/* $OpenBSD: lib_options.c,v 1.4 1998/01/17 16:27:34 millert Exp $ */ /*************************************************************************** * COPYRIGHT NOTICE * **************************************************************************** * ncurses is copyright (C) 1992-1995 * * Zeyd M. Ben-Halim * * zmbenhal@netcom.com * * Eric S. Raymond * * esr@snark.thyrsus.com * * * * Permission is hereby granted to reproduce and distribute ncurses * * by any means and for any fee, whether alone or as part of a * * larger distribution, in source or in binary form, PROVIDED * * this notice is included with any such distribution, and is not * * removed from any of its header files. Mention of ncurses in any * * applications linked with it is highly appreciated. * * * * ncurses comes AS IS with no warranty, implied or expressed. * * * ***************************************************************************/ /* ** lib_options.c ** ** The routines to handle option setting. ** */ #include #include /* keypad_xmit, keypad_local, meta_on, meta_off */ /* cursor_visible,cursor_normal,cursor_invisible */ MODULE_ID("Id: lib_options.c,v 1.26 1997/09/20 15:02:34 juergen Exp $") static void add_to_try(char *, short); int has_ic(void) { T((T_CALLED("has_ic()"))); returnCode((insert_character || parm_ich || (enter_insert_mode && exit_insert_mode)) && (delete_character || parm_dch)); } int has_il(void) { T((T_CALLED("has_il()"))); returnCode((insert_line || parm_insert_line) && (delete_line || parm_delete_line)); } int idlok(WINDOW *win, bool flag) { T((T_CALLED("idlok(%p,%d)"), win, flag)); if (win) { _nc_idlok = win->_idlok = flag && (has_il() || change_scroll_region); returnCode(OK); } else returnCode(ERR); } void idcok(WINDOW *win, bool flag) { T((T_CALLED("idcok(%p,%d)"), win, flag)); if (win) _nc_idcok = win->_idcok = flag && has_ic(); returnVoid; } int clearok(WINDOW *win, bool flag) { T((T_CALLED("clearok(%p,%d)"), win, flag)); if (win) { win->_clear = flag; returnCode(OK); } else returnCode(ERR); } void immedok(WINDOW *win, bool flag) { T((T_CALLED("immedok(%p,%d)"), win, flag)); if (win) win->_immed = flag; returnVoid; } int leaveok(WINDOW *win, bool flag) { T((T_CALLED("leaveok(%p,%d)"), win, flag)); if (win) { win->_leaveok = flag; if (flag == TRUE) curs_set(0); else curs_set(1); returnCode(OK); } else returnCode(ERR); } int scrollok(WINDOW *win, bool flag) { T((T_CALLED("scrollok(%p,%d)"), win, flag)); if (win) { win->_scroll = flag; returnCode(OK); } else returnCode(ERR); } int halfdelay(int t) { T((T_CALLED("halfdelay(%d)"), t)); if (t < 1 || t > 255) returnCode(ERR); cbreak(); SP->_cbreak = t+1; returnCode(OK); } int nodelay(WINDOW *win, bool flag) { T((T_CALLED("nodelay(%p,%d)"), win, flag)); if (win) { if (flag == TRUE) win->_delay = 0; else win->_delay = -1; returnCode(OK); } else returnCode(ERR); } int notimeout(WINDOW *win, bool f) { T((T_CALLED("notimout(%p,%d)"), win, f)); if (win) { win->_notimeout = f; returnCode(OK); } else returnCode(ERR); } int wtimeout(WINDOW *win, int delay) { T((T_CALLED("wtimeout(%p,%d)"), win, delay)); if (win) { win->_delay = delay; returnCode(OK); } else returnCode(ERR); } int keypad(WINDOW *win, bool flag) { T((T_CALLED("keypad(%p,%d)"), win, flag)); if (win) { win->_use_keypad = flag; returnCode(_nc_keypad(flag)); } else returnCode(ERR); } int meta(WINDOW *win GCC_UNUSED, bool flag) { /* Ok, we stay relaxed and don't signal an error if win is NULL */ T((T_CALLED("meta(%p,%d)"), win, flag)); SP->_use_meta = flag; if (flag && meta_on) { TPUTS_TRACE("meta_on"); putp(meta_on); } else if (! flag && meta_off) { TPUTS_TRACE("meta_off"); putp(meta_off); } returnCode(OK); } /* curs_set() moved here to narrow the kernel interface */ int curs_set(int vis) { int cursor = SP->_cursor; T((T_CALLED("curs_set(%d)"), vis)); if (vis < 0 || vis > 2) returnCode(ERR); if (vis == cursor) returnCode(cursor); switch(vis) { case 2: if (cursor_visible) { TPUTS_TRACE("cursor_visible"); putp(cursor_visible); } else returnCode(ERR); break; case 1: if (cursor_normal) { TPUTS_TRACE("cursor_normal"); putp(cursor_normal); } else returnCode(ERR); break; case 0: if (cursor_invisible) { TPUTS_TRACE("cursor_invisible"); putp(cursor_invisible); } else returnCode(ERR); break; } SP->_cursor = vis; (void) fflush(SP->_ofp); returnCode(cursor==-1 ? 1 : cursor); } int typeahead(int fd) { T((T_CALLED("typeahead(%d)"), fd)); SP->_checkfd = fd; returnCode(OK); } /* ** has_key() ** ** Return TRUE if the current terminal has the given key ** */ static int has_key_internal(int keycode, struct tries *tp) { if (tp == 0) return(FALSE); else if (tp->value == keycode) return(TRUE); else return(has_key_internal(keycode, tp->child) || has_key_internal(keycode, tp->sibling)); } int has_key(int keycode) { T((T_CALLED("has_key(%d)"), keycode)); returnCode(has_key_internal(keycode, SP->_keytry)); } /* ** init_keytry() ** ** Construct the try for the current terminal's keypad keys. ** */ static struct tries *newtry; static void init_keytry(void) { newtry = 0; /* LINT_PREPRO #if 0*/ #include /* LINT_PREPRO #endif*/ SP->_keytry = newtry; } static void add_to_try(char *str, short code) { static bool out_of_memory = FALSE; struct tries *ptr, *savedptr; if (! str || out_of_memory) return; if (newtry != 0) { ptr = savedptr = newtry; for (;;) { while (ptr->ch != (unsigned char) *str && ptr->sibling != 0) ptr = ptr->sibling; if (ptr->ch == (unsigned char) *str) { if (*(++str)) { if (ptr->child != 0) ptr = ptr->child; else break; } else { ptr->value = code; return; } } else { if ((ptr->sibling = typeCalloc(struct tries,1)) == 0) { out_of_memory = TRUE; return; } savedptr = ptr = ptr->sibling; if (*str == '\200') ptr->ch = '\0'; else ptr->ch = (unsigned char) *str; str++; ptr->value = 0; break; } } /* end for (;;) */ } else { /* newtry == 0 :: First sequence to be added */ savedptr = ptr = newtry = typeCalloc(struct tries,1); if (ptr == 0) { out_of_memory = TRUE; return; } if (*str == '\200') ptr->ch = '\0'; else ptr->ch = (unsigned char) *str; str++; ptr->value = 0; } /* at this point, we are adding to the try. ptr->child == 0 */ while (*str) { ptr->child = typeCalloc(struct tries,1); ptr = ptr->child; if (ptr == 0) { out_of_memory = TRUE; ptr = savedptr; while (ptr != 0) { savedptr = ptr->child; free(ptr); ptr = savedptr; } return; } if (*str == '\200') ptr->ch = '\0'; else ptr->ch = (unsigned char) *str; str++; ptr->value = 0; } ptr->value = code; return; } /* Turn the keypad on/off * * Note: we flush the output because changing this mode causes some terminals * to emit different escape sequences for cursor and keypad keys. If we don't * flush, then the next wgetch may get the escape sequence that corresponds to * the terminal state _before_ switching modes. */ int _nc_keypad(bool flag) { if (flag && keypad_xmit) { TPUTS_TRACE("keypad_xmit"); putp(keypad_xmit); (void) fflush(SP->_ofp); } else if (! flag && keypad_local) { TPUTS_TRACE("keypad_local"); putp(keypad_local); (void) fflush(SP->_ofp); } if (SP->_keytry == UNINITIALISED) init_keytry(); return(OK); }