/**************************************************************************** * Copyright (c) 1998 Free Software Foundation, Inc. * * * * Permission is hereby granted, free of charge, to any person obtaining a * * copy of this software and associated documentation files (the * * "Software"), to deal in the Software without restriction, including * * without limitation the rights to use, copy, modify, merge, publish, * * distribute, distribute with modifications, sublicense, and/or sell * * copies of the Software, and to permit persons to whom the Software is * * furnished to do so, subject to the following conditions: * * * * The above copyright notice and this permission notice shall be included * * in all copies or substantial portions of the Software. * * * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS * * OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF * * MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. * * IN NO EVENT SHALL THE ABOVE COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, * * DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR * * OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR * * THE USE OR OTHER DEALINGS IN THE SOFTWARE. * * * * Except as contained in this notice, the name(s) of the above copyright * * holders shall not be used in advertising or otherwise to promote the * * sale, use or other dealings in this Software without prior written * * authorization. * ****************************************************************************/ /**************************************************************************** * Author: Zeyd M. Ben-Halim 1992,1995 * * and: Eric S. Raymond * ****************************************************************************/ /* ** lib_set_term.c ** ** The routine set_term(). ** */ #include #include /* cur_term */ MODULE_ID("$Id: lib_set_term.c,v 1.37 1998/02/11 12:13:57 tom Exp $") /* * If the output file descriptor is connected to a tty (the typical case) it * will probably be line-buffered. Keith Bostic pointed out that we don't want * this; it hoses people running over networks by forcing out a bunch of small * packets instead of one big one, so screen updates on ptys look jerky. * Restore block buffering to prevent this minor lossage. * * The buffer size is a compromise. Ideally we'd like a buffer that can hold * the maximum possible update size (the whole screen plus cup commands to * change lines as it's painted). On a 66-line xterm this can become * excessive. So we min it with the amount of data we think we can get through * two Ethernet packets (maximum packet size - 100 for TCP/IP overhead). * * Why two ethernet packets? It used to be one, on the theory that said * packets define the maximum size of atomic update. But that's less than the * 2000 chars on a 25 x 80 screen, and we don't want local updates to flicker * either. Two packet lengths will handle up to a 35 x 80 screen. * * The magic '6' is the estimated length of the end-of-line cup sequence to go * to the next line. It's generous. We used to mess with the buffering in * init_mvcur() after cost computation, but that lost the sequences emitted by * init_acs() in setupscreen(). * * "The setvbuf function may be used only after the stream pointed to by stream * has been associated with an open file and before any other operation is * performed on the stream." (ISO 7.9.5.6.) * * Grrrr... */ void _nc_set_buffer(FILE *ofp, bool buffered) { /* optional optimization hack -- do before any output to ofp */ #if HAVE_SETVBUF || HAVE_SETBUFFER unsigned buf_len; char *buf_ptr; if (buffered) { buf_len = min(LINES * (COLS + 6), 2800); buf_ptr = malloc(buf_len); } else { buf_len = 0; buf_ptr = 0; } #if HAVE_SETVBUF #ifdef SETVBUF_REVERSED /* pre-svr3? */ (void) setvbuf(ofp, buf_ptr, buf_len, buf_len ? _IOFBF : _IONBF); #else (void) setvbuf(ofp, buf_ptr, buf_len ? _IOFBF : _IONBF, buf_len); #endif #elif HAVE_SETBUFFER (void) setbuffer(ofp, buf_ptr, (int)buf_len); #endif if (!buffered) { FreeIfNeeded(SP->_setbuf); } SP->_setbuf = buf_ptr; #endif /* HAVE_SETVBUF || HAVE_SETBUFFER */ } SCREEN * set_term(SCREEN *screen) { SCREEN *oldSP; T((T_CALLED("set_term(%p)"), screen)); oldSP = SP; _nc_set_screen(screen); set_curterm(SP->_term); curscr = SP->_curscr; newscr = SP->_newscr; stdscr = SP->_stdscr; COLORS = SP->_color_count; COLOR_PAIRS = SP->_pair_count; memcpy(acs_map, SP->_acs_map, sizeof(chtype)*ACS_LEN); T((T_RETURN("%p"), oldSP)); return(oldSP); } static void _nc_free_keytry(struct tries *kt) { if (kt != 0) { _nc_free_keytry(kt->child); _nc_free_keytry(kt->sibling); free(kt); } } /* * Free the storage associated with the given SCREEN sp. */ void delscreen(SCREEN *sp) { SCREEN **scan = &_nc_screen_chain; T((T_CALLED("delscreen(%p)"), sp)); while(*scan) { if (*scan == sp) { *scan = sp->_next_screen; break; } scan = &(*scan)->_next_screen; } _nc_freewin(sp->_curscr); _nc_freewin(sp->_newscr); _nc_freewin(sp->_stdscr); _nc_free_keytry(sp->_keytry); _nc_free_keytry(sp->_key_ok); FreeIfNeeded(sp->_color_table); FreeIfNeeded(sp->_color_pairs); free(sp); /* * If this was the current screen, reset everything that the * application might try to use (except cur_term, which may have * multiple references in different screens). */ if (sp == SP) { curscr = 0; newscr = 0; stdscr = 0; COLORS = 0; COLOR_PAIRS = 0; _nc_set_screen(0); } returnVoid; } static ripoff_t rippedoff[5]; static ripoff_t *rsp = rippedoff; #define N_RIPS SIZEOF(rippedoff) static bool no_mouse_event (SCREEN *sp GCC_UNUSED) { return FALSE; } static bool no_mouse_inline(SCREEN *sp GCC_UNUSED) { return FALSE; } static bool no_mouse_parse (int code GCC_UNUSED) { return TRUE; } static void no_mouse_resume(SCREEN *sp GCC_UNUSED) { } static void no_mouse_wrap (SCREEN *sp GCC_UNUSED) { } int _nc_setupscreen(short slines, short const scolumns, FILE *output) /* OS-independent screen initializations */ { int bottom_stolen = 0; size_t i; assert(SP==0); /* has been reset in newterm() ! */ if (!_nc_alloc_screen()) return ERR; SP->_next_screen = _nc_screen_chain; _nc_screen_chain = SP; _nc_set_buffer(output, TRUE); SP->_term = cur_term; SP->_lines = slines; SP->_lines_avail = slines; SP->_columns = scolumns; SP->_cursrow = -1; SP->_curscol = -1; SP->_nl = TRUE; SP->_raw = FALSE; SP->_cbreak = FALSE; SP->_echo = TRUE; SP->_fifohead = -1; SP->_endwin = TRUE; SP->_ofp = output; SP->_cursor = -1; /* cannot know real cursor shape */ SP->_maxclick = DEFAULT_MAXCLICK; SP->_mouse_event = no_mouse_event; SP->_mouse_inline = no_mouse_inline; SP->_mouse_parse = no_mouse_parse; SP->_mouse_resume = no_mouse_resume; SP->_mouse_wrap = no_mouse_wrap; SP->_mouse_fd = -1; /* initialize the panel hooks */ SP->_panelHook.top_panel = (struct panel*)0; SP->_panelHook.bottom_panel = (struct panel*)0; SP->_panelHook.stdscr_pseudo_panel = (struct panel*)0; /* * If we've no magic cookie support, we suppress attributes that xmc * would affect, i.e., the attributes that affect the rendition of a * space. Note that this impacts the alternate character set mapping * as well. */ if (magic_cookie_glitch > 0) { SP->_xmc_triggers = termattrs() & ( A_ALTCHARSET | A_BLINK | A_BOLD | A_REVERSE | A_STANDOUT | A_UNDERLINE ); SP->_xmc_suppress = SP->_xmc_triggers & (chtype)~(A_BOLD); T(("magic cookie attributes %s", _traceattr(SP->_xmc_suppress))); #if USE_XMC_SUPPORT /* * To keep this simple, suppress all of the optimization hooks * except for clear_screen and the cursor addressing. */ clr_eol = 0; clr_eos = 0; set_attributes = 0; #else magic_cookie_glitch = -1; acs_chars = 0; #endif } init_acs(); memcpy(SP->_acs_map, acs_map, sizeof(chtype)*ACS_LEN); _nc_idcok = TRUE; _nc_idlok = FALSE; _nc_windows = 0; /* no windows yet */ T(("creating newscr")); if ((newscr = newwin(slines, scolumns, 0, 0)) == 0) return ERR; T(("creating curscr")); if ((curscr = newwin(slines, scolumns, 0, 0)) == 0) return ERR; SP->_newscr = newscr; SP->_curscr = curscr; #if USE_SIZECHANGE SP->_resize = resizeterm; #endif newscr->_clear = TRUE; curscr->_clear = FALSE; for (i=0, rsp = rippedoff; rsp->line && (i < N_RIPS); rsp++, i++) { if (rsp->hook) { WINDOW *w; int count = (rsp->line < 0) ? -rsp->line : rsp->line; if (rsp->line < 0) { w = newwin(count,scolumns,SP->_lines_avail - count,0); if (w) { rsp->w = w; rsp->hook(w, scolumns); bottom_stolen += count; } else return ERR; } else { w = newwin(count,scolumns, 0, 0); if (w) { rsp->w = w; rsp->hook(w, scolumns); SP->_topstolen += count; } else return ERR; } SP->_lines_avail -= count; } rsp->line = 0; } /* reset the stack */ rsp = rippedoff; T(("creating stdscr")); assert ((SP->_lines_avail + SP->_topstolen + bottom_stolen) == slines); if ((stdscr = newwin(LINES = SP->_lines_avail, scolumns, 0, 0)) == 0) return ERR; SP->_stdscr = stdscr; def_shell_mode(); def_prog_mode(); return OK; } /* The internal implementation interprets line as the number of lines to rip off from the top or bottom. */ int _nc_ripoffline(int line, int (*init)(WINDOW *,int)) { if (line == 0) return(OK); if (rsp >= rippedoff + N_RIPS) return(ERR); rsp->line = line; rsp->hook = init; rsp->w = 0; rsp++; return(OK); } int ripoffline(int line, int (*init)(WINDOW *, int)) { T((T_CALLED("ripoffline(%d,%p)"), line, init)); if (line == 0) returnCode(OK); returnCode(_nc_ripoffline ((line<0) ? -1 : 1, init)); }