) ) { c3_w sel_w, one_w, two_w; sel_w = 0; if ( u3_so(sel_o) ) { if ( str_c ) { *(str_c++) = '['; } sel_w += 1; } one_w = _cm_in_pretty(u3h(som), u3_yes, str_c); if ( str_c ) { str_c += one_w; *(str_c++) = ' '; } two_w = _cm_in_pretty(u3t(som), u3_no, str_c); if ( str_c ) { str_c += two_w; } if ( u3_so(sel_o) ) { if ( str_c ) { *(str_c++) = ']'; } sel_w += 1; } return one_w + two_w + 1 + sel_w; } else { if ( som < 65536 ) { c3_c buf_c[6]; c3_w len_w; snprintf(buf_c, 6, "%d", som); len_w = strlen(buf_c); if ( str_c ) { strcpy(str_c, buf_c); str_c += len_w; } return len_w; } else { c3_w len_w = u3_cr_met(3, som); if ( u3_so(_cm_is_tas(som, len_w)) ) { c3_w len_w = u3_cr_met(3, som); if ( str_c ) { *(str_c++) = '%'; u3_cr_bytes(0, len_w, (c3_y *)str_c, som); str_c += len_w; } return len_w + 1; } else if ( u3_so(_cm_is_ta(som, len_w)) ) { if ( str_c ) { *(str_c++) = '\''; u3_cr_bytes(0, len_w, (c3_y *)str_c, som); str_c += len_w; *(str_c++) = '\''; } return len_w + 2; } else { c3_w len_w = u3_cr_met(3, som); c3_c *buf_c = malloc(2 + (2 * len_w) + 1); c3_w i_w = 0; c3_w a_w = 0; buf_c[a_w++] = '0'; buf_c[a_w++] = 'x'; for ( i_w = 0; i_w < len_w; i_w++ ) { c3_y c_y = u3_cr_byte(len_w - (i_w + 1), som); if ( (i_w == 0) && (c_y <= 0xf) ) { buf_c[a_w++] = _cm_hex(c_y); } else { buf_c[a_w++] = _cm_hex(c_y >> 4); buf_c[a_w++] = _cm_hex(c_y & 0xf); } } buf_c[a_w] = 0; len_w = a_w; if ( str_c ) { strcpy(str_c, buf_c); str_c += len_w; } free(buf_c); return len_w; } } } } /* u3_cm_pretty(): dumb prettyprint to string. */ c3_c* u3_cm_pretty(u3_noun som) { c3_w len_w = _cm_in_pretty(som, u3_yes, 0); c3_c* pre_c = malloc(len_w + 1); _cm_in_pretty(som, u3_yes, pre_c); pre_c[len_w] = 0; return pre_c; } /* u3_cm_p(): dumb print with caption. */ void u3_cm_p(const c3_c* cap_c, u3_noun som) { c3_c* pre_c = u3_cm_pretty(som); fprintf(stderr, "%s: %s\r\n", cap_c, pre_c); free(pre_c); } /* u3_cm_tape(): dump a tape to stdout. */ void u3_cm_tape(u3_noun tep) { u3_noun tap = tep; while ( u3_nul != tap ) { c3_c car_c; if ( u3h(tap) >= 127 ) { car_c = '?'; } else car_c = u3h(tap); putc(car_c, stdout); tap = u3t(tap); } u3z(tep); } /* u3_cm_wall(): dump a wall to stdout. */ void u3_cm_wall(u3_noun wol) { u3_noun wal = wol; while ( u3_nul != wal ) { u3_cm_tape(u3k(u3h(wal))); putc(13, stdout); putc(10, stdout); wal = u3t(wal); } u3z(wol); }