/* v/term.c ** */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "all.h" #include "vere/vere.h" static void _term_spinner_cb(void*); static void _term_read_cb(uv_stream_t* tcp_u, ssize_t siz_i, const uv_buf_t * buf_u); static inline void _term_suck(u3_utty*, const c3_y*, ssize_t); #define _SPIN_COOL_US 500000 // spinner activation delay when cool #define _SPIN_WARM_US 50000 // spinner activation delay when warm #define _SPIN_RATE_US 250000 // spinner rate (microseconds/frame) #define _SPIN_IDLE_US 500000 // spinner cools down if stopped this long /* _term_msc_out_host(): unix microseconds from current host time. */ static c3_d _term_msc_out_host() { struct timeval tim_tv; gettimeofday(&tim_tv, 0); return 1000000ULL * tim_tv.tv_sec + tim_tv.tv_usec; } /* _term_alloc(): libuv buffer allocator. */ static void _term_alloc(uv_handle_t* had_u, size_t len_i, uv_buf_t* buf ) { // this read can range from a single byte to a paste buffer // 123 bytes has been chosen because its not a power of 2 // this is probably still broken // void* ptr_v = c3_malloc(123); *buf = uv_buf_init(ptr_v, 123); } // XX unused, but %hook is in %zuse. // implement or remove // #if 0 /* _term_close_cb(): free terminal. */ static void _term_close_cb(uv_handle_t* han_t) { u3_utty* tty_u = (void*) han_t; if ( u3_Host.uty_u == tty_u ) { u3_Host.uty_u = tty_u->nex_u; } else { u3_utty* uty_u; for (uty_u = u3_Host.uty_u; uty_u; uty_u = uty_u->nex_u ) { if ( uty_u->nex_u == tty_u ) { uty_u->nex_u = tty_u->nex_u; break; } } } { u3_noun tid = u3dc("scot", c3__ud, tty_u->tid_l); u3_noun pax = u3nq(u3_blip, c3__term, tid, u3_nul); u3v_plan(u3k(pax), u3nc(c3__hook, u3_nul)); u3z(pax); } free(tty_u); } #endif /* u3_term_io_init(): initialize terminal. */ void u3_term_io_init() { u3_utty* uty_u = c3_calloc(sizeof(u3_utty)); if ( c3y == u3_Host.ops_u.dem ) { uty_u->fid_i = 1; uv_pipe_init(u3L, &(uty_u->pop_u), 0); uv_pipe_open(&(uty_u->pop_u), uty_u->fid_i); } else { // Initialize event processing. Rawdog it. // { uty_u->fid_i = 0; // stdin, yes we write to it... uv_pipe_init(u3L, &(uty_u->pop_u), 0); uv_pipe_open(&(uty_u->pop_u), uty_u->fid_i); uv_read_start((uv_stream_t*)&(uty_u->pop_u), _term_alloc, _term_read_cb); } // Configure horrible stateful terminfo api. // { if ( 0 != setupterm(0, 2, 0) ) { c3_assert(!"init-setupterm"); } } // Load terminfo strings. // { c3_w len_w; # define _utfo(way, nam) \ { \ uty_u->ufo_u.way.nam##_y = (const c3_y *) tigetstr(#nam); \ c3_assert(uty_u->ufo_u.way.nam##_y); \ } uty_u->ufo_u.inn.max_w = 0; _utfo(inn, kcuu1); _utfo(inn, kcud1); _utfo(inn, kcub1); _utfo(inn, kcuf1); _utfo(out, clear); _utfo(out, el); // _utfo(out, el1); _utfo(out, ed); _utfo(out, bel); _utfo(out, cub1); _utfo(out, cuf1); _utfo(out, cuu1); _utfo(out, cud1); // _utfo(out, cub); // _utfo(out, cuf); // Terminfo chronically reports the wrong sequence for arrow // keys on xterms. Drastic fix for ridiculous unacceptable bug. // Yes, we could fix this with smkx/rmkx, but this is retarded as well. { uty_u->ufo_u.inn.kcuu1_y = (const c3_y*)"\033[A"; uty_u->ufo_u.inn.kcud1_y = (const c3_y*)"\033[B"; uty_u->ufo_u.inn.kcuf1_y = (const c3_y*)"\033[C"; uty_u->ufo_u.inn.kcub1_y = (const c3_y*)"\033[D"; } uty_u->ufo_u.inn.max_w = 0; if ( (len_w = strlen((c3_c*)uty_u->ufo_u.inn.kcuu1_y)) > uty_u->ufo_u.inn.max_w ) { uty_u->ufo_u.inn.max_w = len_w; } if ( (len_w = strlen((c3_c*)uty_u->ufo_u.inn.kcud1_y)) > uty_u->ufo_u.inn.max_w ) { uty_u->ufo_u.inn.max_w = len_w; } if ( (len_w = strlen((c3_c*)uty_u->ufo_u.inn.kcub1_y)) > uty_u->ufo_u.inn.max_w ) { uty_u->ufo_u.inn.max_w = len_w; } if ( (len_w = strlen((c3_c*)uty_u->ufo_u.inn.kcuf1_y)) > uty_u->ufo_u.inn.max_w ) { uty_u->ufo_u.inn.max_w = len_w; } } // Load old terminal state to restore. // { if ( 0 != tcgetattr(uty_u->fid_i, &uty_u->bak_u) ) { c3_assert(!"init-tcgetattr"); } if ( -1 == fcntl(uty_u->fid_i, F_GETFL, &uty_u->cug_i) ) { c3_assert(!"init-fcntl"); } uty_u->cug_i &= ~O_NONBLOCK; // could fix? uty_u->nob_i = uty_u->cug_i | O_NONBLOCK; // O_NDELAY on older unix } // Construct raw termios configuration. // { uty_u->raw_u = uty_u->bak_u; uty_u->raw_u.c_lflag &= ~(ECHO | ECHONL | ICANON | IEXTEN); uty_u->raw_u.c_iflag &= ~(ICRNL | INPCK | ISTRIP); uty_u->raw_u.c_cflag &= ~(CSIZE | PARENB); uty_u->raw_u.c_cflag |= CS8; uty_u->raw_u.c_oflag &= ~(OPOST); uty_u->raw_u.c_cc[VMIN] = 0; uty_u->raw_u.c_cc[VTIME] = 0; } // Initialize mirror and accumulator state. // { uty_u->tat_u.mir.lin_w = 0; uty_u->tat_u.mir.len_w = 0; uty_u->tat_u.mir.cus_w = 0; uty_u->tat_u.esc.ape = c3n; uty_u->tat_u.esc.bra = c3n; uty_u->tat_u.fut.len_w = 0; uty_u->tat_u.fut.wid_w = 0; } } // This is terminal 1, linked in host. // { uty_u->tid_l = 1; uty_u->nex_u = 0; u3_Host.uty_u = uty_u; } if ( c3n == u3_Host.ops_u.dem ) { // Start raw input. // { if ( 0 != tcsetattr(uty_u->fid_i, TCSADRAIN, &uty_u->raw_u) ) { c3_assert(!"init-tcsetattr"); } if ( -1 == fcntl(uty_u->fid_i, F_SETFL, uty_u->nob_i) ) { c3_assert(!"init-fcntl"); } } // Start spinner thread. // { uty_u->tat_u.sun.sit_u = (uv_thread_t*)malloc(sizeof(uv_thread_t)); if ( uty_u->tat_u.sun.sit_u ) { uv_mutex_init(&uty_u->tat_u.mex_u); uv_mutex_lock(&uty_u->tat_u.mex_u); c3_w ret_w = uv_thread_create(uty_u->tat_u.sun.sit_u, _term_spinner_cb, uty_u); if ( 0 != ret_w ) { uL(fprintf(uH, "term: spinner start: %s\n", uv_strerror(ret_w))); free(uty_u->tat_u.sun.sit_u); uty_u->tat_u.sun.sit_u = NULL; uv_mutex_unlock(&uty_u->tat_u.mex_u); uv_mutex_destroy(&uty_u->tat_u.mex_u); } } } } } /* u3_term_io_exit(): clean up terminal. */ void u3_term_io_exit(void) { if ( c3y == u3_Host.ops_u.dem ) { uv_close((uv_handle_t*)&u3_Host.uty_u->pop_u, NULL); } else { u3_utty* uty_u; for ( uty_u = u3_Host.uty_u; uty_u; uty_u = uty_u->nex_u ) { if ( uty_u->fid_i == -1 ) { continue; } if ( 0 != tcsetattr(uty_u->fid_i, TCSADRAIN, &uty_u->bak_u) ) { c3_assert(!"exit-tcsetattr"); } if ( -1 == fcntl(uty_u->fid_i, F_SETFL, uty_u->cug_i) ) { c3_assert(!"exit-fcntl"); } write(uty_u->fid_i, "\r\n", 2); #if 0 if ( uty_u->tat_u.sun.sit_u ) { uv_thread_t* sit_u = uty_u->tat_u.sun.sit_u; uty_u->tat_u.sun.sit_u = NULL; uv_mutex_unlock(&uty_u->tat_u.mex_u); // XX can block exit waiting for wakeup (max _SPIN_COOL_US) c3_w ret_w; if ( 0 != (ret_w = uv_thread_join(sit_u)) ) { uL(fprintf(uH, "term: spinner exit: %s\n", uv_strerror(ret_w))); } else { uv_mutex_destroy(&uty_u->tat_u.mex_u); } free(sit_u); } #endif } } } /* _term_it_buf(): create a data buffer. */ static u3_ubuf* _term_it_buf(c3_w len_w, const c3_y* hun_y) { u3_ubuf* buf_u = c3_malloc(len_w + sizeof(*buf_u)); buf_u->len_w = len_w; memcpy(buf_u->hun_y, hun_y, len_w); buf_u->nex_u = 0; return buf_u; } /* An unusual lameness in libuv. */ typedef struct { uv_write_t wri_u; c3_y* buf_y; } _u3_write_t; /* _term_write_cb(): general write callback. */ static void _term_write_cb(uv_write_t* wri_u, c3_i sas_i) { _u3_write_t* ruq_u = (void *)wri_u; if ( 0 != sas_i ) { // uL(fprintf(uH, "term: write: ERROR\n")); } free(ruq_u->buf_y); free(ruq_u); } /* _term_it_write_buf(): write buffer uv style. */ static void _term_it_write_buf(u3_utty* uty_u, uv_buf_t buf_u) { _u3_write_t* ruq_u = (_u3_write_t*) c3_malloc(sizeof(_u3_write_t)); ruq_u->buf_y = (c3_y*)buf_u.base; c3_w ret_w; if ( 0 != (ret_w = uv_write(&ruq_u->wri_u, (uv_stream_t*)&(uty_u->pop_u), &buf_u, 1, _term_write_cb)) ) { uL(fprintf(uH, "terminal: %s\n", uv_strerror(ret_w))); } } /* _term_it_write_old(): write buffer, transferring pointer. */ static void _term_it_write_old(u3_utty* uty_u, u3_ubuf* old_u) { uv_buf_t buf_u; // XX extra copy here due to old code. Use hbod as base directly. // { c3_y* buf_y = c3_malloc(old_u->len_w); memcpy(buf_y, old_u->hun_y, old_u->len_w); buf_u = uv_buf_init((c3_c*)buf_y, old_u->len_w); free(old_u); } _term_it_write_buf(uty_u, buf_u); } /* _term_it_write_bytes(): write bytes, retaining pointer. */ static void _term_it_write_bytes(u3_utty* uty_u, c3_w len_w, const c3_y* hun_y) { _term_it_write_old(uty_u, _term_it_buf(len_w, hun_y)); } /* _term_it_write_txt(): write null-terminated string, retaining pointer. */ static void _term_it_write_txt(u3_utty* uty_u, const c3_y* hun_y) { _term_it_write_bytes(uty_u, strlen((const c3_c*)hun_y), hun_y); } /* _term_it_write_str(): write null-terminated string, retaining pointer. */ static void _term_it_write_str(u3_utty* uty_u, const c3_c* str_c) { _term_it_write_txt(uty_u, (const c3_y*) str_c); } /* _term_it_show_wide(): show wide text, retaining. */ static void _term_it_show_wide(u3_utty* uty_u, c3_w len_w, c3_w* txt_w) { u3_noun wad = u3i_words(len_w, txt_w); u3_noun txt = u3do("tuft", wad); c3_c* txt_c = u3r_string(txt); _term_it_write_str(uty_u, txt_c); free(txt_c); u3z(txt); uty_u->tat_u.mir.cus_w += len_w; } /* _term_it_show_clear(): clear to the beginning of the current line. */ static void _term_it_show_clear(u3_utty* uty_u) { if ( uty_u->tat_u.siz.col_l ) { _term_it_write_str(uty_u, "\r"); _term_it_write_txt(uty_u, uty_u->ufo_u.out.el_y); uty_u->tat_u.mir.len_w = 0; uty_u->tat_u.mir.cus_w = 0; } } /* _term_it_show_blank(): blank the screen. */ static void _term_it_show_blank(u3_utty* uty_u) { _term_it_write_txt(uty_u, uty_u->ufo_u.out.clear_y); } /* _term_it_show_cursor(): set current line, transferring pointer. */ static void _term_it_show_cursor(u3_utty* uty_u, c3_w cur_w) { if ( cur_w < uty_u->tat_u.mir.cus_w ) { c3_w dif_w = (uty_u->tat_u.mir.cus_w - cur_w); while ( dif_w-- ) { _term_it_write_txt(uty_u, uty_u->ufo_u.out.cub1_y); } } else if ( cur_w > uty_u->tat_u.mir.cus_w ) { c3_w dif_w = (cur_w - uty_u->tat_u.mir.cus_w); while ( dif_w-- ) { _term_it_write_txt(uty_u, uty_u->ufo_u.out.cuf1_y); } } uty_u->tat_u.mir.cus_w = cur_w; } /* _term_it_show_line(): set current line */ static void _term_it_show_line(u3_utty* uty_u, c3_w* lin_w, c3_w len_w) { _term_it_show_wide(uty_u, len_w, lin_w); if ( lin_w != uty_u->tat_u.mir.lin_w ) { if ( uty_u->tat_u.mir.lin_w ) { free(uty_u->tat_u.mir.lin_w); } uty_u->tat_u.mir.lin_w = lin_w; } uty_u->tat_u.mir.len_w = len_w; } /* _term_it_refresh_line(): refresh current line. */ static void _term_it_refresh_line(u3_utty* uty_u) { c3_w len_w = uty_u->tat_u.mir.len_w; c3_w cus_w = uty_u->tat_u.mir.cus_w; _term_it_show_clear(uty_u); _term_it_show_line(uty_u, uty_u->tat_u.mir.lin_w, len_w); _term_it_show_cursor(uty_u, cus_w); } /* _term_it_show_more(): new current line. */ static void _term_it_show_more(u3_utty* uty_u) { if ( c3y == u3_Host.ops_u.dem ) { _term_it_write_str(uty_u, "\n"); } else { _term_it_write_str(uty_u, "\r\n"); } uty_u->tat_u.mir.cus_w = 0; } /* _term_it_path(): path for console file. */ static c3_c* _term_it_path(c3_o fyl, u3_noun pax) { c3_w len_w; c3_c *pas_c; // measure // len_w = strlen(u3_Host.dir_c); { u3_noun wiz = pax; while ( u3_nul != wiz ) { len_w += (1 + u3r_met(3, u3h(wiz))); wiz = u3t(wiz); } } // cut // pas_c = c3_malloc(len_w + 1); strncpy(pas_c, u3_Host.dir_c, len_w); pas_c[len_w] = '\0'; { u3_noun wiz = pax; c3_c* waq_c = (pas_c + strlen(pas_c)); while ( u3_nul != wiz ) { c3_w tis_w = u3r_met(3, u3h(wiz)); if ( (c3y == fyl) && (u3_nul == u3t(wiz)) ) { *waq_c++ = '.'; } else *waq_c++ = '/'; u3r_bytes(0, tis_w, (c3_y*)waq_c, u3h(wiz)); waq_c += tis_w; wiz = u3t(wiz); } *waq_c = 0; } u3z(pax); return pas_c; } /* _term_it_save(): save file by path. */ static void _term_it_save(u3_noun pax, u3_noun pad) { c3_c* pax_c; c3_c* bas_c = 0; c3_w xap_w = u3kb_lent(u3k(pax)); u3_noun xap = u3_nul; u3_noun urb = c3_s4('.','u','r','b'); u3_noun put = c3_s3('p','u','t'); // directory base and relative path if ( 2 < xap_w ) { u3_noun bas = u3nt(urb, put, u3_nul); bas_c = _term_it_path(c3n, bas); xap = u3qb_scag(xap_w - 2, pax); } pax = u3nt(urb, put, pax); pax_c = _term_it_path(c3y, pax); u3_walk_save(pax_c, 0, pad, bas_c, xap); free(pax_c); free(bas_c); } /* _term_io_belt(): send belt. */ static void _term_io_belt(u3_utty* uty_u, u3_noun blb) { u3_noun tid = u3dc("scot", c3__ud, uty_u->tid_l); u3_noun pax = u3nq(u3_blip, c3__term, tid, u3_nul); u3v_plan(pax, u3nc(c3__belt, blb)); } /* _term_io_suck_char(): process a single character. */ static void _term_io_suck_char(u3_utty* uty_u, c3_y cay_y) { u3_utat* tat_u = &uty_u->tat_u; if ( c3y == tat_u->esc.ape ) { if ( c3y == tat_u->esc.bra ) { switch ( cay_y ) { default: { _term_it_write_txt(uty_u, uty_u->ufo_u.out.bel_y); break; } case 'A': _term_io_belt(uty_u, u3nc(c3__aro, 'u')); break; case 'B': _term_io_belt(uty_u, u3nc(c3__aro, 'd')); break; case 'C': _term_io_belt(uty_u, u3nc(c3__aro, 'r')); break; case 'D': _term_io_belt(uty_u, u3nc(c3__aro, 'l')); break; } tat_u->esc.ape = tat_u->esc.bra = c3n; } else { if ( (cay_y >= 'a') && (cay_y <= 'z') ) { tat_u->esc.ape = c3n; _term_io_belt(uty_u, u3nc(c3__met, cay_y)); } else if ( '.' == cay_y ) { tat_u->esc.ape = c3n; _term_io_belt(uty_u, u3nc(c3__met, c3__dot)); } else if ( 8 == cay_y || 127 == cay_y ) { tat_u->esc.ape = c3n; _term_io_belt(uty_u, u3nc(c3__met, c3__bac)); } else if ( ('[' == cay_y) || ('O' == cay_y) ) { tat_u->esc.bra = c3y; } else { tat_u->esc.ape = c3n; _term_it_write_txt(uty_u, uty_u->ufo_u.out.bel_y); } } } else if ( 0 != tat_u->fut.wid_w ) { tat_u->fut.syb_y[tat_u->fut.len_w++] = cay_y; if ( tat_u->fut.len_w == tat_u->fut.wid_w ) { u3_noun huv = u3i_bytes(tat_u->fut.wid_w, tat_u->fut.syb_y); u3_noun wug; // uL(fprintf(uH, "muck-utf8 len %d\n", tat_u->fut.len_w)); // uL(fprintf(uH, "muck-utf8 %x\n", huv)); wug = u3do("taft", huv); // uL(fprintf(uH, "muck-utf32 %x\n", tat_u->fut.len_w)); tat_u->fut.len_w = tat_u->fut.wid_w = 0; _term_io_belt(uty_u, u3nt(c3__txt, wug, u3_nul)); } } else { if ( (cay_y >= 32) && (cay_y < 127) ) { _term_io_belt(uty_u, u3nt(c3__txt, cay_y, u3_nul)); } else if ( 0 == cay_y ) { _term_it_write_txt(uty_u, uty_u->ufo_u.out.bel_y); } else if ( 8 == cay_y || 127 == cay_y ) { _term_io_belt(uty_u, u3nc(c3__bac, u3_nul)); } else if ( 13 == cay_y ) { _term_io_belt(uty_u, u3nc(c3__ret, u3_nul)); } #if 0 else if ( 6 == cay_y ) { _term_io_flow(uty_u); // XX hack } #endif else if ( cay_y <= 26 ) { _term_io_belt(uty_u, u3nc(c3__ctl, ('a' + (cay_y - 1)))); } else if ( 27 == cay_y ) { tat_u->esc.ape = c3y; } else if ( cay_y >= 128 ) { tat_u->fut.len_w = 1; tat_u->fut.syb_y[0] = cay_y; if ( cay_y < 224 ) { tat_u->fut.wid_w = 2; } else if ( cay_y < 240 ) { tat_u->fut.wid_w = 3; } else tat_u->fut.wid_w = 4; } } } /* _term_suck(): process a chunk of input */ /* * `nread` (siz_w) is > 0 if there is data available, 0 if libuv is done reading for * now, or < 0 on error. * * The callee is responsible for closing the stream when an error happens * by calling uv_close(). Trying to read from the stream again is undefined. * * The callee is responsible for freeing the buffer, libuv does not reuse it. * The buffer may be a null buffer (where buf->base=NULL and buf->len=0) on * error. */ static inline void _term_suck(u3_utty* uty_u, const c3_y* buf, ssize_t siz_i) { u3_lo_open(); { if ( siz_i == UV_EOF ) { // We hear EOF (on the third read callback) if // 2x the _term_alloc() buffer size is pasted. // The process hangs if we do nothing (and ctrl-z // then corrupts the event log), so we force shutdown. // fprintf(stderr, "term: hangup (EOF)\r\n"); u3_lo_bail(); } else if ( siz_i < 0 ) { uL(fprintf(uH, "term %d: read: %s\n", uty_u->tid_l, uv_strerror(siz_i))); } else { c3_i i; for ( i=0; i < siz_i; i++ ) { _term_io_suck_char(uty_u, buf[i]); } } } u3_lo_shut(c3y); } /* _term_read_cb(): server read callback. */ static void _term_read_cb(uv_stream_t* tcp_u, ssize_t siz_i, const uv_buf_t * buf_u) { u3_utty* uty_u = (u3_utty*)(void*)tcp_u; _term_suck(uty_u, (const c3_y*)buf_u->base, siz_i); free(buf_u->base); } /* _term_try_write_str(): write null-terminated string (off-thread, retain). */ static void _term_try_write_str(u3_utty* uty_u, const c3_c* hun_y) { // c3_i fid_i = uv_fileno(&uty_u->pop_u); c3_i fid_i = uty_u->pop_u.io_watcher.fd; // XX old libuv write(fid_i, hun_y, strlen(hun_y)); } /* _term_try_move_left(): move the cursor left (off-thread). */ static void _term_try_move_left(u3_utty* uty_u) { _term_try_write_str(uty_u, (const c3_c*)uty_u->ufo_u.out.cub1_y); } /* _term_show_spinner(): render spinner (off-thread). */ static void _term_show_spinner(u3_utty* uty_u, c3_d lag_d) { if ( 0 == uty_u->tat_u.sun.eve_d ) { return; } c3_w cus_w = uty_u->tat_u.mir.cus_w; if ( cus_w >= uty_u->tat_u.siz.col_l ) { // shenanigans! return; } c3_w bac_w = uty_u->tat_u.siz.col_l - 1 - cus_w; // backoff from end of line const c3_c daz_c[] = "|/-\\"; const c3_c dal_c[] = "\xc2\xab"; const c3_c dar_c[] = "\xc2\xbb"; c3_c buf_c[1 + 2 + 4 + 2 + 1]; // | + « + why + » + \0 c3_c* cur_c = buf_c; *cur_c++ = daz_c[(lag_d / _SPIN_RATE_US) % strlen(daz_c)]; c3_w sol_w = 1; // spinner length (utf-32) c3_c* why_c = uty_u->tat_u.sun.why_c; if ( why_c && strlen(why_c) <= 4 ) { strcpy(cur_c, dal_c); cur_c += strlen(dal_c); sol_w += 1; // length of dal_c (utf-32) c3_w wel_w = strlen(why_c); strcpy(cur_c, why_c); cur_c += wel_w; sol_w += wel_w; strcpy(cur_c, dar_c); cur_c += strlen(dar_c); sol_w += 1; // length of dar_c (utf-32) } *cur_c = '\0'; // One-time cursor backoff. if ( c3n == uty_u->tat_u.sun.diz_o ) { c3_w i_w; for ( i_w = bac_w; i_w < sol_w; i_w++ ) { _term_try_move_left(uty_u); } } _term_try_write_str(uty_u, buf_c); uty_u->tat_u.sun.diz_o = c3y; // Cursor stays on spinner. while ( sol_w-- ) { _term_try_move_left(uty_u); } } /* _term_start_spinner(): prepare spinner state. RETAIN. */ static void _term_start_spinner(u3_utty* uty_u, u3_noun ovo) { uty_u->tat_u.sun.diz_o = c3n; c3_d now_d = _term_msc_out_host(); // If we receive an event shortly after a previous spin, use a shorter delay // to avoid giving the impression of a half-idle system. // c3_d lag_d; if ( now_d - uty_u->tat_u.sun.end_d < _SPIN_IDLE_US ) { lag_d = _SPIN_WARM_US; } else { lag_d = _SPIN_COOL_US; } u3_noun why = u3h(u3t(u3h(u3t(ovo)))); if ( c3__term == why ) { u3_noun eve = u3t(u3t(ovo)); if ( c3__belt == u3h(eve) && c3__ret == u3h(u3t(eve)) ) { lag_d = 0; // No delay for %ret. } } else { uty_u->tat_u.sun.why_c = (c3_c*)u3r_string(why); } uty_u->tat_u.sun.eve_d = now_d + lag_d; uv_mutex_unlock(&uty_u->tat_u.mex_u); } /* _term_stop_spinner(): reset spinner state and restore input line. */ static void _term_stop_spinner(u3_utty* uty_u) { uv_mutex_lock(&uty_u->tat_u.mex_u); if ( c3y == uty_u->tat_u.sun.diz_o ) { _term_it_refresh_line(uty_u); uty_u->tat_u.sun.end_d = _term_msc_out_host(); } else { uty_u->tat_u.sun.end_d = 0; } uty_u->tat_u.sun.diz_o = c3n; uty_u->tat_u.sun.eve_d = 0; free(uty_u->tat_u.sun.why_c); uty_u->tat_u.sun.why_c = NULL; } /* _term_spinner_cb(): manage spinner (off-thread). */ static void _term_spinner_cb(void* ptr_v) { // This thread shouldn't receive signals. // { sigset_t set; sigfillset(&set); pthread_sigmask(SIG_BLOCK, &set, NULL); } u3_utty* uty_u = (u3_utty*)ptr_v; for ( uv_mutex_lock(&uty_u->tat_u.mex_u); uty_u->tat_u.sun.sit_u; uv_mutex_lock(&uty_u->tat_u.mex_u) ) { c3_d eve_d = uty_u->tat_u.sun.eve_d; if ( 0 == eve_d ) { c3_o diz_o = uty_u->tat_u.sun.diz_o; uv_mutex_unlock(&uty_u->tat_u.mex_u); usleep(c3y == diz_o ? _SPIN_WARM_US : _SPIN_COOL_US); } else { c3_d now_d = _term_msc_out_host(); if (now_d < eve_d) { uv_mutex_unlock(&uty_u->tat_u.mex_u); usleep(eve_d - now_d); } else { _term_show_spinner(uty_u, now_d - eve_d); uv_mutex_unlock(&uty_u->tat_u.mex_u); usleep(_SPIN_RATE_US); } } } uv_mutex_unlock(&uty_u->tat_u.mex_u); } /* _term_main(): return main or console terminal. */ static u3_utty* _term_main() { u3_utty* uty_u; for ( uty_u = u3_Host.uty_u; uty_u; uty_u = uty_u->nex_u ) { if ( (uty_u->fid_i != -1) && (uty_u->fid_i <= 2) ) { return uty_u; } } return u3_Host.uty_u; } /* _term_ef_get(): terminal by id. */ static u3_utty* _term_ef_get(c3_l tid_l) { if ( 0 != tid_l ) { u3_utty* uty_u; for ( uty_u = u3_Host.uty_u; uty_u; uty_u = uty_u->nex_u ) { if ( tid_l == uty_u->tid_l ) { return uty_u; } } } return _term_main(); } /* u3_term_get_blew(): return window size [columns rows]. */ u3_noun u3_term_get_blew(c3_l tid_l) { u3_utty* uty_u = _term_ef_get(tid_l); c3_l col_l, row_l; struct winsize siz_u; if ( uty_u && (0 == ioctl(uty_u->fid_i, TIOCGWINSZ, &siz_u)) ) { col_l = siz_u.ws_col; row_l = siz_u.ws_row; } else { col_l = 80; row_l = 24; } if ( uty_u ) { uty_u->tat_u.siz.col_l = col_l; uty_u->tat_u.siz.row_l = row_l; } return u3nc(col_l, row_l); } /* u3_term_ef_winc(): window change. Just console right now. */ void u3_term_ef_winc(void) { u3_noun pax = u3nq(u3_blip, c3__term, '1', u3_nul); u3v_plan(pax, u3nc(c3__blew, u3_term_get_blew(1))); } /* u3_term_ef_ctlc(): send ^C on console. */ void u3_term_ef_ctlc(void) { u3_noun pax = u3nq(u3_blip, c3__term, '1', u3_nul); u3v_plan(pax, u3nt(c3__belt, c3__ctl, 'c')); _term_it_refresh_line(_term_main()); } /* u3_term_ef_boil(): initial effects for loaded servers. */ void u3_term_ef_boil(void) { { u3_noun pax = u3nq(u3_blip, c3__term, '1', u3_nul); // u3v_plan(u3k(pax), u3nc(c3__init, u3k(u3h(u3A->own)))); u3v_plan(u3k(pax), u3nc(c3__harm, u3_nul)); u3v_plan(u3k(pax), u3nc(c3__blew, u3_term_get_blew(1))); u3v_plan(u3k(pax), u3nc(c3__hail, u3_nul)); u3z(pax); } } /* u3_term_ef_verb(): initial effects for verbose events */ void u3_term_ef_verb(void) { u3_noun pax = u3nq(u3_blip, c3__term, '1', u3_nul); u3v_plan(pax, u3nc(c3__verb, u3_nul)); } /* u3_term_ef_bake(): initial effects for new terminal. */ void u3_term_ef_bake(u3_noun fav) { u3_noun pax = u3nq(u3_blip, c3__term, '1', u3_nul); u3v_plan(u3k(pax), u3nc(c3__boot, fav)); // u3v_plan(u3k(pax), u3nq(c3__flow, c3__seat, c3__dojo, u3_nul)); u3v_plan(u3k(pax), u3nc(c3__blew, u3_term_get_blew(1))); u3v_plan(u3k(pax), u3nc(c3__hail, u3_nul)); u3z(pax); } /* _term_ef_blit(): send blit to terminal. */ static void _term_ef_blit(u3_utty* uty_u, u3_noun blt) { switch ( u3h(blt) ) { default: break; case c3__bee: { if ( c3n == u3_Host.ops_u.dem ) { if ( u3_nul == u3t(blt) ) { _term_stop_spinner(uty_u); } else { _term_start_spinner(uty_u, u3t(blt)); } } } break; case c3__bel: { if ( c3n == u3_Host.ops_u.dem ) { _term_it_write_txt(uty_u, uty_u->ufo_u.out.bel_y); } } break; case c3__clr: { if ( c3n == u3_Host.ops_u.dem ) { _term_it_show_blank(uty_u); _term_it_refresh_line(uty_u); } } break; case c3__hop: { if ( c3n == u3_Host.ops_u.dem ) { _term_it_show_cursor(uty_u, u3t(blt)); } } break; case c3__lin: { u3_noun lin = u3t(blt); c3_w len_w = u3kb_lent(u3k(lin)); c3_w* lin_w = c3_malloc(4 * len_w); { c3_w i_w; for ( i_w = 0; u3_nul != lin; i_w++, lin = u3t(lin) ) { lin_w[i_w] = u3r_word(0, u3h(lin)); } } if ( c3n == u3_Host.ops_u.dem ) { _term_it_show_clear(uty_u); _term_it_show_line(uty_u, lin_w, len_w); } else { _term_it_show_line(uty_u, lin_w, len_w); } } break; case c3__mor: { _term_it_show_more(uty_u); } break; case c3__sav: { _term_it_save(u3k(u3h(u3t(blt))), u3k(u3t(u3t(blt)))); } break; case c3__sag: { u3_noun pib = u3k(u3t(u3t(blt))); u3_noun jam; jam = u3ke_jam(pib); _term_it_save(u3k(u3h(u3t(blt))), jam); } break; case c3__url: { if ( c3n == u3ud(u3t(blt)) ) { break; } else { c3_c* txt_c = u3r_string(u3t(blt)); _term_it_show_clear(uty_u); _term_it_write_str(uty_u, txt_c); free(txt_c); _term_it_show_more(uty_u); _term_it_refresh_line(uty_u); } } } u3z(blt); return; } /* u3_term_ef_blit(): send %blit list to specific terminal. */ void u3_term_ef_blit(c3_l tid_l, u3_noun bls) { u3_utty* uty_u = _term_ef_get(tid_l); if ( 0 == uty_u ) { // uL(fprintf(uH, "no terminal %d\n", tid_l)); // uL(fprintf(uH, "uty_u %p\n", u3_Host.uty_u)); u3z(bls); return; } { u3_noun bis = bls; while ( c3y == u3du(bis) ) { _term_ef_blit(uty_u, u3k(u3h(bis))); bis = u3t(bis); } u3z(bls); } } /* u3_term_io_hija(): hijack console for fprintf, returning FILE*. */ FILE* u3_term_io_hija(void) { u3_utty* uty_u = _term_main(); if ( uty_u ) { if ( uty_u->fid_i > 2 ) { // We *should* in fact, produce some kind of fake FILE* for // non-console terminals. If we use this interface enough... // c3_assert(0); } else { if ( c3n == u3_Host.ops_u.dem ) { if ( 0 != tcsetattr(1, TCSADRAIN, &uty_u->bak_u) ) { perror("hija-tcsetattr-1"); c3_assert(!"hija-tcsetattr"); } if ( -1 == fcntl(1, F_SETFL, uty_u->cug_i) ) { perror("hija-fcntl-1"); c3_assert(!"hija-fcntl"); } if ( 0 != tcsetattr(0, TCSADRAIN, &uty_u->bak_u) ) { perror("hija-tcsetattr-0"); c3_assert(!"hija-tcsetattr"); } if ( -1 == fcntl(0, F_SETFL, uty_u->cug_i) ) { perror("hija-fcntl-0"); c3_assert(!"hija-fcntl"); } write(uty_u->fid_i, "\r", 1); write(uty_u->fid_i, uty_u->ufo_u.out.el_y, strlen((c3_c*) uty_u->ufo_u.out.el_y)); } return stdout; } } else return stdout; } /* u3_term_io_loja(): release console from fprintf. */ void u3_term_io_loja(int x) { u3_utty* uty_u = _term_main(); if ( uty_u ) { if ( uty_u->fid_i > 2 ) { // We *should* in fact, produce some kind of fake FILE* for // non-console terminals. If we use this interface enough... // c3_assert(0); } else { if ( c3y == u3_Host.ops_u.dem ) { fflush(stdout); } else { if ( 0 != tcsetattr(1, TCSADRAIN, &uty_u->raw_u) ) { perror("loja-tcsetattr-1"); c3_assert(!"loja-tcsetattr"); } if ( -1 == fcntl(1, F_SETFL, uty_u->nob_i) ) { perror("hija-fcntl-1"); c3_assert(!"loja-fcntl"); } if ( 0 != tcsetattr(0, TCSADRAIN, &uty_u->raw_u) ) { perror("loja-tcsetattr-0"); c3_assert(!"loja-tcsetattr"); } if ( -1 == fcntl(0, F_SETFL, uty_u->nob_i) ) { perror("hija-fcntl-0"); c3_assert(!"loja-fcntl"); } _term_it_refresh_line(uty_u); } } } } /* u3_term_tape_to(): dump a tape to a file. */ void u3_term_tape_to(FILE *fil_f, 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, fil_f); tap = u3t(tap); } u3z(tep); } /* u3_term_tape(): dump a tape to stdout. */ void u3_term_tape(u3_noun tep) { FILE* fil_f = u3_term_io_hija(); u3_term_tape_to(fil_f, tep); u3_term_io_loja(0); } /* u3_term_wall(): dump a wall to stdout. */ void u3_term_wall(u3_noun wol) { FILE* fil_f = u3_term_io_hija(); u3_noun wal = wol; while ( u3_nul != wal ) { u3_term_tape_to(fil_f, u3k(u3h(wal))); putc(13, fil_f); putc(10, fil_f); wal = u3t(wal); } u3_term_io_loja(0); u3z(wol); }