get_wch.c revision 1.3.4.1
1 1.3.4.1 matt /* $NetBSD: get_wch.c,v 1.3.4.1 2008/01/09 01:36:23 matt Exp $ */ 2 1.1 blymn 3 1.1 blymn /* 4 1.1 blymn * Copyright (c) 2005 The NetBSD Foundation Inc. 5 1.1 blymn * All rights reserved. 6 1.1 blymn * 7 1.1 blymn * This code is derived from code donated to the NetBSD Foundation 8 1.1 blymn * by Ruibiao Qiu <ruibiao (at) arl.wustl.edu,ruibiao (at) gmail.com>. 9 1.1 blymn * 10 1.1 blymn * 11 1.1 blymn * Redistribution and use in source and binary forms, with or without 12 1.1 blymn * modification, are permitted provided that the following conditions 13 1.1 blymn * are met: 14 1.1 blymn * 1. Redistributions of source code must retain the above copyright 15 1.1 blymn * notice, this list of conditions and the following disclaimer. 16 1.1 blymn * 2. Redistributions in binary form must reproduce the above copyright 17 1.1 blymn * notice, this list of conditions and the following disclaimer in the 18 1.1 blymn * documentation and/or other materials provided with the distribution. 19 1.1 blymn * 3. Neither the name of the NetBSD Foundation nor the names of its 20 1.1 blymn * contributors may be used to endorse or promote products derived 21 1.1 blymn * from this software without specific prior written permission. 22 1.1 blymn * 23 1.1 blymn * THIS SOFTWARE IS PROVIDED BY THE NETBSD FOUNDATION, INC. AND 24 1.1 blymn * CONTRIBUTORS ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, 25 1.1 blymn * INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF 26 1.1 blymn * MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE 27 1.1 blymn * ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE 28 1.1 blymn * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL 29 1.1 blymn * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS 30 1.1 blymn * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) 31 1.1 blymn * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT 32 1.1 blymn * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY 33 1.1 blymn * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF 34 1.1 blymn * SUCH DAMAGE. 35 1.1 blymn */ 36 1.1 blymn 37 1.1 blymn #include <sys/cdefs.h> 38 1.1 blymn #ifndef lint 39 1.3.4.1 matt __RCSID("$NetBSD: get_wch.c,v 1.3.4.1 2008/01/09 01:36:23 matt Exp $"); 40 1.1 blymn #endif /* not lint */ 41 1.1 blymn 42 1.1 blymn #include <string.h> 43 1.1 blymn #include <stdlib.h> 44 1.1 blymn #include <unistd.h> 45 1.1 blymn #include <stdio.h> 46 1.1 blymn #include "curses.h" 47 1.1 blymn #include "curses_private.h" 48 1.1 blymn #include "keymap.h" 49 1.1 blymn 50 1.1 blymn static short wstate; /* state of the wcinkey function */ 51 1.2 blymn extern short state; /* storage declared in getch.c */ 52 1.1 blymn 53 1.1 blymn /* prototypes for private functions */ 54 1.1 blymn static int inkey(wchar_t *wc, int to, int delay); 55 1.1 blymn 56 1.1 blymn /* 57 1.1 blymn * __init_get_wch - initialise all the pointers & structures needed to make 58 1.1 blymn * get_wch work in keypad mode. 59 1.1 blymn * 60 1.1 blymn */ 61 1.1 blymn void 62 1.1 blymn __init_get_wch(SCREEN *screen) 63 1.1 blymn { 64 1.1 blymn #ifndef HAVE_WCHAR 65 1.1 blymn return; 66 1.1 blymn #else 67 1.1 blymn wstate = INKEY_NORM; 68 1.1 blymn memset( &screen->cbuf, 0, MAX_CBUF_SIZE * sizeof( int )); 69 1.1 blymn screen->cbuf_head = screen->cbuf_tail = screen->cbuf_cur = 0; 70 1.1 blymn #endif /* HAVE_WCHAR */ 71 1.1 blymn } 72 1.1 blymn 73 1.1 blymn 74 1.1 blymn /* 75 1.1 blymn * inkey - do the work to process keyboard input, check for multi-key 76 1.1 blymn * sequences and return the appropriate symbol if we get a match. 77 1.1 blymn * 78 1.1 blymn */ 79 1.1 blymn 80 1.1 blymn int 81 1.1 blymn inkey(wchar_t *wc, int to, int delay) 82 1.1 blymn { 83 1.1 blymn #ifndef HAVE_WCHAR 84 1.1 blymn return ERR; 85 1.1 blymn #else 86 1.1 blymn wchar_t k = 0; 87 1.1 blymn int c, mapping, ret = 0; 88 1.1 blymn size_t mlen = 0; 89 1.1 blymn keymap_t *current = _cursesi_screen->base_keymap; 90 1.1 blymn FILE *infd = _cursesi_screen->infd; 91 1.1 blymn int *start = &_cursesi_screen->cbuf_head, 92 1.1 blymn *working = &_cursesi_screen->cbuf_cur, 93 1.1 blymn *end = &_cursesi_screen->cbuf_tail; 94 1.1 blymn char *inbuf = &_cursesi_screen->cbuf[ 0 ]; 95 1.1 blymn 96 1.3.4.1 matt #ifdef DEBUG 97 1.3.4.1 matt __CTRACE(__CTRACE_INPUT, "inkey (%p, %d, %d)\n", wc, to, delay); 98 1.3.4.1 matt #endif 99 1.1 blymn for (;;) { /* loop until we get a complete key sequence */ 100 1.1 blymn if (wstate == INKEY_NORM) { 101 1.1 blymn if (delay && __timeout(delay) == ERR) 102 1.1 blymn return ERR; 103 1.1 blymn c = getchar(); 104 1.1 blymn if (c == WEOF) { 105 1.1 blymn clearerr(infd); 106 1.1 blymn return ERR; 107 1.1 blymn } 108 1.1 blymn 109 1.1 blymn if (delay && (__notimeout() == ERR)) 110 1.1 blymn return ERR; 111 1.1 blymn 112 1.1 blymn k = (wchar_t) c; 113 1.1 blymn #ifdef DEBUG 114 1.2 blymn __CTRACE(__CTRACE_INPUT, 115 1.2 blymn "inkey (wstate normal) got '%s'\n", unctrl(k)); 116 1.1 blymn #endif 117 1.1 blymn 118 1.1 blymn inbuf[ *end ] = k; 119 1.1 blymn *end = ( *end + 1 ) % MAX_CBUF_SIZE; 120 1.1 blymn *working = *start; 121 1.1 blymn wstate = INKEY_ASSEMBLING; /* go to assembling state */ 122 1.1 blymn #ifdef DEBUG 123 1.2 blymn __CTRACE(__CTRACE_INPUT, 124 1.2 blymn "inkey: NORM=>ASSEMBLING: start(%d), " 125 1.2 blymn "current(%d), end(%d)\n", *start, *working, *end); 126 1.1 blymn #endif /* DEBUG */ 127 1.1 blymn } else if (wstate == INKEY_BACKOUT) { 128 1.1 blymn k = inbuf[*working]; 129 1.1 blymn *working = ( *working + 1 ) % MAX_CBUF_SIZE; 130 1.1 blymn if (*working == *end) { /* see if run out of keys */ 131 1.1 blymn /* if so, switch to assembling */ 132 1.1 blymn wstate = INKEY_ASSEMBLING; 133 1.1 blymn #ifdef DEBUG 134 1.2 blymn __CTRACE(__CTRACE_INPUT, 135 1.2 blymn "inkey: BACKOUT=>ASSEMBLING, start(%d), " 136 1.2 blymn "current(%d), end(%d)\n", 137 1.2 blymn *start, *working, *end); 138 1.1 blymn #endif /* DEBUG */ 139 1.1 blymn } 140 1.1 blymn } else if (wstate == INKEY_ASSEMBLING) { 141 1.1 blymn /* assembling a key sequence */ 142 1.1 blymn if (delay) { 143 1.1 blymn if (__timeout(to ? (ESCDELAY / 100) : delay) 144 1.1 blymn == ERR) 145 1.1 blymn return ERR; 146 1.1 blymn } else { 147 1.1 blymn if (to && (__timeout(ESCDELAY / 100) == ERR)) 148 1.1 blymn return ERR; 149 1.1 blymn } 150 1.1 blymn 151 1.1 blymn c = getchar(); 152 1.1 blymn if (ferror(infd)) { 153 1.1 blymn clearerr(infd); 154 1.1 blymn return ERR; 155 1.1 blymn } 156 1.1 blymn 157 1.1 blymn if ((to || delay) && (__notimeout() == ERR)) 158 1.1 blymn return ERR; 159 1.1 blymn 160 1.1 blymn k = (wchar_t) c; 161 1.1 blymn #ifdef DEBUG 162 1.2 blymn __CTRACE(__CTRACE_INPUT, 163 1.2 blymn "inkey (wstate assembling) got '%s'\n", unctrl(k)); 164 1.1 blymn #endif /* DEBUG */ 165 1.1 blymn if (feof(infd)) { /* inter-char T/O, start backout */ 166 1.1 blymn clearerr(infd); 167 1.1 blymn if (*start == *end) 168 1.1 blymn /* no chars in the buffer, restart */ 169 1.1 blymn continue; 170 1.1 blymn 171 1.1 blymn k = inbuf[*start]; 172 1.1 blymn wstate = INKEY_TIMEOUT; 173 1.1 blymn #ifdef DEBUG 174 1.2 blymn __CTRACE(__CTRACE_INPUT, 175 1.2 blymn "inkey: ASSEMBLING=>TIMEOUT, start(%d), " 176 1.2 blymn "current(%d), end(%d)\n", 177 1.2 blymn *start, *working, *end); 178 1.1 blymn #endif /* DEBUG */ 179 1.1 blymn } else { 180 1.1 blymn inbuf[ *end ] = k; 181 1.1 blymn *working = *end; 182 1.1 blymn *end = ( *end + 1 ) % MAX_CBUF_SIZE; 183 1.1 blymn #ifdef DEBUG 184 1.2 blymn __CTRACE(__CTRACE_INPUT, 185 1.2 blymn "inkey: ASSEMBLING: start(%d), " 186 1.2 blymn "current(%d), end(%d)", 187 1.2 blymn *start, *working, *end); 188 1.1 blymn #endif /* DEBUG */ 189 1.1 blymn } 190 1.1 blymn } else if (wstate == INKEY_WCASSEMBLING) { 191 1.1 blymn /* assembling a wide char sequence */ 192 1.1 blymn if (delay) { 193 1.1 blymn if (__timeout(to ? (ESCDELAY / 100) : delay) 194 1.1 blymn == ERR) 195 1.1 blymn return ERR; 196 1.1 blymn } else { 197 1.1 blymn if (to && (__timeout(ESCDELAY / 100) == ERR)) 198 1.1 blymn return ERR; 199 1.1 blymn } 200 1.1 blymn 201 1.1 blymn c = getchar(); 202 1.1 blymn if (ferror(infd)) { 203 1.1 blymn clearerr(infd); 204 1.1 blymn return ERR; 205 1.1 blymn } 206 1.1 blymn 207 1.1 blymn if ((to || delay) && (__notimeout() == ERR)) 208 1.1 blymn return ERR; 209 1.1 blymn 210 1.1 blymn k = (wchar_t) c; 211 1.1 blymn #ifdef DEBUG 212 1.2 blymn __CTRACE(__CTRACE_INPUT, 213 1.2 blymn "inkey (wstate wcassembling) got '%s'\n", 214 1.1 blymn unctrl(k)); 215 1.1 blymn #endif 216 1.1 blymn if (feof(infd)) { /* inter-char T/O, start backout */ 217 1.1 blymn clearerr(infd); 218 1.1 blymn if (*start == *end) 219 1.1 blymn /* no chars in the buffer, restart */ 220 1.1 blymn continue; 221 1.1 blymn 222 1.1 blymn *wc = inbuf[*start]; 223 1.1 blymn *working = *start 224 1.1 blymn = ( *start + 1 ) % MAX_CBUF_SIZE; 225 1.1 blymn if (*start == *end) { 226 1.1 blymn state = wstate = INKEY_NORM; 227 1.1 blymn #ifdef DEBUG 228 1.2 blymn __CTRACE(__CTRACE_INPUT, 229 1.2 blymn "inkey: WCASSEMBLING=>NORM, " 230 1.2 blymn "start(%d), current(%d), end(%d)", 231 1.2 blymn *start, *working, *end); 232 1.1 blymn #endif /* DEBUG */ 233 1.1 blymn } else { 234 1.1 blymn state = wstate = INKEY_BACKOUT; 235 1.1 blymn #ifdef DEBUG 236 1.2 blymn __CTRACE(__CTRACE_INPUT, 237 1.2 blymn "inkey: WCASSEMBLING=>BACKOUT, " 238 1.2 blymn "start(%d), current(%d), end(%d)", 239 1.2 blymn *start, *working, *end); 240 1.1 blymn #endif /* DEBUG */ 241 1.1 blymn } 242 1.1 blymn return OK; 243 1.1 blymn } else { 244 1.1 blymn /* assembling wide characters */ 245 1.1 blymn inbuf[ *end ] = k; 246 1.1 blymn *working = *end; 247 1.1 blymn *end = ( *end + 1 ) % MAX_CBUF_SIZE; 248 1.1 blymn #ifdef DEBUG 249 1.2 blymn __CTRACE(__CTRACE_INPUT, 250 1.2 blymn "inkey: WCASSEMBLING[head(%d), " 251 1.2 blymn "urrent(%d), tail(%d)]\n", 252 1.2 blymn *start, *working, *end); 253 1.1 blymn #endif /* DEBUG */ 254 1.3 blymn ret = (int) mbrtowc( wc, inbuf + (*working), 1, 255 1.1 blymn &_cursesi_screen->sp ); 256 1.1 blymn #ifdef DEBUG 257 1.2 blymn __CTRACE(__CTRACE_INPUT, 258 1.2 blymn "inkey: mbrtowc returns %d, wc(%x)\n", 259 1.2 blymn ret, *wc ); 260 1.1 blymn #endif /* DEBUG */ 261 1.1 blymn if ( ret == -2 ) { 262 1.1 blymn *working = (*working + 1) 263 1.1 blymn % MAX_CBUF_SIZE; 264 1.1 blymn continue; 265 1.1 blymn } 266 1.1 blymn if ( ret == 0 ) 267 1.1 blymn ret = 1; 268 1.1 blymn if ( ret == -1 ) { 269 1.1 blymn /* return the 1st character we know */ 270 1.1 blymn *wc = inbuf[ *start ]; 271 1.1 blymn *working = *start = ( *start + 1 ) % MAX_CBUF_SIZE; 272 1.1 blymn #ifdef DEBUG 273 1.2 blymn __CTRACE(__CTRACE_INPUT, 274 1.2 blymn "inkey: Invalid wide char(%x) " 275 1.2 blymn "[head(%d), current(%d), " 276 1.2 blymn "tail(%d)]\n", 277 1.2 blymn *wc, *start, *working, *end); 278 1.1 blymn #endif /* DEBUG */ 279 1.1 blymn } else { /* > 0 */ 280 1.1 blymn /* return the wide character */ 281 1.1 blymn *start = *working 282 1.1 blymn = (*working + ret)%MAX_CBUF_SIZE; 283 1.1 blymn #ifdef DEBUG 284 1.2 blymn __CTRACE(__CTRACE_INPUT, 285 1.2 blymn "inkey: Wide char found(%x) " 286 1.2 blymn "[head(%d), current(%d), " 287 1.2 blymn "tail(%d)]\n", 288 1.2 blymn *wc, *start, *working, *end); 289 1.1 blymn #endif /* DEBUG */ 290 1.1 blymn } 291 1.1 blymn 292 1.1 blymn if (*start == *end) { /* only one char processed */ 293 1.1 blymn state = wstate = INKEY_NORM; 294 1.1 blymn #ifdef DEBUG 295 1.2 blymn __CTRACE(__CTRACE_INPUT, 296 1.2 blymn "inkey: WCASSEMBLING=>NORM, " 297 1.2 blymn "start(%d), current(%d), end(%d)", 298 1.2 blymn *start, *working, *end); 299 1.1 blymn #endif /* DEBUG */ 300 1.1 blymn } else { 301 1.1 blymn /* otherwise we must have more than one char to backout */ 302 1.1 blymn state = wstate = INKEY_BACKOUT; 303 1.1 blymn #ifdef DEBUG 304 1.2 blymn __CTRACE(__CTRACE_INPUT, 305 1.2 blymn "inkey: WCASSEMBLING=>BACKOUT, " 306 1.2 blymn "start(%d), current(%d), end(%d)", 307 1.2 blymn *start, *working, *end); 308 1.1 blymn #endif /* DEBUG */ 309 1.1 blymn } 310 1.1 blymn return OK; 311 1.1 blymn } 312 1.1 blymn } else { 313 1.1 blymn fprintf(stderr, "Inkey wstate screwed - exiting!!!"); 314 1.1 blymn exit(2); 315 1.1 blymn } 316 1.1 blymn 317 1.1 blymn /* 318 1.1 blymn * Check key has no special meaning and we have not 319 1.1 blymn * timed out and the key has not been disabled 320 1.1 blymn */ 321 1.1 blymn mapping = current->mapping[k]; 322 1.1 blymn if (((wstate == INKEY_TIMEOUT) || (mapping < 0)) 323 1.1 blymn || ((current->key[mapping]->type 324 1.1 blymn == KEYMAP_LEAF) 325 1.1 blymn && (current->key[mapping]->enable == FALSE))) { 326 1.1 blymn /* wide character specific code */ 327 1.1 blymn #ifdef DEBUG 328 1.2 blymn __CTRACE(__CTRACE_INPUT, 329 1.2 blymn "inkey: Checking for wide char\n"); 330 1.1 blymn #endif /* DEBUG */ 331 1.1 blymn mbrtowc( NULL, NULL, 1, &_cursesi_screen->sp ); 332 1.1 blymn *working = *start; 333 1.1 blymn mlen = *end > *working ? 334 1.1 blymn *end - *working : MAX_CBUF_SIZE - *working; 335 1.1 blymn if ( !mlen ) 336 1.1 blymn return ERR; 337 1.1 blymn #ifdef DEBUG 338 1.2 blymn __CTRACE(__CTRACE_INPUT, 339 1.2 blymn "inkey: Check wide char[head(%d), " 340 1.2 blymn "current(%d), tail(%d), mlen(%ld)]\n", 341 1.2 blymn *start, *working, *end, (long) mlen); 342 1.1 blymn #endif /* DEBUG */ 343 1.3 blymn ret = (int) mbrtowc( wc, inbuf + (*working), mlen, 344 1.1 blymn &_cursesi_screen->sp ); 345 1.1 blymn #ifdef DEBUG 346 1.2 blymn __CTRACE(__CTRACE_INPUT, 347 1.2 blymn "inkey: mbrtowc returns %d, wc(%x)\n", ret, *wc); 348 1.1 blymn #endif /* DEBUG */ 349 1.1 blymn if ( ret == -2 && *end < *working ) { 350 1.1 blymn /* second half of a wide character */ 351 1.1 blymn *working = 0; 352 1.1 blymn mlen = *end; 353 1.1 blymn if ( mlen ) 354 1.3 blymn ret = (int) mbrtowc( wc, inbuf, mlen, 355 1.1 blymn &_cursesi_screen->sp ); 356 1.1 blymn } 357 1.1 blymn if ( ret == -2 && wstate != INKEY_TIMEOUT ) { 358 1.3 blymn *working = (*working + (int) mlen) 359 1.3 blymn % MAX_CBUF_SIZE; 360 1.1 blymn wstate = INKEY_WCASSEMBLING; 361 1.1 blymn continue; 362 1.1 blymn } 363 1.1 blymn if ( ret == 0 ) 364 1.1 blymn ret = 1; 365 1.1 blymn if ( ret == -1 ) { 366 1.1 blymn /* return the first key we know about */ 367 1.1 blymn *wc = inbuf[ *start ]; 368 1.1 blymn *working = *start 369 1.1 blymn = ( *start + 1 ) % MAX_CBUF_SIZE; 370 1.1 blymn #ifdef DEBUG 371 1.2 blymn __CTRACE(__CTRACE_INPUT, 372 1.2 blymn "inkey: Invalid wide char(%x)[head(%d), " 373 1.2 blymn "current(%d), tail(%d)]\n", 374 1.2 blymn *wc, *start, *working, *end); 375 1.1 blymn #endif /* DEBUG */ 376 1.1 blymn } else { /* > 0 */ 377 1.1 blymn /* return the wide character */ 378 1.1 blymn *start = *working 379 1.1 blymn = ( *working + ret ) % MAX_CBUF_SIZE; 380 1.1 blymn #ifdef DEBUG 381 1.2 blymn __CTRACE(__CTRACE_INPUT, 382 1.2 blymn "inkey: Wide char found(%x)[head(%d), " 383 1.2 blymn "current(%d), tail(%d)]\n", 384 1.2 blymn *wc, *start, *working, *end); 385 1.1 blymn #endif /* DEBUG */ 386 1.1 blymn } 387 1.1 blymn 388 1.1 blymn if (*start == *end) { /* only one char processed */ 389 1.1 blymn state = wstate = INKEY_NORM; 390 1.1 blymn #ifdef DEBUG 391 1.2 blymn __CTRACE(__CTRACE_INPUT, 392 1.2 blymn "inkey: Empty cbuf=>NORM, " 393 1.2 blymn "start(%d), current(%d), end(%d)\n", 394 1.2 blymn *start, *working, *end); 395 1.1 blymn #endif /* DEBUG */ 396 1.1 blymn } else { 397 1.1 blymn /* otherwise we must have more than one char to backout */ 398 1.1 blymn state = wstate = INKEY_BACKOUT; 399 1.1 blymn #ifdef DEBUG 400 1.2 blymn __CTRACE(__CTRACE_INPUT, 401 1.2 blymn "inkey: Non-empty cbuf=>BACKOUT, " 402 1.2 blymn "start(%d), current(%d), end(%d)\n", 403 1.2 blymn *start, *working, *end); 404 1.1 blymn #endif /* DEBUG */ 405 1.1 blymn } 406 1.1 blymn return OK; 407 1.1 blymn } else { /* must be part of a multikey sequence */ 408 1.1 blymn /* check for completed key sequence */ 409 1.1 blymn if (current->key[current->mapping[k]]->type 410 1.1 blymn == KEYMAP_LEAF) { 411 1.1 blymn /* eat the key sequence in cbuf */ 412 1.1 blymn *start = *working = ( *working + 1 ) % MAX_CBUF_SIZE; 413 1.1 blymn 414 1.1 blymn /* check if inbuf empty now */ 415 1.1 blymn #ifdef DEBUG 416 1.2 blymn __CTRACE(__CTRACE_INPUT, 417 1.2 blymn "inkey: Key found(%s)\n", 418 1.2 blymn key_name(current->key[mapping]->value.symbol)); 419 1.1 blymn #endif /* DEBUG */ 420 1.1 blymn if (*start == *end) { 421 1.1 blymn /* if it is go back to normal */ 422 1.1 blymn state = wstate = INKEY_NORM; 423 1.1 blymn #ifdef DEBUG 424 1.2 blymn __CTRACE(__CTRACE_INPUT, 425 1.2 blymn "[inkey]=>NORM, start(%d), " 426 1.2 blymn "current(%d), end(%d)", 427 1.2 blymn *start, *working, *end); 428 1.1 blymn #endif /* DEBUG */ 429 1.1 blymn } else { 430 1.1 blymn /* otherwise go to backout state */ 431 1.1 blymn state = wstate = INKEY_BACKOUT; 432 1.1 blymn #ifdef DEBUG 433 1.2 blymn __CTRACE(__CTRACE_INPUT, 434 1.2 blymn "[inkey]=>BACKOUT, start(%d), " 435 1.2 blymn "current(%d), end(%d)", 436 1.2 blymn *start, *working, *end ); 437 1.1 blymn #endif /* DEBUG */ 438 1.1 blymn } 439 1.1 blymn 440 1.1 blymn /* return the symbol */ 441 1.1 blymn *wc = current->key[mapping]->value.symbol; 442 1.1 blymn return KEY_CODE_YES; 443 1.1 blymn } else { 444 1.1 blymn /* Step to next part of multi-key sequence */ 445 1.1 blymn current = current->key[current->mapping[k]]->value.next; 446 1.1 blymn } 447 1.1 blymn } 448 1.1 blymn } 449 1.1 blymn #endif /* HAVE_WCHAR */ 450 1.1 blymn } 451 1.1 blymn 452 1.1 blymn /* 453 1.1 blymn * get_wch -- 454 1.1 blymn * Read in a wide character from stdscr. 455 1.1 blymn */ 456 1.1 blymn int 457 1.1 blymn get_wch(wint_t *ch) 458 1.1 blymn { 459 1.1 blymn #ifndef HAVE_WCHAR 460 1.1 blymn return ERR; 461 1.1 blymn #else 462 1.1 blymn return wget_wch(stdscr, ch); 463 1.1 blymn #endif /* HAVE_WCHAR */ 464 1.1 blymn } 465 1.1 blymn 466 1.1 blymn /* 467 1.1 blymn * mvget_wch -- 468 1.1 blymn * Read in a character from stdscr at the given location. 469 1.1 blymn */ 470 1.1 blymn int 471 1.1 blymn mvget_wch(int y, int x, wint_t *ch) 472 1.1 blymn { 473 1.1 blymn #ifndef HAVE_WCHAR 474 1.1 blymn return ERR; 475 1.1 blymn #else 476 1.1 blymn return mvwget_wch(stdscr, y, x, ch); 477 1.1 blymn #endif /* HAVE_WCHAR */ 478 1.1 blymn } 479 1.1 blymn 480 1.1 blymn /* 481 1.1 blymn * mvwget_wch -- 482 1.1 blymn * Read in a character from stdscr at the given location in the 483 1.1 blymn * given window. 484 1.1 blymn */ 485 1.1 blymn int 486 1.1 blymn mvwget_wch(WINDOW *win, int y, int x, wint_t *ch) 487 1.1 blymn { 488 1.1 blymn #ifndef HAVE_WCHAR 489 1.1 blymn return ERR; 490 1.1 blymn #else 491 1.1 blymn if (wmove(win, y, x) == ERR) 492 1.1 blymn return ERR; 493 1.1 blymn 494 1.1 blymn return wget_wch(win, ch); 495 1.1 blymn #endif /* HAVE_WCHAR */ 496 1.1 blymn } 497 1.1 blymn 498 1.1 blymn /* 499 1.1 blymn * wget_wch -- 500 1.1 blymn * Read in a wide character from the window. 501 1.1 blymn */ 502 1.1 blymn int 503 1.1 blymn wget_wch(WINDOW *win, wint_t *ch) 504 1.1 blymn { 505 1.1 blymn #ifndef HAVE_WCHAR 506 1.1 blymn return ERR; 507 1.1 blymn #else 508 1.1 blymn int ret, weset; 509 1.1 blymn int c; 510 1.1 blymn FILE *infd = _cursesi_screen->infd; 511 1.1 blymn cchar_t wc; 512 1.1 blymn wchar_t inp, ws[ 2 ]; 513 1.1 blymn 514 1.1 blymn if (!(win->flags & __SCROLLOK) && (win->flags & __FULLWIN) 515 1.1 blymn && win->curx == win->maxx - 1 516 1.1 blymn && win->cury == win->maxy - 1 517 1.1 blymn && __echoit) 518 1.1 blymn return (ERR); 519 1.1 blymn 520 1.1 blymn if (is_wintouched(win)) 521 1.1 blymn wrefresh(win); 522 1.1 blymn #ifdef DEBUG 523 1.2 blymn __CTRACE(__CTRACE_INPUT, "wget_wch: __echoit = %d, " 524 1.2 blymn "__rawmode = %d, __nl = %d, flags = %#.4x\n", 525 1.2 blymn __echoit, __rawmode, _cursesi_screen->nl, win->flags); 526 1.1 blymn #endif 527 1.3.4.1 matt if (_cursesi_screen->resized) { 528 1.3.4.1 matt _cursesi_screen->resized = 0; 529 1.3.4.1 matt *ch = KEY_RESIZE; 530 1.3.4.1 matt return KEY_CODE_YES; 531 1.3.4.1 matt } 532 1.3.4.1 matt if (_cursesi_screen->unget_pos) { 533 1.3.4.1 matt #ifdef DEBUG 534 1.3.4.1 matt __CTRACE(__CTRACE_INPUT, "wget_wch returning char at %d\n", 535 1.3.4.1 matt _cursesi_screen->unget_pos); 536 1.3.4.1 matt #endif 537 1.3.4.1 matt _cursesi_screen->unget_pos--; 538 1.3.4.1 matt *ch = _cursesi_screen->unget_list[_cursesi_screen->unget_pos]; 539 1.3.4.1 matt if (__echoit) { 540 1.3.4.1 matt ws[0] = *ch, ws[1] = L'\0'; 541 1.3.4.1 matt setcchar(&wc, ws, win->wattr, 0, NULL); 542 1.3.4.1 matt wadd_wch(win, &wc); 543 1.3.4.1 matt } 544 1.3.4.1 matt return KEY_CODE_YES; 545 1.3.4.1 matt } 546 1.1 blymn if (__echoit && !__rawmode) { 547 1.1 blymn cbreak(); 548 1.1 blymn weset = 1; 549 1.1 blymn } else 550 1.1 blymn weset = 0; 551 1.1 blymn 552 1.1 blymn __save_termios(); 553 1.1 blymn 554 1.1 blymn if (win->flags & __KEYPAD) { 555 1.1 blymn switch (win->delay) { 556 1.1 blymn case -1: 557 1.1 blymn ret = inkey(&inp, 558 1.1 blymn win->flags & __NOTIMEOUT ? 0 : 1, 0); 559 1.1 blymn break; 560 1.1 blymn case 0: 561 1.1 blymn if (__nodelay() == ERR) { 562 1.1 blymn __restore_termios(); 563 1.1 blymn return ERR; 564 1.1 blymn } 565 1.1 blymn ret = inkey(&inp, 0, 0); 566 1.1 blymn break; 567 1.1 blymn default: 568 1.1 blymn ret = inkey(&inp, 569 1.1 blymn win->flags & __NOTIMEOUT ? 0 : 1, 570 1.1 blymn win->delay); 571 1.1 blymn break; 572 1.1 blymn } 573 1.1 blymn if ( ret == ERR ) 574 1.1 blymn return ERR; 575 1.1 blymn } else { 576 1.1 blymn switch (win->delay) { 577 1.1 blymn case -1: 578 1.1 blymn break; 579 1.1 blymn case 0: 580 1.1 blymn if (__nodelay() == ERR) { 581 1.1 blymn __restore_termios(); 582 1.1 blymn return ERR; 583 1.1 blymn } 584 1.1 blymn break; 585 1.1 blymn default: 586 1.1 blymn if (__timeout(win->delay) == ERR) { 587 1.1 blymn __restore_termios(); 588 1.1 blymn return ERR; 589 1.1 blymn } 590 1.1 blymn break; 591 1.1 blymn } 592 1.1 blymn 593 1.1 blymn c = getwchar(); 594 1.1 blymn if (feof(infd)) { 595 1.1 blymn clearerr(infd); 596 1.1 blymn __restore_termios(); 597 1.1 blymn return ERR; /* we have timed out */ 598 1.1 blymn } 599 1.1 blymn 600 1.1 blymn if (ferror(infd)) { 601 1.1 blymn clearerr(infd); 602 1.1 blymn return ERR; 603 1.1 blymn } else { 604 1.3.4.1 matt ret = c; 605 1.1 blymn inp = c; 606 1.1 blymn } 607 1.1 blymn } 608 1.1 blymn #ifdef DEBUG 609 1.1 blymn if (inp > 255) 610 1.1 blymn /* we have a key symbol - treat it differently */ 611 1.1 blymn /* XXXX perhaps __unctrl should be expanded to include 612 1.1 blymn * XXXX the keysyms in the table.... 613 1.1 blymn */ 614 1.2 blymn __CTRACE(__CTRACE_INPUT, "wget_wch assembled keysym 0x%x\n", 615 1.2 blymn inp); 616 1.1 blymn else 617 1.2 blymn __CTRACE(__CTRACE_INPUT, "wget_wch got '%s'\n", unctrl(inp)); 618 1.1 blymn #endif 619 1.1 blymn if (win->delay > -1) { 620 1.1 blymn if (__delay() == ERR) { 621 1.1 blymn __restore_termios(); 622 1.1 blymn return ERR; 623 1.1 blymn } 624 1.1 blymn } 625 1.1 blymn 626 1.1 blymn __restore_termios(); 627 1.1 blymn 628 1.1 blymn if (__echoit) { 629 1.1 blymn if ( ret == KEY_CODE_YES ) { 630 1.1 blymn /* handle [DEL], [BS], and [LEFT] */ 631 1.1 blymn if ( win->curx && 632 1.1 blymn ( inp == KEY_DC || 633 1.1 blymn inp == KEY_BACKSPACE || 634 1.1 blymn inp == KEY_LEFT )) { 635 1.1 blymn wmove( win, win->cury, win->curx - 1 ); 636 1.1 blymn wdelch( win ); 637 1.1 blymn } 638 1.1 blymn } else { 639 1.1 blymn ws[ 0 ] = inp, ws[ 1 ] = L'\0'; 640 1.1 blymn setcchar( &wc, ws, win->wattr, 0, NULL ); 641 1.1 blymn wadd_wch( win, &wc ); 642 1.1 blymn } 643 1.1 blymn } 644 1.1 blymn 645 1.1 blymn if (weset) 646 1.1 blymn nocbreak(); 647 1.1 blymn 648 1.1 blymn if (_cursesi_screen->nl && inp == 13) 649 1.1 blymn inp = 10; 650 1.1 blymn 651 1.1 blymn *ch = inp; 652 1.1 blymn 653 1.1 blymn if ( ret == KEY_CODE_YES ) 654 1.1 blymn return KEY_CODE_YES; 655 1.1 blymn return ( inp < 0 ? ERR : OK ); 656 1.1 blymn #endif /* HAVE_WCHAR */ 657 1.1 blymn } 658 1.1 blymn 659 1.1 blymn /* 660 1.1 blymn * unget_wch -- 661 1.1 blymn * Put the wide character back into the input queue. 662 1.1 blymn */ 663 1.1 blymn int 664 1.1 blymn unget_wch(const wchar_t c) 665 1.1 blymn { 666 1.3.4.1 matt return __unget((wint_t) c); 667 1.1 blymn } 668
Indexes created Tue Sep 30 06:09:59 GMT 2025