/**************************************************************************** * Copyright 2018-2021,2022 Thomas E. Dickey * * Copyright 1998-2016,2017 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 * * and: Thomas E. Dickey 1996-on * * and: Juergen Pfeifer 2009 * ****************************************************************************/ /* ** lib_set_term.c ** ** The routine set_term(). ** */ #define NEW_PAIR_INTERNAL 1 #include #include #include #if USE_GPM_SUPPORT #ifdef HAVE_LIBDL /* use dynamic loader to avoid linkage dependency */ #include #endif #endif #undef CUR #define CUR SP_TERMTYPE MODULE_ID("$Id: lib_set_term.c,v 1.184 2022/12/10 21:34:12 tom Exp $") #ifdef USE_TERM_DRIVER #define MaxColors InfoOf(sp).maxcolors #define NumLabels InfoOf(sp).numlabels #else #define MaxColors max_colors #define NumLabels num_labels #endif NCURSES_EXPORT(SCREEN *) set_term(SCREEN *screenp) { SCREEN *oldSP; SCREEN *newSP; T((T_CALLED("set_term(%p)"), (void *) screenp)); _nc_lock_global(curses); oldSP = CURRENT_SCREEN; _nc_set_screen(screenp); newSP = screenp; if (newSP != 0) { TINFO_SET_CURTERM(newSP, newSP->_term); #if !USE_REENTRANT curscr = CurScreen(newSP); newscr = NewScreen(newSP); stdscr = StdScreen(newSP); COLORS = newSP->_color_count; COLOR_PAIRS = newSP->_pair_count; #endif } else { TINFO_SET_CURTERM(oldSP, 0); #if !USE_REENTRANT curscr = 0; newscr = 0; stdscr = 0; COLORS = 0; COLOR_PAIRS = 0; #endif } _nc_unlock_global(curses); T((T_RETURN("%p"), (void *) oldSP)); return (oldSP); } static void _nc_free_keytry(TRIES * kt) { if (kt != 0) { _nc_free_keytry(kt->child); _nc_free_keytry(kt->sibling); free(kt); } } static bool delink_screen(SCREEN *sp) { SCREEN *last = 0; SCREEN *temp; bool result = FALSE; for (each_screen(temp)) { if (temp == sp) { if (last) last->_next_screen = sp->_next_screen; else _nc_screen_chain = sp->_next_screen; result = TRUE; break; } last = temp; } return result; } /* * Free the storage associated with the given SCREEN sp. */ NCURSES_EXPORT(void) delscreen(SCREEN *sp) { T((T_CALLED("delscreen(%p)"), (void *) sp)); _nc_lock_global(curses); if (delink_screen(sp)) { WINDOWLIST *wl; bool is_current = (sp == CURRENT_SCREEN); #ifdef USE_SP_RIPOFF if (safe_ripoff_sp && safe_ripoff_sp != safe_ripoff_stack) { ripoff_t *rop; for (rop = safe_ripoff_stack; rop != safe_ripoff_sp && (rop - safe_ripoff_stack) < N_RIPS; rop++) { if (rop->win) { (void) delwin(rop->win); rop->win = 0; } } } #endif /* delete all of the windows in this screen */ rescan: for (each_window(sp, wl)) { if (_nc_freewin(&(wl->win)) == OK) { goto rescan; } } if (sp->_slk != 0) { if (sp->_slk->ent != 0) { int i; for (i = 0; i < sp->_slk->labcnt; ++i) { FreeIfNeeded(sp->_slk->ent[i].ent_text); FreeIfNeeded(sp->_slk->ent[i].form_text); } free(sp->_slk->ent); } free(sp->_slk); sp->_slk = 0; } _nc_free_keytry(sp->_keytry); sp->_keytry = 0; _nc_free_keytry(sp->_key_ok); sp->_key_ok = 0; FreeIfNeeded(sp->_current_attr); _nc_free_ordered_pairs(sp); FreeIfNeeded(sp->_color_table); FreeIfNeeded(sp->_color_pairs); FreeIfNeeded(sp->_oldnum_list); FreeIfNeeded(sp->oldhash); FreeIfNeeded(sp->newhash); FreeIfNeeded(sp->hashtab); FreeIfNeeded(sp->_acs_map); FreeIfNeeded(sp->_screen_acs_map); NCURSES_SP_NAME(_nc_flush) (NCURSES_SP_ARG); NCURSES_SP_NAME(del_curterm) (NCURSES_SP_ARGx sp->_term); FreeIfNeeded(sp->out_buffer); if (_nc_find_prescr() == sp) { _nc_forget_prescr(); } #if USE_GPM_SUPPORT #ifdef HAVE_LIBDL if (sp->_dlopen_gpm != 0) { dlclose(sp->_dlopen_gpm); sp->_dlopen_gpm = 0; } #endif #endif /* USE_GPM_SUPPORT */ 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 (is_current) { #if !USE_REENTRANT curscr = 0; newscr = 0; stdscr = 0; COLORS = 0; COLOR_PAIRS = 0; #endif _nc_set_screen(0); #if USE_WIDEC_SUPPORT if (SP == 0) { FreeIfNeeded(_nc_wacs); _nc_wacs = 0; } #endif } else { set_term(CURRENT_SCREEN); } } _nc_unlock_global(curses); returnVoid; } 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(SCREEN *sp GCC_UNUSED, int code GCC_UNUSED) { return TRUE; } static void no_mouse_resume(SCREEN *sp GCC_UNUSED) { } static void no_mouse_wrap(SCREEN *sp GCC_UNUSED) { } #if NCURSES_EXT_FUNCS && USE_COLORFGBG static const char * extract_fgbg(const char *src, int *result) { const char *dst = 0; char *tmp = 0; long value = strtol(src, &tmp, 0); if ((dst = tmp) == 0) { dst = src; } else if (value >= 0) { *result = (int) value; } while (*dst != 0 && *dst != ';') dst++; if (*dst == ';') dst++; return dst; } #endif #define ReturnScreenError() do { _nc_set_screen(0); \ returnCode(ERR); } while (0) /* OS-independent screen initializations */ NCURSES_EXPORT(int) NCURSES_SP_NAME(_nc_setupscreen) ( #if NCURSES_SP_FUNCS SCREEN **spp, #endif int slines, int scolumns, FILE *output, int filtered, int slk_format) { #ifndef USE_TERM_DRIVER static const TTY null_TTY; /* all zeros iff uninitialized */ #endif char *env; int bottom_stolen = 0; SCREEN *sp; #ifndef USE_TERM_DRIVER bool support_cookies = USE_XMC_SUPPORT; #endif T((T_CALLED("_nc_setupscreen(%d, %d, %p, %d, %d)"), slines, scolumns, (void *) output, filtered, slk_format)); assert(CURRENT_SCREEN == 0); /* has been reset in newterm() ! */ #if NCURSES_SP_FUNCS assert(spp != 0); sp = *spp; if (!sp) { sp = _nc_alloc_screen_sp(); T(("_nc_alloc_screen_sp %p", (void *) sp)); *spp = sp; } if (sp == NULL) { ReturnScreenError(); } if ((sp->_acs_map = typeCalloc(chtype, ACS_LEN)) == NULL) { ReturnScreenError(); } if ((sp->_screen_acs_map = typeCalloc(bool, ACS_LEN)) == NULL) { free(sp->_acs_map); ReturnScreenError(); } T(("created SP %p", (void *) sp)); sp->_next_screen = _nc_screen_chain; _nc_screen_chain = sp; if ((sp->_current_attr = typeCalloc(NCURSES_CH_T, 1)) == 0) { ReturnScreenError(); } #else if (!_nc_alloc_screen() || ((SP->_acs_map = typeCalloc(chtype, ACS_LEN)) == 0) || ((SP->_screen_acs_map = typeCalloc(bool, ACS_LEN)) == 0)) { returnCode(ERR); } T(("created SP %p", (void *) SP)); sp = SP; /* fixup so SET_LINES and SET_COLS works */ sp->_next_screen = _nc_screen_chain; _nc_screen_chain = sp; if ((sp->_current_attr = typeCalloc(NCURSES_CH_T, 1)) == 0) { returnCode(ERR); } #endif /* * We should always check the screensize, just in case. */ _nc_set_screen(sp); sp->_term = cur_term; #ifdef USE_TERM_DRIVER TCBOf(sp)->csp = sp; _nc_get_screensize(sp, sp->_term, &slines, &scolumns); #else _nc_get_screensize(sp, &slines, &scolumns); #endif SET_LINES(slines); SET_COLS(scolumns); T((T_CREATE("screen %s %dx%d"), NCURSES_SP_NAME(termname) (NCURSES_SP_ARG), slines, scolumns)); sp->_filtered = filtered; /* implement filter mode */ if (filtered) { slines = 1; SET_LINES(slines); #ifdef USE_TERM_DRIVER CallDriver(sp, td_setfilter); #else /* *INDENT-EQLS* */ clear_screen = ABSENT_STRING; cursor_address = ABSENT_STRING; cursor_down = ABSENT_STRING; cursor_up = ABSENT_STRING; parm_down_cursor = ABSENT_STRING; parm_up_cursor = ABSENT_STRING; row_address = ABSENT_STRING; cursor_home = carriage_return; if (back_color_erase) clr_eos = ABSENT_STRING; #endif T(("filter screensize %dx%d", slines, scolumns)); } #ifdef __DJGPP__ T(("setting output mode to binary")); fflush(output); setmode(output, O_BINARY); #endif #if defined(EXP_WIN32_DRIVER) T(("setting output mode to binary")); fflush(output); _setmode(fileno(output), _O_BINARY); #endif sp->_lines = (NCURSES_SIZE_T) slines; sp->_lines_avail = (NCURSES_SIZE_T) slines; sp->_columns = (NCURSES_SIZE_T) scolumns; fflush(output); sp->_ofd = output ? fileno(output) : -1; sp->_ofp = output; #if defined(EXP_WIN32_DRIVER) if (output) _setmode(fileno(output), _O_BINARY); #endif sp->out_limit = (size_t) ((2 + slines) * (6 + scolumns)); if ((sp->out_buffer = malloc(sp->out_limit)) == 0) sp->out_limit = 0; sp->out_inuse = 0; SP_PRE_INIT(sp); SetNoPadding(sp); #if NCURSES_EXT_FUNCS sp->_default_color = FALSE; sp->_has_sgr_39_49 = FALSE; /* * Set our assumption of the terminal's default foreground and background * colors. The curs_color man-page states that we can assume that the * background is black. The origin of this assumption appears to be * terminals that displayed colored text, but no colored backgrounds, e.g., * the first colored terminals around 1980. More recent ones with better * technology can display not only colored backgrounds, but all * combinations. So a terminal might be something other than "white" on * black (green/black looks monochrome too), but black on white or even * on ivory. * * White-on-black is the simplest thing to use for monochrome. Almost * all applications that use color paint both text and background, so * the distinction is moot. But a few do not - which is why we leave this * configurable (a better solution is to use assume_default_colors() for * the rare applications that do require that sort of appearance, since * is appears that more users expect to be able to make a white-on-black * or black-on-white display under control of the application than not). */ #ifdef USE_ASSUMED_COLOR sp->_default_fg = COLOR_WHITE; sp->_default_bg = COLOR_BLACK; #else sp->_default_fg = COLOR_DEFAULT; sp->_default_bg = COLOR_DEFAULT; #endif /* * Allow those assumed/default color assumptions to be overridden at * runtime: */ if ((env = getenv("NCURSES_ASSUMED_COLORS")) != 0) { int fg, bg; char sep1, sep2; int count = sscanf(env, "%d%c%d%c", &fg, &sep1, &bg, &sep2); if (count >= 1) { sp->_default_fg = ((fg >= 0 && fg < MaxColors) ? fg : COLOR_DEFAULT); if (count >= 3) { sp->_default_bg = ((bg >= 0 && bg < MaxColors) ? bg : COLOR_DEFAULT); } TR(TRACE_CHARPUT | TRACE_MOVE, ("from environment assumed fg=%d, bg=%d", sp->_default_fg, sp->_default_bg)); } } #if USE_COLORFGBG /* * If rxvt's $COLORFGBG variable is set, use it to specify the assumed * default colors. Note that rxvt (mis)uses bold colors, equating a bold * color to that value plus 8. We'll only use the non-bold color for now - * decide later if it is worth having default attributes as well. */ if (getenv("COLORFGBG") != 0) { const char *p = getenv("COLORFGBG"); TR(TRACE_CHARPUT | TRACE_MOVE, ("decoding COLORFGBG %s", p)); p = extract_fgbg(p, &(sp->_default_fg)); p = extract_fgbg(p, &(sp->_default_bg)); if (*p) /* assume rxvt was compiled with xpm support */ extract_fgbg(p, &(sp->_default_bg)); TR(TRACE_CHARPUT | TRACE_MOVE, ("decoded fg=%d, bg=%d", sp->_default_fg, sp->_default_bg)); if (sp->_default_fg >= MaxColors) { if (set_a_foreground != ABSENT_STRING && !strcmp(set_a_foreground, "\033[3%p1%dm")) { set_a_foreground = strdup("\033[3%?%p1%{8}%>%t9%e%p1%d%;m"); } else { sp->_default_fg %= MaxColors; } } if (sp->_default_bg >= MaxColors) { if (set_a_background != ABSENT_STRING && !strcmp(set_a_background, "\033[4%p1%dm")) { set_a_background = strdup("\033[4%?%p1%{8}%>%t9%e%p1%d%;m"); } else { sp->_default_bg %= MaxColors; } } } #endif #endif /* NCURSES_EXT_FUNCS */ 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; /* * 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. */ sp->_ok_attributes = NCURSES_SP_NAME(termattrs) (NCURSES_SP_ARG); if (NCURSES_SP_NAME(has_colors) (NCURSES_SP_ARG)) { sp->_ok_attributes |= A_COLOR; } #ifdef USE_TERM_DRIVER _nc_cookie_init(sp); #else #if USE_XMC_SUPPORT /* * If we have no magic-cookie support compiled-in, or if it is suppressed * in the environment, reset the support-flag. */ if (magic_cookie_glitch >= 0) { if (getenv("NCURSES_NO_MAGIC_COOKIE") != 0) { support_cookies = FALSE; } } #endif if (!support_cookies && magic_cookie_glitch >= 0) { T(("will disable attributes to work w/o magic cookies")); } if (magic_cookie_glitch > 0) { /* tvi, wyse */ sp->_xmc_triggers = sp->_ok_attributes & XMC_CONFLICT; #if 0 /* * We "should" treat colors as an attribute. The wyse350 (and its * clones) appear to be the only ones that have both colors and magic * cookies. */ if (has_colors()) { sp->_xmc_triggers |= A_COLOR; } #endif sp->_xmc_suppress = sp->_xmc_triggers & (chtype) ~(A_BOLD); T(("magic cookie attributes %s", _traceattr(sp->_xmc_suppress))); /* * Supporting line-drawing may be possible. But make the regular * video attributes work first. */ acs_chars = ABSENT_STRING; ena_acs = ABSENT_STRING; enter_alt_charset_mode = ABSENT_STRING; exit_alt_charset_mode = ABSENT_STRING; #if USE_XMC_SUPPORT /* * To keep the cookie support simple, suppress all of the optimization * hooks except for clear_screen and the cursor addressing. */ if (support_cookies) { clr_eol = ABSENT_STRING; clr_eos = ABSENT_STRING; set_attributes = ABSENT_STRING; } #endif } else if (magic_cookie_glitch == 0) { /* hpterm */ } /* * If magic cookies are not supported, cancel the strings that set * video attributes. */ if (!support_cookies && magic_cookie_glitch >= 0) { magic_cookie_glitch = ABSENT_NUMERIC; set_attributes = ABSENT_STRING; enter_blink_mode = ABSENT_STRING; enter_bold_mode = ABSENT_STRING; enter_dim_mode = ABSENT_STRING; enter_reverse_mode = ABSENT_STRING; enter_standout_mode = ABSENT_STRING; enter_underline_mode = ABSENT_STRING; } /* initialize normal acs before wide, since we use mapping in the latter */ #if !USE_WIDEC_SUPPORT if (_nc_unicode_locale() && _nc_locale_breaks_acs(sp->_term)) { acs_chars = NULL; ena_acs = NULL; enter_alt_charset_mode = NULL; exit_alt_charset_mode = NULL; set_attributes = NULL; } #endif #endif NCURSES_SP_NAME(_nc_init_acs) (NCURSES_SP_ARG); #if USE_WIDEC_SUPPORT sp->_screen_unicode = _nc_unicode_locale(); if (_nc_wacs == 0) { _nc_init_wacs(); } if (_nc_wacs == 0) { ReturnScreenError(); } sp->_screen_acs_fix = (sp->_screen_unicode && _nc_locale_breaks_acs(sp->_term)); #endif env = _nc_get_locale(); sp->_legacy_coding = ((env == 0) || !strcmp(env, "C") || !strcmp(env, "POSIX")); T(("legacy-coding %d", sp->_legacy_coding)); sp->_nc_sp_idcok = TRUE; sp->_nc_sp_idlok = FALSE; sp->oldhash = 0; sp->newhash = 0; T(("creating newscr")); NewScreen(sp) = NCURSES_SP_NAME(newwin) (NCURSES_SP_ARGx slines, scolumns, 0, 0); if (NewScreen(sp) == 0) { ReturnScreenError(); } T(("creating curscr")); CurScreen(sp) = NCURSES_SP_NAME(newwin) (NCURSES_SP_ARGx slines, scolumns, 0, 0); if (CurScreen(sp) == 0) { ReturnScreenError(); } #if !USE_REENTRANT newscr = NewScreen(sp); curscr = CurScreen(sp); #endif #if USE_SIZECHANGE sp->_resize = NCURSES_SP_NAME(resizeterm); sp->_ungetch = safe_ungetch; #endif NewScreen(sp)->_clear = TRUE; CurScreen(sp)->_clear = FALSE; /* * Get the current tty-modes. setupterm() may already have done this, * unless we use the term-driver. */ #ifndef USE_TERM_DRIVER if (cur_term != 0 && !memcmp(&cur_term->Ottyb, &null_TTY, sizeof(TTY))) #endif { NCURSES_SP_NAME(def_shell_mode) (NCURSES_SP_ARG); NCURSES_SP_NAME(def_prog_mode) (NCURSES_SP_ARG); } if (safe_ripoff_sp && safe_ripoff_sp != safe_ripoff_stack) { ripoff_t *rop; for (rop = safe_ripoff_stack; rop != safe_ripoff_sp && (rop - safe_ripoff_stack) < N_RIPS; rop++) { /* If we must simulate soft labels, grab off the line to be used. We assume that we must simulate, if it is none of the standard formats (4-4 or 3-2-3) for which there may be some hardware support. */ if (rop->hook == _nc_slk_initialize) { if (!TerminalOf(sp)) { continue; } if (!(NumLabels <= 0 || !SLK_STDFMT(slk_format))) { continue; } } if (rop->hook) { int count; WINDOW *w; count = (rop->line < 0) ? -rop->line : rop->line; T(("ripping off %i lines at %s", count, ((rop->line < 0) ? "bottom" : "top"))); w = NCURSES_SP_NAME(newwin) (NCURSES_SP_ARGx count, scolumns, ((rop->line < 0) ? sp->_lines_avail - count : 0), 0); if (w) { rop->win = w; rop->hook(w, scolumns); } else { ReturnScreenError(); } if (rop->line < 0) { bottom_stolen += count; } else { sp->_topstolen = (NCURSES_SIZE_T) (sp->_topstolen + count); } sp->_lines_avail = (NCURSES_SIZE_T) (sp->_lines_avail - count); } } /* reset the stack */ safe_ripoff_sp = safe_ripoff_stack; } T(("creating stdscr")); (void) bottom_stolen; assert((sp->_lines_avail + sp->_topstolen + bottom_stolen) == slines); if ((StdScreen(sp) = NCURSES_SP_NAME(newwin) (NCURSES_SP_ARGx sp->_lines_avail, scolumns, 0, 0)) == 0) { ReturnScreenError(); } SET_LINES(sp->_lines_avail); #if !USE_REENTRANT stdscr = StdScreen(sp); #endif sp->_prescreen = FALSE; returnCode(OK); } #if NCURSES_SP_FUNCS NCURSES_EXPORT(int) _nc_setupscreen(int slines GCC_UNUSED, int scolumns GCC_UNUSED, FILE *output, int filtered, int slk_format) { SCREEN *sp = 0; int rc = NCURSES_SP_NAME(_nc_setupscreen) (&sp, slines, scolumns, output, filtered, slk_format); if (rc != OK) _nc_set_screen(0); return rc; } #endif /* * The internal implementation interprets line as the number of lines to rip * off from the top or bottom. */ NCURSES_EXPORT(int) NCURSES_SP_NAME(_nc_ripoffline) (NCURSES_SP_DCLx int line, int (*init) (WINDOW *, int)) { int code = ERR; TR_FUNC_BFR(1); START_TRACE(); T((T_CALLED("ripoffline(%p,%d,%s)"), (void *) SP_PARM, line, TR_FUNC_ARG(0, init))); #if NCURSES_SP_FUNCS if (SP_PARM != 0 && SP_PARM->_prescreen) #endif { if (line == 0) { code = OK; } else { if (safe_ripoff_sp == 0) { safe_ripoff_sp = safe_ripoff_stack; } if (safe_ripoff_sp < safe_ripoff_stack + N_RIPS) { safe_ripoff_sp->line = line; safe_ripoff_sp->hook = init; (safe_ripoff_sp)++; T(("ripped-off %d:%d chunks", (int) (safe_ripoff_sp - safe_ripoff_stack), N_RIPS)); code = OK; } } } returnCode(code); } #if NCURSES_SP_FUNCS NCURSES_EXPORT(int) _nc_ripoffline(int line, int (*init) (WINDOW *, int)) { int rc; _nc_init_pthreads(); _nc_lock_global(prescreen); START_TRACE(); rc = NCURSES_SP_NAME(_nc_ripoffline) (CURRENT_SCREEN_PRE, line, init); _nc_unlock_global(prescreen); return rc; } #endif NCURSES_EXPORT(int) NCURSES_SP_NAME(ripoffline) (NCURSES_SP_DCLx int line, int (*init) (WINDOW *, int)) { START_TRACE(); return NCURSES_SP_NAME(_nc_ripoffline) (NCURSES_SP_ARGx (line < 0) ? -1 : 1, init); } #if NCURSES_SP_FUNCS NCURSES_EXPORT(int) ripoffline(int line, int (*init) (WINDOW *, int)) { int rc; _nc_init_pthreads(); _nc_lock_global(prescreen); START_TRACE(); rc = NCURSES_SP_NAME(ripoffline) (CURRENT_SCREEN_PRE, line, init); _nc_unlock_global(prescreen); return rc; } #endif