lib/libcurses/getch.c

1.65       roy /*	$NetBSD: getch.c,v 1.65 2017/01/31 09:17:53 roy Exp $	*/
 1.8     mikel
 1.1       cgd /*
 1.7       cgd  * Copyright (c) 1981, 1993, 1994
 1.5       cgd  *	The Regents of the University of California.  All rights reserved.
 1.1       cgd  *
 1.1       cgd  * Redistribution and use in source and binary forms, with or without
 1.1       cgd  * modification, are permitted provided that the following conditions
 1.1       cgd  * are met:
 1.1       cgd  * 1. Redistributions of source code must retain the above copyright
 1.1       cgd  *    notice, this list of conditions and the following disclaimer.
 1.1       cgd  * 2. Redistributions in binary form must reproduce the above copyright
 1.1       cgd  *    notice, this list of conditions and the following disclaimer in the
 1.1       cgd  *    documentation and/or other materials provided with the distribution.
1.42       agc  * 3. Neither the name of the University nor the names of its contributors
 1.1       cgd  *    may be used to endorse or promote products derived from this software
 1.1       cgd  *    without specific prior written permission.
 1.1       cgd  *
 1.1       cgd  * THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND
 1.1       cgd  * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
 1.1       cgd  * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
 1.1       cgd  * ARE DISCLAIMED.  IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE
 1.1       cgd  * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
 1.1       cgd  * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
 1.1       cgd  * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
 1.1       cgd  * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
 1.1       cgd  * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
 1.1       cgd  * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
 1.1       cgd  * SUCH DAMAGE.
 1.1       cgd  */
 1.1       cgd
 1.8     mikel #include <sys/cdefs.h>
 1.1       cgd #ifndef lint
 1.8     mikel #if 0
 1.7       cgd static char sccsid[] = "@(#)getch.c	8.2 (Berkeley) 5/4/94";
 1.8     mikel #else
1.65       roy __RCSID("$NetBSD: getch.c,v 1.65 2017/01/31 09:17:53 roy Exp $");
 1.8     mikel #endif
1.10       mrg #endif					/* not lint */
 1.1       cgd
1.10       mrg #include <string.h>
1.10       mrg #include <stdlib.h>
1.10       mrg #include <unistd.h>
1.10       mrg #include <stdio.h>
 1.7       cgd #include "curses.h"
1.16     blymn #include "curses_private.h"
1.48     blymn #include "keymap.h"
 1.1       cgd
1.48     blymn short	state;		/* state of the inkey function */
1.10       mrg
1.13    simonb static const struct tcdata tc[] = {
1.55       roy 	{TICODE_kSAV, KEY_SSAVE},
1.55       roy 	{TICODE_kSPD, KEY_SSUSPEND},
1.55       roy 	{TICODE_kUND, KEY_SUNDO},
1.55       roy 	{TICODE_kHLP, KEY_SHELP},
1.55       roy 	{TICODE_kHOM, KEY_SHOME},
1.55       roy 	{TICODE_kIC, KEY_SIC},
1.55       roy 	{TICODE_kLFT, KEY_SLEFT},
1.55       roy 	{TICODE_krdo, KEY_REDO},
1.55       roy 	{TICODE_khlp, KEY_HELP},
1.55       roy 	{TICODE_kmrk, KEY_MARK},
1.55       roy 	{TICODE_kmsg, KEY_MESSAGE},
1.55       roy 	{TICODE_kmov, KEY_MOVE},
1.55       roy 	{TICODE_knxt, KEY_NEXT},
1.55       roy 	{TICODE_kopn, KEY_OPEN},
1.55       roy 	{TICODE_kopt, KEY_OPTIONS},
1.55       roy 	{TICODE_kprv, KEY_PREVIOUS},
1.55       roy 	{TICODE_kprt, KEY_PRINT},
1.55       roy 	{TICODE_kMSG, KEY_SMESSAGE},
1.55       roy 	{TICODE_kMOV, KEY_SMOVE},
1.55       roy 	{TICODE_kNXT, KEY_SNEXT},
1.55       roy 	{TICODE_kOPT, KEY_SOPTIONS},
1.55       roy 	{TICODE_kPRV, KEY_SPREVIOUS},
1.55       roy 	{TICODE_kPRT, KEY_SPRINT},
1.55       roy 	{TICODE_kRDO, KEY_SREDO},
1.55       roy 	{TICODE_kRPL, KEY_SREPLACE},
1.55       roy 	{TICODE_kRIT, KEY_SRIGHT},
1.55       roy 	{TICODE_kRES, KEY_SRSUME},
1.55       roy 	{TICODE_kCAN, KEY_SCANCEL},
1.55       roy 	{TICODE_kref, KEY_REFERENCE},
1.55       roy 	{TICODE_krfr, KEY_REFRESH},
1.55       roy 	{TICODE_krpl, KEY_REPLACE},
1.55       roy 	{TICODE_krst, KEY_RESTART},
1.55       roy 	{TICODE_kres, KEY_RESUME},
1.55       roy 	{TICODE_ksav, KEY_SAVE},
1.55       roy 	{TICODE_kspd, KEY_SUSPEND},
1.55       roy 	{TICODE_kund, KEY_UNDO},
1.55       roy 	{TICODE_kBEG, KEY_SBEG},
1.55       roy 	{TICODE_kFND, KEY_SFIND},
1.55       roy 	{TICODE_kCMD, KEY_SCOMMAND},
1.55       roy 	{TICODE_kCPY, KEY_SCOPY},
1.55       roy 	{TICODE_kCRT, KEY_SCREATE},
1.55       roy 	{TICODE_kDC, KEY_SDC},
1.55       roy 	{TICODE_kDL, KEY_SDL},
1.55       roy 	{TICODE_kslt, KEY_SELECT},
1.55       roy 	{TICODE_kEND, KEY_SEND},
1.55       roy 	{TICODE_kEOL, KEY_SEOL},
1.55       roy 	{TICODE_kEXT, KEY_SEXIT},
1.55       roy 	{TICODE_kfnd, KEY_FIND},
1.55       roy 	{TICODE_kbeg, KEY_BEG},
1.55       roy 	{TICODE_kcan, KEY_CANCEL},
1.55       roy 	{TICODE_kclo, KEY_CLOSE},
1.55       roy 	{TICODE_kcmd, KEY_COMMAND},
1.55       roy 	{TICODE_kcpy, KEY_COPY},
1.55       roy 	{TICODE_kcrt, KEY_CREATE},
1.55       roy 	{TICODE_kend, KEY_END},
1.55       roy 	{TICODE_kent, KEY_ENTER},
1.55       roy 	{TICODE_kext, KEY_EXIT},
1.55       roy 	{TICODE_kf11, KEY_F(11)},
1.55       roy 	{TICODE_kf12, KEY_F(12)},
1.55       roy 	{TICODE_kf13, KEY_F(13)},
1.55       roy 	{TICODE_kf14, KEY_F(14)},
1.55       roy 	{TICODE_kf15, KEY_F(15)},
1.55       roy 	{TICODE_kf16, KEY_F(16)},
1.55       roy 	{TICODE_kf17, KEY_F(17)},
1.55       roy 	{TICODE_kf18, KEY_F(18)},
1.55       roy 	{TICODE_kf19, KEY_F(19)},
1.55       roy 	{TICODE_kf20, KEY_F(20)},
1.55       roy 	{TICODE_kf21, KEY_F(21)},
1.55       roy 	{TICODE_kf22, KEY_F(22)},
1.55       roy 	{TICODE_kf23, KEY_F(23)},
1.55       roy 	{TICODE_kf24, KEY_F(24)},
1.55       roy 	{TICODE_kf25, KEY_F(25)},
1.55       roy 	{TICODE_kf26, KEY_F(26)},
1.55       roy 	{TICODE_kf27, KEY_F(27)},
1.55       roy 	{TICODE_kf28, KEY_F(28)},
1.55       roy 	{TICODE_kf29, KEY_F(29)},
1.55       roy 	{TICODE_kf30, KEY_F(30)},
1.55       roy 	{TICODE_kf31, KEY_F(31)},
1.55       roy 	{TICODE_kf32, KEY_F(32)},
1.55       roy 	{TICODE_kf33, KEY_F(33)},
1.55       roy 	{TICODE_kf34, KEY_F(34)},
1.55       roy 	{TICODE_kf35, KEY_F(35)},
1.55       roy 	{TICODE_kf36, KEY_F(36)},
1.55       roy 	{TICODE_kf37, KEY_F(37)},
1.55       roy 	{TICODE_kf38, KEY_F(38)},
1.55       roy 	{TICODE_kf39, KEY_F(39)},
1.55       roy 	{TICODE_kf40, KEY_F(40)},
1.55       roy 	{TICODE_kf41, KEY_F(41)},
1.55       roy 	{TICODE_kf42, KEY_F(42)},
1.55       roy 	{TICODE_kf43, KEY_F(43)},
1.55       roy 	{TICODE_kf44, KEY_F(44)},
1.55       roy 	{TICODE_kf45, KEY_F(45)},
1.55       roy 	{TICODE_kf46, KEY_F(46)},
1.55       roy 	{TICODE_kf47, KEY_F(47)},
1.55       roy 	{TICODE_kf48, KEY_F(48)},
1.55       roy 	{TICODE_kf49, KEY_F(49)},
1.55       roy 	{TICODE_kf50, KEY_F(50)},
1.55       roy 	{TICODE_kf51, KEY_F(51)},
1.55       roy 	{TICODE_kf52, KEY_F(52)},
1.55       roy 	{TICODE_kf53, KEY_F(53)},
1.55       roy 	{TICODE_kf54, KEY_F(54)},
1.55       roy 	{TICODE_kf55, KEY_F(55)},
1.55       roy 	{TICODE_kf56, KEY_F(56)},
1.55       roy 	{TICODE_kf57, KEY_F(57)},
1.55       roy 	{TICODE_kf58, KEY_F(58)},
1.55       roy 	{TICODE_kf59, KEY_F(59)},
1.55       roy 	{TICODE_kf60, KEY_F(60)},
1.55       roy 	{TICODE_kf61, KEY_F(61)},
1.55       roy 	{TICODE_kf62, KEY_F(62)},
1.55       roy 	{TICODE_kf63, KEY_F(63)},
1.55       roy 	{TICODE_ka1, KEY_A1},
1.55       roy 	{TICODE_kb2, KEY_B2},
1.55       roy 	{TICODE_ka3, KEY_A3},
1.55       roy 	{TICODE_kc1, KEY_C1},
1.55       roy 	{TICODE_kc3, KEY_C3},
1.55       roy 	{TICODE_kmous, KEY_MOUSE},
1.55       roy 	{TICODE_kf0, KEY_F0},
1.55       roy 	{TICODE_kf1, KEY_F(1)},
1.55       roy 	{TICODE_kf2, KEY_F(2)},
1.55       roy 	{TICODE_kf3, KEY_F(3)},
1.55       roy 	{TICODE_kf4, KEY_F(4)},
1.55       roy 	{TICODE_kf5, KEY_F(5)},
1.55       roy 	{TICODE_kf6, KEY_F(6)},
1.55       roy 	{TICODE_kf7, KEY_F(7)},
1.55       roy 	{TICODE_kf8, KEY_F(8)},
1.55       roy 	{TICODE_kf9, KEY_F(9)},
1.55       roy 	{TICODE_kf10, KEY_F(10)},
1.55       roy 	{TICODE_kil1, KEY_IL},
1.55       roy 	{TICODE_ktbc, KEY_CATAB},
1.55       roy 	{TICODE_kcbt, KEY_BTAB},
1.55       roy 	{TICODE_kbs, KEY_BACKSPACE},
1.55       roy 	{TICODE_kclr, KEY_CLEAR},
1.55       roy 	{TICODE_kdch1, KEY_DC},
1.55       roy 	{TICODE_kcud1, KEY_DOWN},
1.55       roy 	{TICODE_kel, KEY_EOL},
1.55       roy 	{TICODE_kind, KEY_SF},
1.55       roy 	{TICODE_kll, KEY_LL},
1.55       roy 	{TICODE_khome, KEY_HOME},
1.55       roy 	{TICODE_kich1, KEY_IC},
1.55       roy 	{TICODE_kdl1, KEY_DL},
1.55       roy 	{TICODE_kcub1, KEY_LEFT},
1.55       roy 	{TICODE_krmir, KEY_EIC},
1.55       roy 	{TICODE_knp, KEY_NPAGE},
1.55       roy 	{TICODE_kpp, KEY_PPAGE},
1.55       roy 	{TICODE_kri, KEY_SR},
1.55       roy 	{TICODE_kcuf1, KEY_RIGHT},
1.55       roy 	{TICODE_ked, KEY_EOS},
1.55       roy 	{TICODE_khts, KEY_STAB},
1.55       roy 	{TICODE_kctab, KEY_CTAB},
1.55       roy 	{TICODE_kcuu1, KEY_UP}
1.10       mrg };
1.10       mrg /* Number of TC entries .... */
1.13    simonb static const int num_tcs = (sizeof(tc) / sizeof(struct tcdata));
1.10       mrg
1.48     blymn /* Key buffer */
1.48     blymn #define INBUF_SZ 16		/* size of key buffer - must be larger than
1.48     blymn 				 * longest multi-key sequence */
1.50       jdc static wchar_t	inbuf[INBUF_SZ];
1.50       jdc static int	start, end, working; /* pointers for manipulating inbuf data */
1.48     blymn
1.10       mrg /* prototypes for private functions */
1.37     blymn static void add_key_sequence(SCREEN *screen, char *sequence, int key_type);
1.48     blymn static key_entry_t *add_new_key(keymap_t *current, char ch, int key_type,
1.48     blymn         int symbol);
1.37     blymn static void delete_key_sequence(keymap_t *current, int key_type);
1.60       roy static void do_keyok(keymap_t *current, int key_type, bool set, bool flag,
1.60       roy 	int *retval);
1.48     blymn static keymap_t *new_keymap(void); /* create a new keymap */
1.48     blymn static key_entry_t *new_key(void); /* create a new key entry */
1.20     blymn static wchar_t		inkey(int to, int delay);
1.20     blymn
1.20     blymn /*
1.35     blymn  * Free the storage associated with the given keymap
1.35     blymn  */
1.35     blymn void
1.35     blymn _cursesi_free_keymap(keymap_t *map)
1.35     blymn {
1.35     blymn 	int i;
1.35     blymn
1.35     blymn 	  /* check for, and free, child keymaps */
1.35     blymn 	for (i = 0; i < MAX_CHAR; i++) {
1.35     blymn 		if (map->mapping[i] >= 0) {
1.35     blymn 			if (map->key[map->mapping[i]]->type == KEYMAP_MULTI)
1.35     blymn 				_cursesi_free_keymap(
1.35     blymn 					map->key[map->mapping[i]]->value.next);
1.35     blymn 		}
1.35     blymn 	}
1.35     blymn
1.35     blymn 	  /* now free any allocated keymap structs */
1.35     blymn 	for (i = 0; i < map->count; i += KEYMAP_ALLOC_CHUNK) {
1.35     blymn 		free(map->key[i]);
1.35     blymn 	}
1.36     blymn
1.35     blymn 	free(map->key);
1.35     blymn 	free(map);
1.35     blymn }
1.35     blymn
1.48     blymn
1.35     blymn /*
1.20     blymn  * Add a new key entry to the keymap pointed to by current.  Entry
1.20     blymn  * contains the character to add to the keymap, type is the type of
1.20     blymn  * entry to add (either multikey or leaf) and symbol is the symbolic
1.20     blymn  * value for a leaf type entry.  The function returns a pointer to the
1.20     blymn  * new keymap entry.
1.20     blymn  */
1.20     blymn static key_entry_t *
1.20     blymn add_new_key(keymap_t *current, char chr, int key_type, int symbol)
1.20     blymn {
1.20     blymn 	key_entry_t *the_key;
1.37     blymn         int i, ki;
1.20     blymn
1.20     blymn #ifdef DEBUG
1.47       jdc 	__CTRACE(__CTRACE_MISC,
1.47       jdc 	    "Adding character %s of type %d, symbol 0x%x\n",
1.47       jdc 	    unctrl(chr), key_type, symbol);
1.20     blymn #endif
1.62       roy 	if (current->mapping[(unsigned char)chr] < 0) {
1.62       roy 		if (current->mapping[(unsigned char)chr] == MAPPING_UNUSED) {
1.37     blymn 			  /* first time for this char */
1.62       roy 			current->mapping[(unsigned char)chr] =
1.37     blymn 				current->count;	/* map new entry */
1.37     blymn 			ki = current->count;
1.48     blymn
1.37     blymn 			  /* make sure we have room in the key array first */
1.37     blymn 			if ((current->count & (KEYMAP_ALLOC_CHUNK - 1)) == 0)
1.37     blymn 			{
1.37     blymn 				if ((current->key =
1.37     blymn 				     realloc(current->key,
1.37     blymn 					     ki * sizeof(key_entry_t *)
1.37     blymn 					     + KEYMAP_ALLOC_CHUNK * sizeof(key_entry_t *))) == NULL) {
1.37     blymn 					fprintf(stderr,
1.37     blymn 					  "Could not malloc for key entry\n");
1.37     blymn 					exit(1);
1.37     blymn 				}
1.48     blymn
1.37     blymn 				the_key = new_key();
1.37     blymn 				for (i = 0; i < KEYMAP_ALLOC_CHUNK; i++) {
1.37     blymn 					current->key[ki + i] = &the_key[i];
1.37     blymn 				}
1.20     blymn 			}
1.37     blymn                 } else {
1.37     blymn 			  /* the mapping was used but freed, reuse it */
1.37     blymn 			ki = - current->mapping[(unsigned char) chr];
1.37     blymn 			current->mapping[(unsigned char) chr] = ki;
1.37     blymn 		}
1.48     blymn
1.37     blymn 		current->count++;
1.48     blymn
1.37     blymn 		  /* point at the current key array element to use */
1.37     blymn 		the_key = current->key[ki];
1.48     blymn
1.20     blymn 		the_key->type = key_type;
1.20     blymn
1.20     blymn 		switch (key_type) {
1.20     blymn 		  case KEYMAP_MULTI:
1.20     blymn 			    /* need for next key */
1.20     blymn #ifdef DEBUG
1.47       jdc 			  __CTRACE(__CTRACE_MISC, "Creating new keymap\n");
1.20     blymn #endif
1.20     blymn 			  the_key->value.next = new_keymap();
1.37     blymn 			  the_key->enable = TRUE;
1.20     blymn 			  break;
1.20     blymn
1.20     blymn 		  case KEYMAP_LEAF:
1.20     blymn 				/* the associated symbol for the key */
1.20     blymn #ifdef DEBUG
1.47       jdc 			  __CTRACE(__CTRACE_MISC, "Adding leaf key\n");
1.20     blymn #endif
1.20     blymn 			  the_key->value.symbol = symbol;
1.37     blymn 			  the_key->enable = TRUE;
1.20     blymn 			  break;
1.20     blymn
1.20     blymn 		  default:
1.20     blymn 			  fprintf(stderr, "add_new_key: bad type passed\n");
1.20     blymn 			  exit(1);
1.20     blymn 		}
1.20     blymn 	} else {
1.20     blymn 		  /* the key is already known - just return the address. */
1.20     blymn #ifdef DEBUG
1.47       jdc 		__CTRACE(__CTRACE_MISC, "Keymap already known\n");
1.20     blymn #endif
1.62       roy 		the_key = current->key[current->mapping[(unsigned char)chr]];
1.20     blymn 	}
1.20     blymn
1.20     blymn         return the_key;
1.20     blymn }
1.10       mrg
1.10       mrg /*
1.37     blymn  * Delete the given key symbol from the key mappings for the screen.
1.37     blymn  *
1.37     blymn  */
1.64       roy static void
1.37     blymn delete_key_sequence(keymap_t *current, int key_type)
1.37     blymn {
1.37     blymn 	key_entry_t *key;
1.37     blymn 	int i;
1.37     blymn
1.37     blymn 	  /*
1.37     blymn 	   * we need to iterate over all the keys as there may be
1.37     blymn 	   * multiple instances of the leaf symbol.
1.37     blymn 	   */
1.37     blymn 	for (i = 0; i < MAX_CHAR; i++) {
1.37     blymn 		if (current->mapping[i] < 0)
1.37     blymn 			continue; /* no mapping for the key, next! */
1.37     blymn
1.37     blymn 		key = current->key[current->mapping[i]];
1.37     blymn
1.37     blymn 		if (key->type == KEYMAP_MULTI) {
1.37     blymn 			  /* have not found the leaf, recurse down */
1.37     blymn 			delete_key_sequence(key->value.next, key_type);
1.37     blymn 			  /* if we deleted the last key in the map, free */
1.37     blymn 			if (key->value.next->count == 0)
1.37     blymn 				_cursesi_free_keymap(key->value.next);
1.37     blymn 		} else if ((key->type == KEYMAP_LEAF)
1.37     blymn 			   && (key->value.symbol == key_type)) {
1.58     blymn #ifdef DEBUG
1.58     blymn 		__CTRACE(__CTRACE_INPUT, "delete_key_sequence: found keysym %d, deleting\n",
1.58     blymn 		    key_type);
1.58     blymn #endif
1.58     blymn 			key->enable = FALSE;
1.37     blymn 		}
1.37     blymn 	}
1.37     blymn }
1.48     blymn
1.37     blymn /*
1.37     blymn  * Add the sequence of characters given in sequence as the key mapping
1.37     blymn  * for the given key symbol.
1.37     blymn  */
1.64       roy static void
1.37     blymn add_key_sequence(SCREEN *screen, char *sequence, int key_type)
1.37     blymn {
1.37     blymn 	key_entry_t *tmp_key;
1.37     blymn 	keymap_t *current;
1.37     blymn 	int length, j, key_ent;
1.37     blymn
1.48     blymn #ifdef DEBUG
1.48     blymn 	__CTRACE(__CTRACE_MISC, "add_key_sequence: add key sequence: %s(%s)\n",
1.48     blymn 	    sequence, keyname(key_type));
1.48     blymn #endif /* DEBUG */
1.37     blymn 	current = screen->base_keymap;	/* always start with
1.37     blymn 					 * base keymap. */
1.62       roy 	length = (int)strlen(sequence);
1.37     blymn
1.49     blymn 	/*
1.49     blymn 	 * OK - we really should never get a zero length string here, either
1.59       roy 	 * the terminfo entry is there and it has a value or we are not called
1.59       roy 	 * at all.  Unfortunately, if someone assigns a terminfo string to the
1.49     blymn 	 * ^@ value we get passed a null string which messes up our length.
1.49     blymn 	 * So, if we get a null string then just insert a leaf value in
1.49     blymn 	 * the 0th char position of the root keymap.  Note that we are
1.49     blymn 	 * totally screwed if someone terminates a multichar sequence
1.49     blymn 	 * with ^@... oh well.
1.49     blymn 	 */
1.49     blymn 	if (length == 0)
1.49     blymn 		length = 1;
1.49     blymn
1.37     blymn 	for (j = 0; j < length - 1; j++) {
1.37     blymn 		  /* add the entry to the struct */
1.37     blymn 		tmp_key = add_new_key(current, sequence[j], KEYMAP_MULTI, 0);
1.48     blymn
1.37     blymn 		  /* index into the key array - it's
1.37     blymn 		     clearer if we stash this */
1.37     blymn 		key_ent = current->mapping[(unsigned char) sequence[j]];
1.37     blymn
1.37     blymn 		current->key[key_ent] = tmp_key;
1.48     blymn
1.37     blymn 		  /* next key uses this map... */
1.37     blymn 		current = current->key[key_ent]->value.next;
1.37     blymn 	}
1.37     blymn
1.37     blymn 	/*
1.37     blymn 	 * This is the last key in the sequence (it may have been the
1.37     blymn 	 * only one but that does not matter) this means it is a leaf
1.37     blymn 	 * key and should have a symbol associated with it.
1.37     blymn 	 */
1.37     blymn 	tmp_key = add_new_key(current, sequence[length - 1], KEYMAP_LEAF,
1.37     blymn 			      key_type);
1.37     blymn 	current->key[current->mapping[(int)sequence[length - 1]]] = tmp_key;
1.37     blymn }
1.37     blymn
1.37     blymn /*
1.10       mrg  * Init_getch - initialise all the pointers & structures needed to make
1.10       mrg  * getch work in keypad mode.
1.10       mrg  *
1.10       mrg  */
1.10       mrg void
1.35     blymn __init_getch(SCREEN *screen)
1.10       mrg {
1.27     blymn 	char entry[1024], *p;
1.55       roy 	const char *s;
1.37     blymn 	int     i;
1.55       roy 	size_t limit, l;
1.20     blymn #ifdef DEBUG
1.37     blymn 	int k, length;
1.20     blymn #endif
1.10       mrg
1.10       mrg 	/* init the inkey state variable */
1.10       mrg 	state = INKEY_NORM;
1.10       mrg
1.10       mrg 	/* init the base keymap */
1.35     blymn 	screen->base_keymap = new_keymap();
1.10       mrg
1.10       mrg 	/* key input buffer pointers */
1.10       mrg 	start = end = working = 0;
1.10       mrg
1.55       roy 	/* now do the terminfo snarfing ... */
1.35     blymn
1.27     blymn 	for (i = 0; i < num_tcs; i++) {
1.27     blymn 		p = entry;
1.27     blymn 		limit = 1023;
1.55       roy 		s = screen->term->strs[tc[i].code];
1.55       roy 		if (s == NULL)
1.55       roy 			continue;
1.55       roy 		l = strlen(s) + 1;
1.57     joerg 		if (limit < l)
1.55       roy 			continue;
1.55       roy 		strlcpy(p, s, limit);
1.55       roy 		p += l;
1.55       roy 		limit -= l;
1.20     blymn #ifdef DEBUG
1.47       jdc 			__CTRACE(__CTRACE_INIT,
1.59       roy 			    "Processing terminfo entry %d, sequence ",
1.55       roy 			    tc[i].code);
1.37     blymn 			length = (int) strlen(entry);
1.27     blymn 			for (k = 0; k <= length -1; k++)
1.47       jdc 				__CTRACE(__CTRACE_INIT, "%s", unctrl(entry[k]));
1.47       jdc 			__CTRACE(__CTRACE_INIT, "\n");
1.27     blymn #endif
1.55       roy 		add_key_sequence(screen, entry, tc[i].symbol);
1.10       mrg 	}
1.10       mrg }
1.10       mrg
1.10       mrg
1.10       mrg /*
1.10       mrg  * new_keymap - allocates & initialises a new keymap structure.  This
1.10       mrg  * function returns a pointer to the new keymap.
1.10       mrg  *
1.10       mrg  */
1.13    simonb static keymap_t *
1.10       mrg new_keymap(void)
1.10       mrg {
1.10       mrg 	int     i;
1.10       mrg 	keymap_t *new_map;
1.10       mrg
1.10       mrg 	if ((new_map = malloc(sizeof(keymap_t))) == NULL) {
1.10       mrg 		perror("Inkey: Cannot allocate new keymap");
1.10       mrg 		exit(2);
1.10       mrg 	}
1.12        pk
1.12        pk 	/* Initialise the new map */
1.10       mrg 	new_map->count = 0;
1.10       mrg 	for (i = 0; i < MAX_CHAR; i++) {
1.37     blymn 		new_map->mapping[i] = MAPPING_UNUSED; /* no mapping for char */
1.10       mrg 	}
1.10       mrg
1.23   thorpej 	/* key array will be allocated when first key is added */
1.23   thorpej 	new_map->key = NULL;
1.23   thorpej
1.20     blymn 	return new_map;
1.10       mrg }
1.10       mrg
1.10       mrg /*
1.10       mrg  * new_key - allocates & initialises a new key entry.  This function returns
1.10       mrg  * a pointer to the newly allocated key entry.
1.10       mrg  *
1.10       mrg  */
1.13    simonb static key_entry_t *
1.10       mrg new_key(void)
1.10       mrg {
1.10       mrg 	key_entry_t *new_one;
1.20     blymn 	int i;
1.36     blymn
1.62       roy 	new_one = malloc(KEYMAP_ALLOC_CHUNK * sizeof(key_entry_t));
1.62       roy 	if (new_one == NULL) {
1.20     blymn 		perror("inkey: Cannot allocate new key entry chunk");
1.10       mrg 		exit(2);
1.10       mrg 	}
1.10       mrg
1.20     blymn 	for (i = 0; i < KEYMAP_ALLOC_CHUNK; i++) {
1.20     blymn 		new_one[i].type = 0;
1.20     blymn 		new_one[i].value.next = NULL;
1.20     blymn 	}
1.36     blymn
1.20     blymn 	return new_one;
1.10       mrg }
1.10       mrg
1.10       mrg /*
1.10       mrg  * inkey - do the work to process keyboard input, check for multi-key
1.10       mrg  * sequences and return the appropriate symbol if we get a match.
1.10       mrg  *
1.10       mrg  */
1.10       mrg
1.64       roy static wchar_t
1.20     blymn inkey(int to, int delay)
1.10       mrg {
1.21       jdc 	wchar_t		 k;
1.37     blymn 	int              c, mapping;
1.35     blymn 	keymap_t	*current = _cursesi_screen->base_keymap;
1.35     blymn 	FILE            *infd = _cursesi_screen->infd;
1.10       mrg
1.25       jdc 	k = 0;		/* XXX gcc -Wuninitialized */
1.25       jdc
1.46  christos #ifdef DEBUG
1.47       jdc 	__CTRACE(__CTRACE_INPUT, "inkey (%d, %d)\n", to, delay);
1.46  christos #endif
1.10       mrg 	for (;;) {		/* loop until we get a complete key sequence */
1.10       mrg reread:
1.10       mrg 		if (state == INKEY_NORM) {
1.10       mrg 			if (delay && __timeout(delay) == ERR)
1.10       mrg 				return ERR;
1.54       dsl 			c = fgetc(infd);
1.44       jdc 			if (c == EOF) {
1.35     blymn 				clearerr(infd);
1.10       mrg 				return ERR;
1.22     blymn 			}
1.48     blymn
1.10       mrg 			if (delay && (__notimeout() == ERR))
1.10       mrg 				return ERR;
1.22     blymn
1.62       roy 			k = (wchar_t)c;
1.10       mrg #ifdef DEBUG
1.47       jdc 			__CTRACE(__CTRACE_INPUT,
1.47       jdc 			    "inkey (state normal) got '%s'\n", unctrl(k));
1.10       mrg #endif
1.10       mrg
1.10       mrg 			working = start;
1.10       mrg 			inbuf[working] = k;
1.10       mrg 			INC_POINTER(working);
1.10       mrg 			end = working;
1.10       mrg 			state = INKEY_ASSEMBLING;	/* go to the assembling
1.10       mrg 							 * state now */
1.12        pk 		} else if (state == INKEY_BACKOUT) {
1.12        pk 			k = inbuf[working];
1.12        pk 			INC_POINTER(working);
1.12        pk 			if (working == end) {	/* see if we have run
1.12        pk 						 * out of keys in the
1.12        pk 						 * backlog */
1.12        pk
1.41       jdc 				/* if we have then switch to assembling */
1.12        pk 				state = INKEY_ASSEMBLING;
1.12        pk 			}
1.12        pk 		} else if (state == INKEY_ASSEMBLING) {
1.12        pk 			/* assembling a key sequence */
1.12        pk 			if (delay) {
1.65       roy 				if (__timeout(to ? (ESCDELAY / 100) : delay)
1.41       jdc 				    == ERR)
1.41       jdc 					return ERR;
1.12        pk 			} else {
1.65       roy 				if (to && (__timeout(ESCDELAY / 100) == ERR))
1.10       mrg 					return ERR;
1.12        pk 			}
1.22     blymn
1.54       dsl 			c = fgetc(infd);
1.52       jdc 			if (ferror(infd)) {
1.35     blymn 				clearerr(infd);
1.12        pk 				return ERR;
1.22     blymn 			}
1.48     blymn
1.12        pk 			if ((to || delay) && (__notimeout() == ERR))
1.10       mrg 					return ERR;
1.14    simonb
1.10       mrg #ifdef DEBUG
1.47       jdc 			__CTRACE(__CTRACE_INPUT,
1.47       jdc 			    "inkey (state assembling) got '%s'\n", unctrl(k));
1.10       mrg #endif
1.52       jdc 			if (feof(infd) || c == -1) {	/* inter-char timeout,
1.52       jdc 							 * start backing out */
1.35     blymn 				clearerr(infd);
1.12        pk 				if (start == end)
1.12        pk 					/* no chars in the buffer, restart */
1.12        pk 					goto reread;
1.12        pk
1.12        pk 				k = inbuf[start];
1.12        pk 				state = INKEY_TIMEOUT;
1.10       mrg 			} else {
1.52       jdc 				k = (wchar_t) c;
1.12        pk 				inbuf[working] = k;
1.12        pk 				INC_POINTER(working);
1.12        pk 				end = working;
1.10       mrg 			}
1.12        pk 		} else {
1.12        pk 			fprintf(stderr, "Inkey state screwed - exiting!!!");
1.12        pk 			exit(2);
1.12        pk 		}
1.10       mrg
1.37     blymn 		  /*
1.37     blymn 		   * Check key has no special meaning and we have not
1.37     blymn 		   * timed out and the key has not been disabled
1.37     blymn 		   */
1.37     blymn 		mapping = current->mapping[k];
1.37     blymn 		if (((state == INKEY_TIMEOUT) || (mapping < 0))
1.37     blymn 			|| ((current->key[mapping]->type == KEYMAP_LEAF)
1.37     blymn 			    && (current->key[mapping]->enable == FALSE))) {
1.12        pk 			/* return the first key we know about */
1.12        pk 			k = inbuf[start];
1.10       mrg
1.10       mrg 			INC_POINTER(start);
1.10       mrg 			working = start;
1.10       mrg
1.10       mrg 			if (start == end) {	/* only one char processed */
1.10       mrg 				state = INKEY_NORM;
1.10       mrg 			} else {/* otherwise we must have more than one char
1.10       mrg 				 * to backout */
1.10       mrg 				state = INKEY_BACKOUT;
1.10       mrg 			}
1.10       mrg 			return k;
1.10       mrg 		} else {	/* must be part of a multikey sequence */
1.10       mrg 			/* check for completed key sequence */
1.10       mrg 			if (current->key[current->mapping[k]]->type == KEYMAP_LEAF) {
1.10       mrg 				start = working;	/* eat the key sequence
1.10       mrg 							 * in inbuf */
1.10       mrg
1.12        pk 				/* check if inbuf empty now */
1.12        pk 				if (start == end) {
1.12        pk 					/* if it is go back to normal */
1.12        pk 					state = INKEY_NORM;
1.12        pk 				} else {
1.12        pk 					/* otherwise go to backout state */
1.10       mrg 					state = INKEY_BACKOUT;
1.10       mrg 				}
1.10       mrg
1.10       mrg 				/* return the symbol */
1.10       mrg 				return current->key[current->mapping[k]]->value.symbol;
1.10       mrg
1.12        pk 			} else {
1.12        pk 				/*
1.12        pk 				 * Step on to next part of the multi-key
1.12        pk 				 * sequence.
1.12        pk 				 */
1.10       mrg 				current = current->key[current->mapping[k]]->value.next;
1.10       mrg 			}
1.10       mrg 		}
1.10       mrg 	}
1.10       mrg }
1.10       mrg
1.18     blymn #ifndef _CURSES_USE_MACROS
1.18     blymn /*
1.18     blymn  * getch --
1.18     blymn  *	Read in a character from stdscr.
1.18     blymn  */
1.18     blymn int
1.18     blymn getch(void)
1.18     blymn {
1.18     blymn 	return wgetch(stdscr);
1.18     blymn }
1.18     blymn
1.18     blymn /*
1.18     blymn  * mvgetch --
1.18     blymn  *      Read in a character from stdscr at the given location.
1.18     blymn  */
1.18     blymn int
1.18     blymn mvgetch(int y, int x)
1.18     blymn {
1.18     blymn 	return mvwgetch(stdscr, y, x);
1.18     blymn }
1.18     blymn
1.18     blymn /*
1.18     blymn  * mvwgetch --
1.18     blymn  *      Read in a character from stdscr at the given location in the
1.18     blymn  *      given window.
1.18     blymn  */
1.18     blymn int
1.18     blymn mvwgetch(WINDOW *win, int y, int x)
1.18     blymn {
1.18     blymn 	if (wmove(win, y, x) == ERR)
1.18     blymn 		return ERR;
1.18     blymn
1.18     blymn 	return wgetch(win);
1.18     blymn }
1.18     blymn
1.18     blymn #endif
1.18     blymn
1.37     blymn /*
1.37     blymn  * keyok --
1.37     blymn  *      Set the enable flag for a keysym, if the flag is false then
1.37     blymn  * getch will not return this keysym even if the matching key sequence
1.37     blymn  * is seen.
1.37     blymn  */
1.37     blymn int
1.37     blymn keyok(int key_type, bool flag)
1.37     blymn {
1.37     blymn 	int result = ERR;
1.48     blymn
1.64       roy 	if (_cursesi_screen != NULL)
1.64       roy 		do_keyok(_cursesi_screen->base_keymap, key_type,
1.64       roy 		    true, flag, &result);
1.37     blymn 	return result;
1.37     blymn }
1.37     blymn
1.37     blymn /*
1.37     blymn  * do_keyok --
1.37     blymn  *       Does the actual work for keyok, we need to recurse through the
1.37     blymn  * keymaps finding the passed key symbol.
1.37     blymn  */
1.60       roy static void
1.60       roy do_keyok(keymap_t *current, int key_type, bool set, bool flag, int *retval)
1.37     blymn {
1.37     blymn 	key_entry_t *key;
1.37     blymn 	int i;
1.37     blymn
1.37     blymn 	  /*
1.37     blymn 	   * we need to iterate over all the keys as there may be
1.37     blymn 	   * multiple instances of the leaf symbol.
1.37     blymn 	   */
1.37     blymn 	for (i = 0; i < MAX_CHAR; i++) {
1.37     blymn 		if (current->mapping[i] < 0)
1.37     blymn 			continue; /* no mapping for the key, next! */
1.37     blymn
1.37     blymn 		key = current->key[current->mapping[i]];
1.37     blymn
1.37     blymn 		if (key->type == KEYMAP_MULTI)
1.60       roy 			do_keyok(key->value.next, key_type, set, flag, retval);
1.37     blymn 		else if ((key->type == KEYMAP_LEAF)
1.37     blymn 			 && (key->value.symbol == key_type)) {
1.60       roy 			if (set)
1.60       roy 				key->enable = flag;
1.37     blymn 			*retval = OK; /* we found at least one instance, ok */
1.37     blymn 		}
1.37     blymn 	}
1.37     blymn }
1.37     blymn
1.37     blymn /*
1.37     blymn  * define_key --
1.37     blymn  *      Add a custom mapping of a key sequence to key symbol.
1.37     blymn  *
1.37     blymn  */
1.37     blymn int
1.37     blymn define_key(char *sequence, int symbol)
1.37     blymn {
1.37     blymn
1.64       roy 	if (symbol <= 0 || _cursesi_screen == NULL)
1.37     blymn 		return ERR;
1.37     blymn
1.58     blymn 	if (sequence == NULL) {
1.58     blymn #ifdef DEBUG
1.58     blymn 		__CTRACE(__CTRACE_INPUT, "define_key: deleting keysym %d\n",
1.58     blymn 		    symbol);
1.58     blymn #endif
1.37     blymn 		delete_key_sequence(_cursesi_screen->base_keymap, symbol);
1.58     blymn 	} else
1.37     blymn 		add_key_sequence(_cursesi_screen, sequence, symbol);
1.37     blymn
1.37     blymn 	return OK;
1.37     blymn }
1.48     blymn
 1.1       cgd /*
 1.4   mycroft  * wgetch --
 1.4   mycroft  *	Read in a character from the window.
 1.1       cgd  */
 1.4   mycroft int
1.18     blymn wgetch(WINDOW *win)
 1.4   mycroft {
1.30    itojun 	int inp, weset;
1.30    itojun 	int c;
1.35     blymn 	FILE *infd = _cursesi_screen->infd;
 1.1       cgd
1.51       jdc #ifdef DEBUG
1.51       jdc 	__CTRACE(__CTRACE_INPUT, "wgetch: win(%p)\n", win);
1.51       jdc #endif
1.64       roy 	if (win == NULL)
1.64       roy 		return ERR;
 1.5       cgd 	if (!(win->flags & __SCROLLOK) && (win->flags & __FULLWIN)
1.10       mrg 	    && win->curx == win->maxx - 1 && win->cury == win->maxy - 1
1.10       mrg 	    && __echoit)
1.64       roy 		return ERR;
1.25       jdc
1.32    itojun 	if (is_wintouched(win))
1.32    itojun 		wrefresh(win);
 1.4   mycroft #ifdef DEBUG
1.47       jdc 	__CTRACE(__CTRACE_INPUT, "wgetch: __echoit = %d, "
1.52       jdc 	    "__rawmode = %d, __nl = %d, flags = %#.4x, delay = %d\n",
1.52       jdc 	    __echoit, __rawmode, _cursesi_screen->nl, win->flags, win->delay);
 1.4   mycroft #endif
1.50       jdc 	if (_cursesi_screen->resized) {
1.50       jdc 		_cursesi_screen->resized = 0;
1.51       jdc #ifdef DEBUG
1.51       jdc 		__CTRACE(__CTRACE_INPUT, "wgetch returning KEY_RESIZE\n");
1.51       jdc #endif
1.50       jdc 		return KEY_RESIZE;
1.50       jdc 	}
1.50       jdc 	if (_cursesi_screen->unget_pos) {
1.50       jdc #ifdef DEBUG
1.50       jdc 		__CTRACE(__CTRACE_INPUT, "wgetch returning char at %d\n",
1.50       jdc 		    _cursesi_screen->unget_pos);
1.50       jdc #endif
1.50       jdc 		_cursesi_screen->unget_pos--;
1.50       jdc 		c = _cursesi_screen->unget_list[_cursesi_screen->unget_pos];
1.50       jdc 		if (__echoit)
1.50       jdc 			waddch(win, (chtype) c);
1.50       jdc 		return c;
1.50       jdc 	}
 1.4   mycroft 	if (__echoit && !__rawmode) {
 1.1       cgd 		cbreak();
 1.4   mycroft 		weset = 1;
 1.4   mycroft 	} else
 1.4   mycroft 		weset = 0;
 1.4   mycroft
1.10       mrg 	__save_termios();
1.10       mrg
1.10       mrg 	if (win->flags & __KEYPAD) {
1.10       mrg 		switch (win->delay)
1.10       mrg 		{
1.10       mrg 		case -1:
1.10       mrg 			inp = inkey (win->flags & __NOTIMEOUT ? 0 : 1, 0);
1.10       mrg 			break;
1.10       mrg 		case 0:
1.53       dsl 			if (__nodelay() == ERR)
1.19       jdc 				return ERR;
1.10       mrg 			inp = inkey(0, 0);
1.10       mrg 			break;
1.10       mrg 		default:
1.10       mrg 			inp = inkey(win->flags & __NOTIMEOUT ? 0 : 1, win->delay);
1.10       mrg 			break;
1.10       mrg 		}
1.10       mrg 	} else {
1.10       mrg 		switch (win->delay)
1.10       mrg 		{
1.10       mrg 		case -1:
1.53       dsl 			if (__delay() == ERR)
1.46  christos 				return ERR;
1.10       mrg 			break;
1.10       mrg 		case 0:
1.53       dsl 			if (__nodelay() == ERR)
1.10       mrg 				return ERR;
1.10       mrg 			break;
1.10       mrg 		default:
1.53       dsl 			if (__timeout(win->delay) == ERR)
1.10       mrg 				return ERR;
1.10       mrg 			break;
1.10       mrg 		}
1.12        pk
1.54       dsl 		c = fgetc(infd);
1.35     blymn 		if (feof(infd)) {
1.35     blymn 			clearerr(infd);
1.22     blymn 			__restore_termios();
1.22     blymn 			return ERR;	/* we have timed out */
1.22     blymn 		}
1.48     blymn
1.35     blymn 		if (ferror(infd)) {
1.35     blymn 			clearerr(infd);
1.10       mrg 			inp = ERR;
1.12        pk 		} else {
1.30    itojun 			inp = c;
1.10       mrg 		}
1.10       mrg 	}
 1.4   mycroft #ifdef DEBUG
1.15    simonb 	if (inp > 255)
1.20     blymn 		  /* we have a key symbol - treat it differently */
1.20     blymn 		  /* XXXX perhaps __unctrl should be expanded to include
1.20     blymn 		   * XXXX the keysyms in the table....
1.20     blymn 		   */
1.47       jdc 		__CTRACE(__CTRACE_INPUT, "wgetch assembled keysym 0x%x\n", inp);
1.15    simonb 	else
1.47       jdc 		__CTRACE(__CTRACE_INPUT, "wgetch got '%s'\n", unctrl(inp));
 1.4   mycroft #endif
1.12        pk 	if (win->delay > -1) {
1.53       dsl 		if (__delay() == ERR)
1.10       mrg 			return ERR;
1.12        pk 	}
1.12        pk
1.10       mrg 	__restore_termios();
1.27     blymn
1.56     blymn 	if ((__echoit) && (inp < KEY_MIN))
1.16     blymn 		waddch(win, (chtype) inp);
1.27     blymn
 1.1       cgd 	if (weset)
 1.1       cgd 		nocbreak();
1.40       jdc
1.40       jdc 	if (_cursesi_screen->nl && inp == 13)
1.40       jdc 		inp = 10;
1.12        pk
1.10       mrg 	return ((inp < 0) || (inp == ERR) ? ERR : inp);
1.22     blymn }
1.22     blymn
1.22     blymn /*
1.22     blymn  * ungetch --
1.22     blymn  *     Put the character back into the input queue.
1.22     blymn  */
1.22     blymn int
1.22     blymn ungetch(int c)
1.22     blymn {
1.62       roy 	return __unget((wint_t)c);
1.50       jdc }
1.50       jdc
1.50       jdc /*
1.50       jdc  * __unget --
1.50       jdc  *    Do the work for ungetch() and unget_wch();
1.50       jdc  */
1.50       jdc int
1.50       jdc __unget(wint_t c)
1.50       jdc {
1.50       jdc 	wchar_t	*p;
1.50       jdc 	int	len;
1.50       jdc
1.50       jdc #ifdef DEBUG
1.50       jdc 	__CTRACE(__CTRACE_INPUT, "__unget(%x)\n", c);
1.50       jdc #endif
1.64       roy 	if (_cursesi_screen == NULL)
1.64       roy 		return ERR;
1.50       jdc 	if (_cursesi_screen->unget_pos >= _cursesi_screen->unget_len) {
1.50       jdc 		len = _cursesi_screen->unget_len + 32;
1.50       jdc 		if ((p = realloc(_cursesi_screen->unget_list,
1.50       jdc 		    sizeof(wchar_t) * len)) == NULL) {
1.50       jdc 			/* Can't realloc(), so just lose the oldest entry */
1.50       jdc 			memmove(_cursesi_screen->unget_list,
1.50       jdc 			    _cursesi_screen->unget_list + sizeof(wchar_t),
1.50       jdc 			    _cursesi_screen->unget_len - 1);
1.50       jdc 			_cursesi_screen->unget_list[_cursesi_screen->unget_len
1.50       jdc 			    - 1] = c;
1.50       jdc 			_cursesi_screen->unget_pos =
1.50       jdc 			    _cursesi_screen->unget_len;
1.50       jdc 			return OK;
1.50       jdc 		} else {
1.50       jdc 			_cursesi_screen->unget_pos =
1.50       jdc 			    _cursesi_screen->unget_len;
1.50       jdc 			_cursesi_screen->unget_len = len;
1.50       jdc 			_cursesi_screen->unget_list = p;
1.50       jdc 		}
1.50       jdc 	}
1.50       jdc 	_cursesi_screen->unget_list[_cursesi_screen->unget_pos] = c;
1.50       jdc 	_cursesi_screen->unget_pos++;
1.50       jdc 	return OK;
 1.1       cgd }
1.60       roy
1.60       roy int
1.60       roy has_key(int key_type)
1.60       roy {
1.60       roy 	int result = ERR;
1.60       roy
1.64       roy 	if (_cursesi_screen != NULL)
1.64       roy 		do_keyok(_cursesi_screen->base_keymap, key_type,
1.64       roy 		    false, false, &result);
1.60       roy 	return result;
1.60       roy }
1.61       roy
1.61       roy /*
1.61       roy  * set_escdelay --
1.61       roy  *   Sets the escape delay for the current screen.
1.61       roy  */
1.61       roy int
1.61       roy set_escdelay(int escdelay)
1.61       roy {
1.61       roy
1.64       roy 	if (_cursesi_screen == NULL)
1.64       roy 		return ERR;
1.61       roy 	_cursesi_screen->ESCDELAY = escdelay;
1.61       roy 	ESCDELAY = escdelay;
1.61       roy 	return OK;
1.61       roy }