lib/libcurses/get_wch.c

1.26    rin /*   $NetBSD: get_wch.c,v 1.26 2021/09/06 07:45:48 rin Exp $ */
 1.1  blymn
 1.1  blymn /*
 1.1  blymn  * Copyright (c) 2005 The NetBSD Foundation Inc.
 1.1  blymn  * All rights reserved.
 1.1  blymn  *
 1.1  blymn  * This code is derived from code donated to the NetBSD Foundation
 1.1  blymn  * by Ruibiao Qiu <ruibiao (at) arl.wustl.edu,ruibiao (at) gmail.com>.
 1.1  blymn  *
 1.1  blymn  *
 1.1  blymn  * Redistribution and use in source and binary forms, with or without
 1.1  blymn  * modification, are permitted provided that the following conditions
 1.1  blymn  * are met:
 1.1  blymn  * 1. Redistributions of source code must retain the above copyright
 1.1  blymn  *	notice, this list of conditions and the following disclaimer.
 1.1  blymn  * 2. Redistributions in binary form must reproduce the above copyright
 1.1  blymn  *	notice, this list of conditions and the following disclaimer in the
 1.1  blymn  *	documentation and/or other materials provided with the distribution.
 1.1  blymn  * 3. Neither the name of the NetBSD Foundation nor the names of its
 1.1  blymn  *	contributors may be used to endorse or promote products derived
 1.1  blymn  *	from this software without specific prior written permission.
 1.1  blymn  *
 1.1  blymn  * THIS SOFTWARE IS PROVIDED BY THE NETBSD FOUNDATION, INC. AND
 1.1  blymn  * CONTRIBUTORS ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES,
 1.1  blymn  * INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF
 1.1  blymn  * MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
 1.1  blymn  * ARE DISCLAIMED.  IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE
 1.1  blymn  * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
 1.1  blymn  * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
 1.1  blymn  * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
 1.1  blymn  * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
 1.1  blymn  * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
 1.1  blymn  * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
 1.1  blymn  * SUCH DAMAGE.
 1.1  blymn  */
 1.1  blymn
 1.1  blymn #include <sys/cdefs.h>
 1.1  blymn #ifndef lint
1.26    rin __RCSID("$NetBSD: get_wch.c,v 1.26 2021/09/06 07:45:48 rin Exp $");
 1.1  blymn #endif						  /* not lint */
 1.1  blymn
1.15    rin #include <errno.h>
 1.1  blymn #include <string.h>
 1.1  blymn #include <stdlib.h>
 1.1  blymn #include <unistd.h>
 1.1  blymn #include <stdio.h>
 1.1  blymn #include "curses.h"
 1.1  blymn #include "curses_private.h"
 1.1  blymn #include "keymap.h"
 1.1  blymn
1.21    rin static short wstate;		/* state of the wcinkey function */
1.21    rin extern short _cursesi_state;	/* storage declared in getch.c */
 1.1  blymn
 1.1  blymn /* prototypes for private functions */
 1.1  blymn static int inkey(wchar_t *wc, int to, int delay);
1.17    roy static wint_t __fgetwc_resize(FILE *infd, bool *resized);
 1.1  blymn
 1.1  blymn /*
 1.1  blymn  * __init_get_wch - initialise all the pointers & structures needed to make
 1.1  blymn  * get_wch work in keypad mode.
 1.1  blymn  *
 1.1  blymn  */
 1.1  blymn void
 1.1  blymn __init_get_wch(SCREEN *screen)
 1.1  blymn {
 1.1  blymn 	wstate = INKEY_NORM;
1.12    roy 	memset(&screen->cbuf, 0, sizeof(screen->cbuf));
 1.1  blymn 	screen->cbuf_head = screen->cbuf_tail = screen->cbuf_cur = 0;
 1.6    jdc }
 1.1  blymn
 1.1  blymn
 1.1  blymn /*
 1.1  blymn  * inkey - do the work to process keyboard input, check for multi-key
 1.1  blymn  * sequences and return the appropriate symbol if we get a match.
 1.1  blymn  *
 1.1  blymn  */
 1.6    jdc static int
 1.1  blymn inkey(wchar_t *wc, int to, int delay)
 1.1  blymn {
 1.1  blymn 	wchar_t		 k = 0;
1.12    roy 	int		 c, mapping, ret = 0;
 1.1  blymn 	size_t	  mlen = 0;
 1.1  blymn 	keymap_t	*current = _cursesi_screen->base_keymap;
 1.1  blymn 	FILE		*infd = _cursesi_screen->infd;
 1.1  blymn 	int		 *start = &_cursesi_screen->cbuf_head,
 1.1  blymn 				*working = &_cursesi_screen->cbuf_cur,
 1.1  blymn 				*end = &_cursesi_screen->cbuf_tail;
 1.1  blymn 	char		*inbuf = &_cursesi_screen->cbuf[ 0 ];
 1.1  blymn
 1.5    jdc 	__CTRACE(__CTRACE_INPUT, "inkey (%p, %d, %d)\n", wc, to, delay);
 1.1  blymn 	for (;;) { /* loop until we get a complete key sequence */
 1.1  blymn 		if (wstate == INKEY_NORM) {
 1.1  blymn 			if (delay && __timeout(delay) == ERR)
 1.1  blymn 				return ERR;
1.17    roy 			c = __fgetc_resize(infd);
1.17    roy 			if (c == ERR || c == KEY_RESIZE) {
 1.1  blymn 				clearerr(infd);
1.17    roy 				return c;
 1.1  blymn 			}
 1.1  blymn
 1.1  blymn 			if (delay && (__notimeout() == ERR))
 1.1  blymn 				return ERR;
 1.1  blymn
1.12    roy 			k = (wchar_t)c;
 1.2  blymn 			__CTRACE(__CTRACE_INPUT,
 1.2  blymn 			    "inkey (wstate normal) got '%s'\n", unctrl(k));
 1.1  blymn
1.12    roy 			inbuf[*end] = k;
1.12    roy 			*end = (*end + 1) % MAX_CBUF_SIZE;
 1.1  blymn 			*working = *start;
 1.1  blymn 			wstate = INKEY_ASSEMBLING; /* go to assembling state */
 1.2  blymn 			__CTRACE(__CTRACE_INPUT,
 1.2  blymn 			    "inkey: NORM=>ASSEMBLING: start(%d), "
 1.2  blymn 			    "current(%d), end(%d)\n", *start, *working, *end);
 1.1  blymn 		} else if (wstate == INKEY_BACKOUT) {
 1.1  blymn 			k = inbuf[*working];
1.12    roy 			*working = (*working + 1) % MAX_CBUF_SIZE;
 1.1  blymn 			if (*working == *end) {	/* see if run out of keys */
 1.1  blymn 				/* if so, switch to assembling */
 1.1  blymn 				wstate = INKEY_ASSEMBLING;
 1.2  blymn 				__CTRACE(__CTRACE_INPUT,
 1.2  blymn 				    "inkey: BACKOUT=>ASSEMBLING, start(%d), "
 1.2  blymn 				    "current(%d), end(%d)\n",
 1.2  blymn 				    *start, *working, *end);
 1.1  blymn 			}
 1.1  blymn 		} else if (wstate == INKEY_ASSEMBLING) {
 1.1  blymn 			/* assembling a key sequence */
 1.1  blymn 			if (delay) {
1.14    roy 				if (__timeout(to ? (ESCDELAY / 100) : delay)
 1.1  blymn 						== ERR)
 1.1  blymn 					return ERR;
 1.1  blymn 			} else {
1.14    roy 				if (to && (__timeout(ESCDELAY / 100) == ERR))
 1.1  blymn 					return ERR;
 1.1  blymn 			}
 1.1  blymn
1.17    roy 			c = __fgetc_resize(infd);
 1.1  blymn 			if (ferror(infd)) {
 1.1  blymn 				clearerr(infd);
1.17    roy 				return c;
 1.1  blymn 			}
 1.1  blymn
 1.1  blymn 			if ((to || delay) && (__notimeout() == ERR))
 1.1  blymn 				return ERR;
 1.1  blymn
1.12    roy 			k = (wchar_t)c;
 1.2  blymn 			__CTRACE(__CTRACE_INPUT,
 1.2  blymn 			    "inkey (wstate assembling) got '%s'\n", unctrl(k));
 1.1  blymn 			if (feof(infd)) { /* inter-char T/O, start backout */
 1.1  blymn 				clearerr(infd);
 1.1  blymn 				if (*start == *end)
 1.1  blymn 					/* no chars in the buffer, restart */
 1.1  blymn 					continue;
 1.1  blymn
 1.1  blymn 				k = inbuf[*start];
 1.1  blymn 				wstate = INKEY_TIMEOUT;
 1.2  blymn 				__CTRACE(__CTRACE_INPUT,
 1.2  blymn 				    "inkey: ASSEMBLING=>TIMEOUT, start(%d), "
 1.2  blymn 				    "current(%d), end(%d)\n",
 1.2  blymn 				    *start, *working, *end);
 1.1  blymn 			} else {
1.12    roy 				inbuf[*end] = k;
 1.1  blymn 				*working = *end;
1.12    roy 				*end = (*end + 1) % MAX_CBUF_SIZE;
 1.2  blymn 				__CTRACE(__CTRACE_INPUT,
 1.2  blymn 				    "inkey: ASSEMBLING: start(%d), "
 1.2  blymn 				    "current(%d), end(%d)",
 1.2  blymn 				    *start, *working, *end);
 1.1  blymn 			}
 1.1  blymn 		} else if (wstate == INKEY_WCASSEMBLING) {
 1.9    wiz 			/* assembling a wide-char sequence */
 1.1  blymn 			if (delay) {
1.14    roy 				if (__timeout(to ? (ESCDELAY / 100) : delay)
 1.1  blymn 						== ERR)
 1.1  blymn 					return ERR;
 1.1  blymn 			} else {
1.14    roy 				if (to && (__timeout(ESCDELAY / 100) == ERR))
 1.1  blymn 					return ERR;
 1.1  blymn 			}
 1.1  blymn
1.17    roy 			c = __fgetc_resize(infd);
 1.1  blymn 			if (ferror(infd)) {
 1.1  blymn 				clearerr(infd);
1.17    roy 				return c;
 1.1  blymn 			}
 1.1  blymn
 1.1  blymn 			if ((to || delay) && (__notimeout() == ERR))
 1.1  blymn 				return ERR;
 1.1  blymn
1.12    roy 			k = (wchar_t)c;
 1.2  blymn 			__CTRACE(__CTRACE_INPUT,
 1.2  blymn 			    "inkey (wstate wcassembling) got '%s'\n",
1.26    rin 			    unctrl(k));
 1.1  blymn 			if (feof(infd)) { /* inter-char T/O, start backout */
 1.1  blymn 				clearerr(infd);
 1.1  blymn 				if (*start == *end)
 1.1  blymn 					/* no chars in the buffer, restart */
 1.1  blymn 					continue;
 1.1  blymn
 1.1  blymn 				*wc = inbuf[*start];
1.12    roy 				*working = *start = (*start +1) % MAX_CBUF_SIZE;
 1.1  blymn 				if (*start == *end) {
1.21    rin 					_cursesi_state = wstate = INKEY_NORM;
 1.2  blymn 					__CTRACE(__CTRACE_INPUT,
 1.2  blymn 					    "inkey: WCASSEMBLING=>NORM, "
 1.2  blymn 					    "start(%d), current(%d), end(%d)",
 1.2  blymn 					    *start, *working, *end);
 1.1  blymn 				} else {
1.21    rin 					_cursesi_state = wstate = INKEY_BACKOUT;
 1.2  blymn 					__CTRACE(__CTRACE_INPUT,
 1.2  blymn 					    "inkey: WCASSEMBLING=>BACKOUT, "
 1.2  blymn 					    "start(%d), current(%d), end(%d)",
 1.2  blymn 					    *start, *working, *end);
 1.1  blymn 				}
 1.1  blymn 				return OK;
 1.1  blymn 			} else {
 1.1  blymn 				/* assembling wide characters */
1.12    roy 				inbuf[*end] = k;
 1.1  blymn 				*working = *end;
1.12    roy 				*end = (*end + 1) % MAX_CBUF_SIZE;
 1.2  blymn 				__CTRACE(__CTRACE_INPUT,
 1.2  blymn 				    "inkey: WCASSEMBLING[head(%d), "
 1.2  blymn 				    "urrent(%d), tail(%d)]\n",
 1.2  blymn 				    *start, *working, *end);
1.12    roy 				ret = (int)mbrtowc(wc, inbuf + (*working), 1,
1.12    roy 						   &_cursesi_screen->sp);
 1.2  blymn 				__CTRACE(__CTRACE_INPUT,
 1.2  blymn 				    "inkey: mbrtowc returns %d, wc(%x)\n",
1.12    roy 				    ret, *wc);
1.12    roy 				if (ret == -2) {
1.12    roy 					*working = (*working+1) % MAX_CBUF_SIZE;
 1.1  blymn 					continue;
 1.1  blymn 				}
 1.1  blymn 				if ( ret == 0 )
 1.1  blymn 					ret = 1;
 1.1  blymn 				if ( ret == -1 ) {
 1.1  blymn 					/* return the 1st character we know */
1.12    roy 					*wc = inbuf[*start];
1.26    rin 					*working = *start =
1.26    rin 					    (*start + 1) % MAX_CBUF_SIZE;
 1.2  blymn 					__CTRACE(__CTRACE_INPUT,
 1.2  blymn 					    "inkey: Invalid wide char(%x) "
 1.2  blymn 					    "[head(%d), current(%d), "
 1.2  blymn 					    "tail(%d)]\n",
 1.2  blymn 					    *wc, *start, *working, *end);
 1.1  blymn 				} else { /* > 0 */
 1.1  blymn 					/* return the wide character */
1.26    rin 					*start = *working =
1.26    rin 					    (*working + ret) % MAX_CBUF_SIZE;
 1.2  blymn 					__CTRACE(__CTRACE_INPUT,
 1.2  blymn 					    "inkey: Wide char found(%x) "
 1.2  blymn 					    "[head(%d), current(%d), "
 1.2  blymn 					    "tail(%d)]\n",
 1.2  blymn 					    *wc, *start, *working, *end);
 1.1  blymn 				}
 1.1  blymn
1.12    roy 				if (*start == *end) {
1.12    roy 					/* only one char processed */
1.21    rin 					_cursesi_state = wstate = INKEY_NORM;
 1.2  blymn 					__CTRACE(__CTRACE_INPUT,
 1.2  blymn 					    "inkey: WCASSEMBLING=>NORM, "
 1.2  blymn 					    "start(%d), current(%d), end(%d)",
 1.2  blymn 					    *start, *working, *end);
 1.1  blymn 				} else {
1.12    roy 					/* otherwise we must have more than
1.12    roy 					 * one char to backout */
1.21    rin 					_cursesi_state = wstate = INKEY_BACKOUT;
 1.2  blymn 					__CTRACE(__CTRACE_INPUT,
 1.2  blymn 					    "inkey: WCASSEMBLING=>BACKOUT, "
 1.2  blymn 					    "start(%d), current(%d), end(%d)",
 1.2  blymn 					    *start, *working, *end);
 1.1  blymn 				}
 1.1  blymn 				return OK;
 1.1  blymn 			}
 1.1  blymn 		} else {
 1.1  blymn 			fprintf(stderr, "Inkey wstate screwed - exiting!!!");
 1.1  blymn 			exit(2);
 1.1  blymn 		}
 1.1  blymn
 1.1  blymn 		/*
 1.1  blymn 		 * Check key has no special meaning and we have not
 1.1  blymn 		 * timed out and the key has not been disabled
 1.1  blymn 		 */
 1.1  blymn 		mapping = current->mapping[k];
 1.1  blymn 		if (((wstate == INKEY_TIMEOUT) || (mapping < 0))
 1.1  blymn 				|| ((current->key[mapping]->type
 1.1  blymn 					== KEYMAP_LEAF)
1.12    roy 				&& (current->key[mapping]->enable == FALSE)))
1.12    roy 		{
 1.9    wiz 			/* wide-character specific code */
 1.2  blymn 			__CTRACE(__CTRACE_INPUT,
 1.2  blymn 			    "inkey: Checking for wide char\n");
1.26    rin 			mbrtowc(NULL, NULL, 1, &_cursesi_screen->sp);
 1.1  blymn 			*working = *start;
 1.1  blymn 			mlen = *end > *working ?
 1.1  blymn 				*end - *working : MAX_CBUF_SIZE - *working;
1.12    roy 			if (!mlen)
 1.1  blymn 				return ERR;
 1.2  blymn 			__CTRACE(__CTRACE_INPUT,
 1.2  blymn 			    "inkey: Check wide char[head(%d), "
1.26    rin 			    "current(%d), tail(%d), mlen(%zu)]\n",
1.26    rin 			    *start, *working, *end, mlen);
1.12    roy 			ret = (int)mbrtowc(wc, inbuf + (*working), mlen,
1.12    roy 			                   &_cursesi_screen->sp);
 1.2  blymn 			__CTRACE(__CTRACE_INPUT,
 1.2  blymn 			    "inkey: mbrtowc returns %d, wc(%x)\n", ret, *wc);
1.12    roy 			if (ret == -2 && *end < *working) {
 1.1  blymn 				/* second half of a wide character */
 1.1  blymn 				*working = 0;
 1.1  blymn 				mlen = *end;
1.12    roy 				if (mlen)
1.12    roy 					ret = (int)mbrtowc(wc, inbuf, mlen,
1.12    roy 							  &_cursesi_screen->sp);
 1.1  blymn 			}
1.12    roy 			if (ret == -2 && wstate != INKEY_TIMEOUT) {
1.26    rin 				*working =
1.26    rin 				    (*working + (int) mlen) % MAX_CBUF_SIZE;
 1.1  blymn 				wstate = INKEY_WCASSEMBLING;
 1.1  blymn 				continue;
 1.1  blymn 			}
1.12    roy 			if (ret == 0)
 1.1  blymn 				ret = 1;
1.12    roy 			if (ret == -1) {
 1.1  blymn 				/* return the first key we know about */
1.12    roy 				*wc = inbuf[*start];
1.26    rin 				*working = *start =
1.26    rin 				    (*start + 1) % MAX_CBUF_SIZE;
 1.2  blymn 				__CTRACE(__CTRACE_INPUT,
 1.2  blymn 				    "inkey: Invalid wide char(%x)[head(%d), "
 1.2  blymn 				    "current(%d), tail(%d)]\n",
 1.2  blymn 				    *wc, *start, *working, *end);
 1.1  blymn 			} else { /* > 0 */
 1.1  blymn 				/* return the wide character */
1.26    rin 				*start = *working =
1.26    rin 				    (*working + ret) % MAX_CBUF_SIZE;
 1.2  blymn 				__CTRACE(__CTRACE_INPUT,
 1.2  blymn 				    "inkey: Wide char found(%x)[head(%d), "
 1.2  blymn 				    "current(%d), tail(%d)]\n",
 1.2  blymn 				    *wc, *start, *working, *end);
 1.1  blymn 			}
 1.1  blymn
 1.1  blymn 			if (*start == *end) {	/* only one char processed */
1.21    rin 				_cursesi_state = wstate = INKEY_NORM;
 1.2  blymn 				__CTRACE(__CTRACE_INPUT,
 1.2  blymn 				    "inkey: Empty cbuf=>NORM, "
 1.2  blymn 				    "start(%d), current(%d), end(%d)\n",
 1.2  blymn 				    *start, *working, *end);
 1.1  blymn 			} else {
1.12    roy 				/* otherwise we must have more than one
1.12    roy 				 * char to backout */
1.21    rin 				_cursesi_state = wstate = INKEY_BACKOUT;
 1.2  blymn 				__CTRACE(__CTRACE_INPUT,
 1.2  blymn 				    "inkey: Non-empty cbuf=>BACKOUT, "
 1.2  blymn 				    "start(%d), current(%d), end(%d)\n",
 1.2  blymn 				    *start, *working, *end);
 1.1  blymn 			}
 1.1  blymn 			return OK;
 1.1  blymn 		} else {	/* must be part of a multikey sequence */
 1.1  blymn 					/* check for completed key sequence */
 1.1  blymn 			if (current->key[current->mapping[k]]->type
 1.1  blymn 					== KEYMAP_LEAF) {
 1.1  blymn 				/* eat the key sequence in cbuf */
1.26    rin 				*start = *working =
1.26    rin 				    (*working + 1) % MAX_CBUF_SIZE;
 1.1  blymn
 1.1  blymn 				/* check if inbuf empty now */
 1.2  blymn 				__CTRACE(__CTRACE_INPUT,
 1.2  blymn 				    "inkey: Key found(%s)\n",
 1.2  blymn 				    key_name(current->key[mapping]->value.symbol));
 1.1  blymn 				if (*start == *end) {
 1.1  blymn 					/* if it is go back to normal */
1.21    rin 					_cursesi_state = wstate = INKEY_NORM;
 1.2  blymn 					__CTRACE(__CTRACE_INPUT,
 1.2  blymn 					    "[inkey]=>NORM, start(%d), "
 1.2  blymn 					    "current(%d), end(%d)",
 1.2  blymn 					    *start, *working, *end);
 1.1  blymn 				} else {
 1.1  blymn 					/* otherwise go to backout state */
1.21    rin 					_cursesi_state = wstate = INKEY_BACKOUT;
 1.2  blymn 					__CTRACE(__CTRACE_INPUT,
 1.2  blymn 					    "[inkey]=>BACKOUT, start(%d), "
 1.2  blymn 					    "current(%d), end(%d)",
1.26    rin 					    *start, *working, *end);
 1.1  blymn 				}
 1.1  blymn
 1.1  blymn 				/* return the symbol */
 1.1  blymn 				*wc = current->key[mapping]->value.symbol;
 1.1  blymn 				return KEY_CODE_YES;
 1.1  blymn 			} else {
 1.1  blymn 				/* Step to next part of multi-key sequence */
 1.1  blymn 				current = current->key[current->mapping[k]]->value.next;
 1.1  blymn 			}
 1.1  blymn 		}
 1.1  blymn 	}
 1.6    jdc }
 1.1  blymn
 1.1  blymn /*
 1.1  blymn  * get_wch --
 1.1  blymn  *	Read in a wide character from stdscr.
 1.1  blymn  */
 1.1  blymn int
 1.1  blymn get_wch(wint_t *ch)
 1.1  blymn {
 1.1  blymn 	return wget_wch(stdscr, ch);
 1.1  blymn }
 1.1  blymn
 1.1  blymn /*
 1.1  blymn  * mvget_wch --
 1.1  blymn  *	  Read in a character from stdscr at the given location.
 1.1  blymn  */
 1.1  blymn int
 1.1  blymn mvget_wch(int y, int x, wint_t *ch)
 1.1  blymn {
 1.1  blymn 	return mvwget_wch(stdscr, y, x, ch);
 1.1  blymn }
 1.1  blymn
 1.1  blymn /*
 1.1  blymn  * mvwget_wch --
 1.1  blymn  *	  Read in a character from stdscr at the given location in the
 1.1  blymn  *	  given window.
 1.1  blymn  */
 1.1  blymn int
 1.1  blymn mvwget_wch(WINDOW *win, int y, int x, wint_t *ch)
 1.1  blymn {
1.23  blymn 	if (wmove(win, y, x) == ERR)
 1.1  blymn 		return ERR;
 1.1  blymn
 1.1  blymn 	return wget_wch(win, ch);
 1.1  blymn }
 1.1  blymn
 1.1  blymn /*
 1.1  blymn  * wget_wch --
 1.1  blymn  *	Read in a wide character from the window.
 1.1  blymn  */
 1.1  blymn int
 1.1  blymn wget_wch(WINDOW *win, wint_t *ch)
 1.1  blymn {
 1.1  blymn 	int ret, weset;
 1.1  blymn 	int c;
 1.1  blymn 	FILE *infd = _cursesi_screen->infd;
 1.1  blymn 	cchar_t wc;
1.12    roy 	wchar_t inp, ws[2];
 1.1  blymn
1.12    roy 	if (!(win->flags & __SCROLLOK)
1.12    roy 	    && (win->flags & __FULLWIN)
1.12    roy 	    && win->curx == win->maxx - 1
1.12    roy 	    && win->cury == win->maxy - 1
1.12    roy 	    && __echoit)
1.12    roy 		return ERR;
 1.1  blymn
1.24    uwe 	if (!(win->flags & __ISPAD) && is_wintouched(win))
 1.1  blymn 		wrefresh(win);
 1.2  blymn 	__CTRACE(__CTRACE_INPUT, "wget_wch: __echoit = %d, "
 1.2  blymn 	    "__rawmode = %d, __nl = %d, flags = %#.4x\n",
 1.2  blymn 	    __echoit, __rawmode, _cursesi_screen->nl, win->flags);
 1.5    jdc 	if (_cursesi_screen->resized) {
1.19    roy 		resizeterm(LINES, COLS);
 1.5    jdc 		_cursesi_screen->resized = 0;
 1.5    jdc 		*ch = KEY_RESIZE;
 1.5    jdc 		return KEY_CODE_YES;
 1.5    jdc 	}
 1.5    jdc 	if (_cursesi_screen->unget_pos) {
 1.5    jdc 		__CTRACE(__CTRACE_INPUT, "wget_wch returning char at %d\n",
 1.5    jdc 		    _cursesi_screen->unget_pos);
 1.5    jdc 		_cursesi_screen->unget_pos--;
 1.5    jdc 		*ch = _cursesi_screen->unget_list[_cursesi_screen->unget_pos];
 1.5    jdc 		if (__echoit) {
 1.5    jdc 			ws[0] = *ch, ws[1] = L'\0';
 1.5    jdc 			setcchar(&wc, ws, win->wattr, 0, NULL);
 1.5    jdc 			wadd_wch(win, &wc);
 1.5    jdc 		}
 1.5    jdc 		return KEY_CODE_YES;
 1.5    jdc 	}
 1.1  blymn 	if (__echoit && !__rawmode) {
 1.1  blymn 		cbreak();
 1.1  blymn 		weset = 1;
 1.1  blymn 	} else
 1.1  blymn 		weset = 0;
 1.1  blymn
 1.1  blymn 	__save_termios();
 1.1  blymn
 1.1  blymn 	if (win->flags & __KEYPAD) {
 1.1  blymn 		switch (win->delay) {
 1.1  blymn 			case -1:
 1.1  blymn 				ret = inkey(&inp,
 1.1  blymn 					win->flags & __NOTIMEOUT ? 0 : 1, 0);
 1.1  blymn 				break;
 1.1  blymn 			case 0:
 1.7    dsl 				if (__nodelay() == ERR)
 1.1  blymn 					return ERR;
 1.1  blymn 				ret = inkey(&inp, 0, 0);
 1.1  blymn 				break;
 1.1  blymn 			default:
 1.1  blymn 				ret = inkey(&inp,
 1.1  blymn 					win->flags & __NOTIMEOUT ? 0 : 1,
 1.1  blymn 					win->delay);
 1.1  blymn 				break;
 1.1  blymn 		}
 1.1  blymn 		if ( ret == ERR )
 1.1  blymn 			return ERR;
 1.1  blymn 	} else {
1.17    roy 		bool resized;
1.17    roy
 1.1  blymn 		switch (win->delay) {
 1.1  blymn 			case -1:
 1.1  blymn 				break;
 1.1  blymn 			case 0:
 1.7    dsl 				if (__nodelay() == ERR)
 1.1  blymn 					return ERR;
 1.1  blymn 				break;
 1.1  blymn 			default:
 1.7    dsl 				if (__timeout(win->delay) == ERR)
 1.1  blymn 					return ERR;
 1.1  blymn 				break;
 1.1  blymn 		}
 1.1  blymn
1.17    roy 		c = __fgetwc_resize(infd, &resized);
1.17    roy 		if (c == WEOF) {
 1.1  blymn 			clearerr(infd);
 1.1  blymn 			__restore_termios();
1.17    roy 			if (resized) {
1.15    rin 				*ch = KEY_RESIZE;
1.15    rin 				return KEY_CODE_YES;
1.15    rin 			} else
1.15    rin 				return ERR;
 1.1  blymn 		} else {
 1.5    jdc 			ret = c;
 1.1  blymn 			inp = c;
 1.1  blymn 		}
 1.1  blymn 	}
 1.1  blymn #ifdef DEBUG
 1.1  blymn 	if (inp > 255)
 1.1  blymn 		/* we have a key symbol - treat it differently */
 1.1  blymn 		/* XXXX perhaps __unctrl should be expanded to include
 1.1  blymn 		 * XXXX the keysyms in the table....
 1.1  blymn 		 */
 1.2  blymn 		__CTRACE(__CTRACE_INPUT, "wget_wch assembled keysym 0x%x\n",
 1.2  blymn 		    inp);
 1.1  blymn 	else
 1.2  blymn 		__CTRACE(__CTRACE_INPUT, "wget_wch got '%s'\n", unctrl(inp));
 1.1  blymn #endif
 1.1  blymn 	if (win->delay > -1) {
 1.7    dsl 		if (__delay() == ERR)
 1.1  blymn 			return ERR;
 1.1  blymn 	}
 1.1  blymn
 1.1  blymn 	__restore_termios();
 1.1  blymn
 1.1  blymn 	if (__echoit) {
 1.1  blymn 		if ( ret == KEY_CODE_YES ) {
 1.1  blymn 			/* handle [DEL], [BS], and [LEFT] */
 1.1  blymn 			if ( win->curx &&
 1.1  blymn 					( inp == KEY_DC ||
 1.1  blymn 					  inp == KEY_BACKSPACE ||
 1.1  blymn 					  inp == KEY_LEFT )) {
1.23  blymn 				wmove( win, win->cury, win->curx - 1);
 1.1  blymn 				wdelch( win );
 1.1  blymn 			}
 1.1  blymn 		} else {
 1.1  blymn 			ws[ 0 ] = inp, ws[ 1 ] = L'\0';
 1.1  blymn 			setcchar( &wc, ws, win->wattr, 0, NULL );
 1.1  blymn 			wadd_wch( win, &wc );
 1.1  blymn 		}
 1.1  blymn 	}
 1.1  blymn
 1.1  blymn 	if (weset)
 1.1  blymn 		nocbreak();
 1.1  blymn
 1.1  blymn 	if (_cursesi_screen->nl && inp == 13)
 1.1  blymn 		inp = 10;
 1.1  blymn
 1.1  blymn 	*ch = inp;
 1.1  blymn
 1.1  blymn 	if ( ret == KEY_CODE_YES )
 1.1  blymn 		return KEY_CODE_YES;
1.12    roy 	return inp < 0 ? ERR : OK;
 1.1  blymn }
 1.1  blymn
 1.1  blymn /*
 1.1  blymn  * unget_wch --
 1.1  blymn  *	 Put the wide character back into the input queue.
 1.1  blymn  */
 1.1  blymn int
 1.1  blymn unget_wch(const wchar_t c)
 1.1  blymn {
1.12    roy 	return __unget((wint_t)c);
 1.1  blymn }
1.17    roy
1.17    roy /*
1.17    roy  * __fgetwc_resize --
1.17    roy  *    Any call to fgetwc(3) should use this function instead.
1.17    roy  */
1.17    roy static wint_t
1.17    roy __fgetwc_resize(FILE *infd, bool *resized)
1.17    roy {
1.17    roy 	wint_t c;
1.17    roy
1.17    roy 	c = fgetwc(infd);
1.17    roy 	if (c != WEOF)
1.17    roy 		return c;
1.17    roy
1.17    roy 	if (!ferror(infd) || errno != EINTR || !_cursesi_screen->resized)
1.17    roy 		return ERR;
1.17    roy 	__CTRACE(__CTRACE_INPUT, "__fgetwc_resize returning KEY_RESIZE\n");
1.19    roy 	resizeterm(LINES, COLS);
1.17    roy 	_cursesi_screen->resized = 0;
1.17    roy 	*resized = true;
1.17    roy 	return c;
1.17    roy }