1 /**************************************************************************** 2 * Copyright 2018-2020,2021 Thomas E. Dickey * 3 * Copyright 1998-2016,2017 Free Software Foundation, Inc. * 4 * * 5 * Permission is hereby granted, free of charge, to any person obtaining a * 6 * copy of this software and associated documentation files (the * 7 * "Software"), to deal in the Software without restriction, including * 8 * without limitation the rights to use, copy, modify, merge, publish, * 9 * distribute, distribute with modifications, sublicense, and/or sell * 10 * copies of the Software, and to permit persons to whom the Software is * 11 * furnished to do so, subject to the following conditions: * 12 * * 13 * The above copyright notice and this permission notice shall be included * 14 * in all copies or substantial portions of the Software. * 15 * * 16 * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS * 17 * OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF * 18 * MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. * 19 * IN NO EVENT SHALL THE ABOVE COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, * 20 * DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR * 21 * OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR * 22 * THE USE OR OTHER DEALINGS IN THE SOFTWARE. * 23 * * 24 * Except as contained in this notice, the name(s) of the above copyright * 25 * holders shall not be used in advertising or otherwise to promote the * 26 * sale, use or other dealings in this Software without prior written * 27 * authorization. * 28 ****************************************************************************/ 29 30 /**************************************************************************** 31 * Author: Zeyd M. Ben-Halim <zmbenhal@netcom.com> 1992,1995 * 32 * and: Eric S. Raymond <esr@snark.thyrsus.com> * 33 * and: Thomas E. Dickey 1996-on * 34 * and: Juergen Pfeifer 2009 * 35 ****************************************************************************/ 36 37 /* 38 ** lib_mvcur.c 39 ** 40 ** The routines for moving the physical cursor and scrolling: 41 ** 42 ** void _nc_mvcur_init(void) 43 ** 44 ** void _nc_mvcur_resume(void) 45 ** 46 ** int mvcur(int old_y, int old_x, int new_y, int new_x) 47 ** 48 ** void _nc_mvcur_wrap(void) 49 ** 50 ** Comparisons with older movement optimizers: 51 ** SVr3 curses mvcur() can't use cursor_to_ll or auto_left_margin. 52 ** 4.4BSD curses can't use cuu/cud/cuf/cub/hpa/vpa/tab/cbt for local 53 ** motions. It doesn't use tactics based on auto_left_margin. Weirdly 54 ** enough, it doesn't use its own hardware-scrolling routine to scroll up 55 ** destination lines for out-of-bounds addresses! 56 ** old ncurses optimizer: less accurate cost computations (in fact, 57 ** it was broken and had to be commented out!). 58 ** 59 ** Compile with -DMAIN to build an interactive tester/timer for the movement 60 ** optimizer. You can use it to investigate the optimizer's behavior. 61 ** You can also use it for tuning the formulas used to determine whether 62 ** or not full optimization is attempted. 63 ** 64 ** This code has a nasty tendency to find bugs in terminfo entries, because it 65 ** exercises the non-cup movement capabilities heavily. If you think you've 66 ** found a bug, try deleting subsets of the following capabilities (arranged 67 ** in decreasing order of suspiciousness): it, tab, cbt, hpa, vpa, cuu, cud, 68 ** cuf, cub, cuu1, cud1, cuf1, cub1. It may be that one or more are wrong. 69 ** 70 ** Note: you should expect this code to look like a resource hog in a profile. 71 ** That's because it does a lot of I/O, through the tputs() calls. The I/O 72 ** cost swamps the computation overhead (and as machines get faster, this 73 ** will become even more true). Comments in the test exerciser at the end 74 ** go into detail about tuning and how you can gauge the optimizer's 75 ** effectiveness. 76 **/ 77 78 /**************************************************************************** 79 * 80 * Constants and macros for optimizer tuning. 81 * 82 ****************************************************************************/ 83 84 /* 85 * The average overhead of a full optimization computation in character 86 * transmission times. If it's too high, the algorithm will be a bit 87 * over-biased toward using cup rather than local motions; if it's too 88 * low, the algorithm may spend more time than is strictly optimal 89 * looking for non-cup motions. Profile the optimizer using the `t' 90 * command of the exerciser (see below), and round to the nearest integer. 91 * 92 * Yes, I (esr) thought about computing expected overhead dynamically, say 93 * by derivation from a running average of optimizer times. But the 94 * whole point of this optimization is to *decrease* the frequency of 95 * system calls. :-) 96 */ 97 #define COMPUTE_OVERHEAD 1 /* I use a 90MHz Pentium @ 9.6Kbps */ 98 99 /* 100 * LONG_DIST is the distance we consider to be just as costly to move over as a 101 * cup sequence is to emit. In other words, it's the length of a cup sequence 102 * adjusted for average computation overhead. The magic number is the length 103 * of "\033[yy;xxH", the typical cup sequence these days. 104 */ 105 #define LONG_DIST (8 - COMPUTE_OVERHEAD) 106 107 /* 108 * Tell whether a motion is optimizable by local motions. Needs to be cheap to 109 * compute. In general, all the fast moves go to either the right or left edge 110 * of the screen. So any motion to a location that is (a) further away than 111 * LONG_DIST and (b) further inward from the right or left edge than LONG_DIST, 112 * we'll consider nonlocal. 113 */ 114 #define NOT_LOCAL(sp, fy, fx, ty, tx) ((tx > LONG_DIST) \ 115 && (tx < screen_columns(sp) - 1 - LONG_DIST) \ 116 && (abs(ty-fy) + abs(tx-fx) > LONG_DIST)) 117 118 /**************************************************************************** 119 * 120 * External interfaces 121 * 122 ****************************************************************************/ 123 124 /* 125 * For this code to work OK, the following components must live in the 126 * screen structure: 127 * 128 * int _char_padding; // cost of character put 129 * int _cr_cost; // cost of (carriage_return) 130 * int _cup_cost; // cost of (cursor_address) 131 * int _home_cost; // cost of (cursor_home) 132 * int _ll_cost; // cost of (cursor_to_ll) 133 *#if USE_HARD_TABS 134 * int _ht_cost; // cost of (tab) 135 * int _cbt_cost; // cost of (back_tab) 136 *#endif USE_HARD_TABS 137 * int _cub1_cost; // cost of (cursor_left) 138 * int _cuf1_cost; // cost of (cursor_right) 139 * int _cud1_cost; // cost of (cursor_down) 140 * int _cuu1_cost; // cost of (cursor_up) 141 * int _cub_cost; // cost of (parm_cursor_left) 142 * int _cuf_cost; // cost of (parm_cursor_right) 143 * int _cud_cost; // cost of (parm_cursor_down) 144 * int _cuu_cost; // cost of (parm_cursor_up) 145 * int _hpa_cost; // cost of (column_address) 146 * int _vpa_cost; // cost of (row_address) 147 * int _ech_cost; // cost of (erase_chars) 148 * int _rep_cost; // cost of (repeat_char) 149 * 150 * The USE_HARD_TABS switch controls whether it is reliable to use tab/backtabs 151 * for local motions. On many systems, it's not, due to uncertainties about 152 * tab delays and whether or not tabs will be expanded in raw mode. If you 153 * have parm_right_cursor, tab motions don't win you a lot anyhow. 154 */ 155 156 #include <curses.priv.h> 157 #include <ctype.h> 158 159 #ifndef CUR 160 #define CUR SP_TERMTYPE 161 #endif 162 163 MODULE_ID("$Id: lib_mvcur.c,v 1.155 2021/02/06 13:53:41 tom Exp $") 164 165 #define WANT_CHAR(sp, y, x) NewScreen(sp)->_line[y].text[x] /* desired state */ 166 167 #if NCURSES_SP_FUNCS 168 #define BAUDRATE(sp) sp->_term->_baudrate /* bits per second */ 169 #else 170 #define BAUDRATE(sp) cur_term->_baudrate /* bits per second */ 171 #endif 172 173 #if defined(MAIN) || defined(NCURSES_TEST) 174 #include <sys/time.h> 175 176 static bool profiling = FALSE; 177 static float diff; 178 #endif /* MAIN */ 179 180 #undef NCURSES_OUTC_FUNC 181 #define NCURSES_OUTC_FUNC myOutCh 182 183 #define OPT_SIZE 512 184 185 static int normalized_cost(NCURSES_SP_DCLx const char *const cap, int affcnt); 186 187 /**************************************************************************** 188 * 189 * Initialization/wrapup (including cost pre-computation) 190 * 191 ****************************************************************************/ 192 193 #ifdef TRACE 194 static int 195 trace_cost_of(NCURSES_SP_DCLx const char *capname, const char *cap, int affcnt) 196 { 197 int result = NCURSES_SP_NAME(_nc_msec_cost) (NCURSES_SP_ARGx cap, affcnt); 198 TR(TRACE_CHARPUT | TRACE_MOVE, 199 ("CostOf %s %d %s", capname, result, _nc_visbuf(cap))); 200 return result; 201 } 202 #define CostOf(cap,affcnt) trace_cost_of(NCURSES_SP_ARGx #cap, cap, affcnt) 203 204 static int 205 trace_normalized_cost(NCURSES_SP_DCLx const char *capname, const char *cap, int affcnt) 206 { 207 int result = normalized_cost(NCURSES_SP_ARGx cap, affcnt); 208 TR(TRACE_CHARPUT | TRACE_MOVE, 209 ("NormalizedCost %s %d %s", capname, result, _nc_visbuf(cap))); 210 return result; 211 } 212 #define NormalizedCost(cap,affcnt) trace_normalized_cost(NCURSES_SP_ARGx #cap, cap, affcnt) 213 214 #else 215 216 #define CostOf(cap,affcnt) NCURSES_SP_NAME(_nc_msec_cost)(NCURSES_SP_ARGx cap, affcnt) 217 #define NormalizedCost(cap,affcnt) normalized_cost(NCURSES_SP_ARGx cap, affcnt) 218 219 #endif 220 221 NCURSES_EXPORT(int) 222 NCURSES_SP_NAME(_nc_msec_cost) (NCURSES_SP_DCLx const char *const cap, int affcnt) 223 /* compute the cost of a given operation */ 224 { 225 if (cap == 0) 226 return (INFINITY); 227 else { 228 const char *cp; 229 float cum_cost = 0.0; 230 231 for (cp = cap; *cp; cp++) { 232 /* extract padding, either mandatory or required */ 233 if (cp[0] == '$' && cp[1] == '<' && strchr(cp, '>')) { 234 float number = 0.0; 235 236 for (cp += 2; *cp != '>'; cp++) { 237 if (isdigit(UChar(*cp))) 238 number = number * 10 + (float) (*cp - '0'); 239 else if (*cp == '*') 240 number *= (float) affcnt; 241 else if (*cp == '.' && (*++cp != '>') && isdigit(UChar(*cp))) 242 number += (float) ((*cp - '0') / 10.0); 243 } 244 245 #if NCURSES_NO_PADDING 246 if (!GetNoPadding(SP_PARM)) 247 #endif 248 cum_cost += number * 10; 249 } else if (SP_PARM) { 250 cum_cost += (float) SP_PARM->_char_padding; 251 } 252 } 253 254 return ((int) cum_cost); 255 } 256 } 257 258 #if NCURSES_SP_FUNCS 259 NCURSES_EXPORT(int) 260 _nc_msec_cost(const char *const cap, int affcnt) 261 { 262 return NCURSES_SP_NAME(_nc_msec_cost) (CURRENT_SCREEN, cap, affcnt); 263 } 264 #endif 265 266 static int 267 normalized_cost(NCURSES_SP_DCLx const char *const cap, int affcnt) 268 /* compute the effective character-count for an operation (round up) */ 269 { 270 int cost = NCURSES_SP_NAME(_nc_msec_cost) (NCURSES_SP_ARGx cap, affcnt); 271 if (cost != INFINITY) 272 cost = (cost + SP_PARM->_char_padding - 1) / SP_PARM->_char_padding; 273 return cost; 274 } 275 276 static void 277 reset_scroll_region(NCURSES_SP_DCL0) 278 /* Set the scroll-region to a known state (the default) */ 279 { 280 if (change_scroll_region) { 281 NCURSES_PUTP2("change_scroll_region", 282 TIPARM_2(change_scroll_region, 283 0, screen_lines(SP_PARM) - 1)); 284 } 285 } 286 287 NCURSES_EXPORT(void) 288 NCURSES_SP_NAME(_nc_mvcur_resume) (NCURSES_SP_DCL0) 289 /* what to do at initialization time and after each shellout */ 290 { 291 if (!SP_PARM || !IsTermInfo(SP_PARM)) 292 return; 293 294 /* initialize screen for cursor access */ 295 if (enter_ca_mode) { 296 NCURSES_PUTP2("enter_ca_mode", enter_ca_mode); 297 } 298 299 /* 300 * Doing this here rather than in _nc_mvcur_wrap() ensures that 301 * ncurses programs will see a reset scroll region even if a 302 * program that messed with it died ungracefully. 303 * 304 * This also undoes the effects of terminal init strings that assume 305 * they know the screen size. This is useful when you're running 306 * a vt100 emulation through xterm. 307 */ 308 reset_scroll_region(NCURSES_SP_ARG); 309 SP_PARM->_cursrow = SP_PARM->_curscol = -1; 310 311 /* restore cursor shape */ 312 if (SP_PARM->_cursor != -1) { 313 int cursor = SP_PARM->_cursor; 314 SP_PARM->_cursor = -1; 315 NCURSES_SP_NAME(curs_set) (NCURSES_SP_ARGx cursor); 316 } 317 } 318 319 #if NCURSES_SP_FUNCS 320 NCURSES_EXPORT(void) 321 _nc_mvcur_resume(void) 322 { 323 NCURSES_SP_NAME(_nc_mvcur_resume) (CURRENT_SCREEN); 324 } 325 #endif 326 327 NCURSES_EXPORT(void) 328 NCURSES_SP_NAME(_nc_mvcur_init) (NCURSES_SP_DCL0) 329 /* initialize the cost structure */ 330 { 331 if (SP_PARM->_ofp && NC_ISATTY(fileno(SP_PARM->_ofp))) { 332 SP_PARM->_char_padding = ((BAUDBYTE * 1000 * 10) 333 / (BAUDRATE(SP_PARM) > 0 334 ? BAUDRATE(SP_PARM) 335 : 9600)); 336 } else { 337 SP_PARM->_char_padding = 1; /* must be nonzero */ 338 } 339 if (SP_PARM->_char_padding <= 0) 340 SP_PARM->_char_padding = 1; /* must be nonzero */ 341 TR(TRACE_CHARPUT | TRACE_MOVE, ("char_padding %d msecs", SP_PARM->_char_padding)); 342 343 /* non-parameterized local-motion strings */ 344 SP_PARM->_cr_cost = CostOf(carriage_return, 0); 345 SP_PARM->_home_cost = CostOf(cursor_home, 0); 346 SP_PARM->_ll_cost = CostOf(cursor_to_ll, 0); 347 #if USE_HARD_TABS 348 if (getenv("NCURSES_NO_HARD_TABS") == 0 349 && dest_tabs_magic_smso == 0 350 && HasHardTabs()) { 351 SP_PARM->_ht_cost = CostOf(tab, 0); 352 SP_PARM->_cbt_cost = CostOf(back_tab, 0); 353 } else { 354 SP_PARM->_ht_cost = INFINITY; 355 SP_PARM->_cbt_cost = INFINITY; 356 } 357 #endif /* USE_HARD_TABS */ 358 SP_PARM->_cub1_cost = CostOf(cursor_left, 0); 359 SP_PARM->_cuf1_cost = CostOf(cursor_right, 0); 360 SP_PARM->_cud1_cost = CostOf(cursor_down, 0); 361 SP_PARM->_cuu1_cost = CostOf(cursor_up, 0); 362 363 SP_PARM->_smir_cost = CostOf(enter_insert_mode, 0); 364 SP_PARM->_rmir_cost = CostOf(exit_insert_mode, 0); 365 SP_PARM->_ip_cost = 0; 366 if (insert_padding) { 367 SP_PARM->_ip_cost = CostOf(insert_padding, 0); 368 } 369 370 /* 371 * Assumption: if the terminal has memory_relative addressing, the 372 * initialization strings or smcup will set single-page mode so we 373 * can treat it like absolute screen addressing. This seems to be true 374 * for all cursor_mem_address terminal types in the terminfo database. 375 */ 376 SP_PARM->_address_cursor = cursor_address ? cursor_address : cursor_mem_address; 377 378 /* 379 * Parametrized local-motion strings. This static cost computation 380 * depends on the following assumptions: 381 * 382 * (1) They never have * padding. In the entire master terminfo database 383 * as of March 1995, only the obsolete Zenith Z-100 pc violates this. 384 * (Proportional padding is found mainly in insert, delete and scroll 385 * capabilities). 386 * 387 * (2) The average case of cup has two two-digit parameters. Strictly, 388 * the average case for a 24 * 80 screen has ((10*10*(1 + 1)) + 389 * (14*10*(1 + 2)) + (10*70*(2 + 1)) + (14*70*4)) / (24*80) = 3.458 390 * digits of parameters. On a 25x80 screen the average is 3.6197. 391 * On larger screens the value gets much closer to 4. 392 * 393 * (3) The average case of cub/cuf/hpa/ech/rep has 2 digits of parameters 394 * (strictly, (((10 * 1) + (70 * 2)) / 80) = 1.8750). 395 * 396 * (4) The average case of cud/cuu/vpa has 2 digits of parameters 397 * (strictly, (((10 * 1) + (14 * 2)) / 24) = 1.5833). 398 * 399 * All these averages depend on the assumption that all parameter values 400 * are equally probable. 401 */ 402 SP_PARM->_cup_cost = CostOf(TIPARM_2(SP_PARM->_address_cursor, 23, 23), 1); 403 SP_PARM->_cub_cost = CostOf(TIPARM_1(parm_left_cursor, 23), 1); 404 SP_PARM->_cuf_cost = CostOf(TIPARM_1(parm_right_cursor, 23), 1); 405 SP_PARM->_cud_cost = CostOf(TIPARM_1(parm_down_cursor, 23), 1); 406 SP_PARM->_cuu_cost = CostOf(TIPARM_1(parm_up_cursor, 23), 1); 407 SP_PARM->_hpa_cost = CostOf(TIPARM_1(column_address, 23), 1); 408 SP_PARM->_vpa_cost = CostOf(TIPARM_1(row_address, 23), 1); 409 410 /* non-parameterized screen-update strings */ 411 SP_PARM->_ed_cost = NormalizedCost(clr_eos, 1); 412 SP_PARM->_el_cost = NormalizedCost(clr_eol, 1); 413 SP_PARM->_el1_cost = NormalizedCost(clr_bol, 1); 414 SP_PARM->_dch1_cost = NormalizedCost(delete_character, 1); 415 SP_PARM->_ich1_cost = NormalizedCost(insert_character, 1); 416 417 /* 418 * If this is a bce-terminal, we want to bias the choice so we use clr_eol 419 * rather than spaces at the end of a line. 420 */ 421 if (back_color_erase) 422 SP_PARM->_el_cost = 0; 423 424 /* parameterized screen-update strings */ 425 SP_PARM->_dch_cost = NormalizedCost(TIPARM_1(parm_dch, 23), 1); 426 SP_PARM->_ich_cost = NormalizedCost(TIPARM_1(parm_ich, 23), 1); 427 SP_PARM->_ech_cost = NormalizedCost(TIPARM_1(erase_chars, 23), 1); 428 SP_PARM->_rep_cost = NormalizedCost(TIPARM_2(repeat_char, ' ', 23), 1); 429 430 SP_PARM->_cup_ch_cost = NormalizedCost(TIPARM_2(SP_PARM->_address_cursor, 431 23, 23), 432 1); 433 SP_PARM->_hpa_ch_cost = NormalizedCost(TIPARM_1(column_address, 23), 1); 434 SP_PARM->_cuf_ch_cost = NormalizedCost(TIPARM_1(parm_right_cursor, 23), 1); 435 SP_PARM->_inline_cost = min(SP_PARM->_cup_ch_cost, 436 min(SP_PARM->_hpa_ch_cost, 437 SP_PARM->_cuf_ch_cost)); 438 439 /* 440 * If save_cursor is used within enter_ca_mode, we should not use it for 441 * scrolling optimization, since the corresponding restore_cursor is not 442 * nested on the various terminals (vt100, xterm, etc.) which use this 443 * feature. 444 */ 445 if (save_cursor != 0 446 && enter_ca_mode != 0 447 && strstr(enter_ca_mode, save_cursor) != 0) { 448 T(("...suppressed sc/rc capability due to conflict with smcup/rmcup")); 449 save_cursor = 0; 450 restore_cursor = 0; 451 } 452 453 /* 454 * A different, possibly better way to arrange this would be to set the 455 * SCREEN's _endwin at window initialization time and let this be called by 456 * doupdate's return-from-shellout code. 457 */ 458 NCURSES_SP_NAME(_nc_mvcur_resume) (NCURSES_SP_ARG); 459 } 460 461 #if NCURSES_SP_FUNCS 462 NCURSES_EXPORT(void) 463 _nc_mvcur_init(void) 464 { 465 NCURSES_SP_NAME(_nc_mvcur_init) (CURRENT_SCREEN); 466 } 467 #endif 468 469 NCURSES_EXPORT(void) 470 NCURSES_SP_NAME(_nc_mvcur_wrap) (NCURSES_SP_DCL0) 471 /* wrap up cursor-addressing mode */ 472 { 473 /* leave cursor at screen bottom */ 474 TINFO_MVCUR(NCURSES_SP_ARGx -1, -1, screen_lines(SP_PARM) - 1, 0); 475 476 if (!SP_PARM || !IsTermInfo(SP_PARM)) 477 return; 478 479 /* set cursor to normal mode */ 480 if (SP_PARM->_cursor != -1) { 481 int cursor = SP_PARM->_cursor; 482 NCURSES_SP_NAME(curs_set) (NCURSES_SP_ARGx 1); 483 SP_PARM->_cursor = cursor; 484 } 485 486 if (exit_ca_mode) { 487 NCURSES_PUTP2("exit_ca_mode", exit_ca_mode); 488 } 489 /* 490 * Reset terminal's tab counter. There's a long-time bug that 491 * if you exit a "curses" program such as vi or more, tab 492 * forward, and then backspace, the cursor doesn't go to the 493 * right place. The problem is that the kernel counts the 494 * escape sequences that reset things as column positions. 495 * Utter a \r to reset this invisibly. 496 */ 497 NCURSES_SP_NAME(_nc_outch) (NCURSES_SP_ARGx '\r'); 498 } 499 500 #if NCURSES_SP_FUNCS 501 NCURSES_EXPORT(void) 502 _nc_mvcur_wrap(void) 503 { 504 NCURSES_SP_NAME(_nc_mvcur_wrap) (CURRENT_SCREEN); 505 } 506 #endif 507 508 /**************************************************************************** 509 * 510 * Optimized cursor movement 511 * 512 ****************************************************************************/ 513 514 /* 515 * Perform repeated-append, returning cost 516 */ 517 static NCURSES_INLINE int 518 repeated_append(string_desc * target, int total, int num, int repeat, const char *src) 519 { 520 size_t need = (size_t) repeat * strlen(src); 521 522 if (need < target->s_size) { 523 while (repeat-- > 0) { 524 if (_nc_safe_strcat(target, src)) { 525 total += num; 526 } else { 527 total = INFINITY; 528 break; 529 } 530 } 531 } else { 532 total = INFINITY; 533 } 534 return total; 535 } 536 537 #ifndef NO_OPTIMIZE 538 #define NEXTTAB(fr) (fr + init_tabs - (fr % init_tabs)) 539 540 /* 541 * Assume back_tab (CBT) does not wrap backwards at the left margin, return 542 * a negative value at that point to simplify the loop. 543 */ 544 #define LASTTAB(fr) ((fr > 0) ? ((fr - 1) / init_tabs) * init_tabs : -1) 545 546 static int 547 relative_move(NCURSES_SP_DCLx 548 string_desc * target, 549 int from_y, 550 int from_x, 551 int to_y, 552 int to_x, 553 int ovw) 554 /* move via local motions (cuu/cuu1/cud/cud1/cub1/cub/cuf1/cuf/vpa/hpa) */ 555 { 556 string_desc save; 557 int n, vcost = 0, hcost = 0; 558 559 (void) _nc_str_copy(&save, target); 560 561 if (to_y != from_y) { 562 vcost = INFINITY; 563 564 if (row_address != 0 565 && _nc_safe_strcat(target, TIPARM_1(row_address, to_y))) { 566 vcost = SP_PARM->_vpa_cost; 567 } 568 569 if (to_y > from_y) { 570 n = (to_y - from_y); 571 572 if (parm_down_cursor 573 && SP_PARM->_cud_cost < vcost 574 && _nc_safe_strcat(_nc_str_copy(target, &save), 575 TIPARM_1(parm_down_cursor, n))) { 576 vcost = SP_PARM->_cud_cost; 577 } 578 579 if (cursor_down 580 && (*cursor_down != '\n') 581 && (n * SP_PARM->_cud1_cost < vcost)) { 582 vcost = repeated_append(_nc_str_copy(target, &save), 0, 583 SP_PARM->_cud1_cost, n, cursor_down); 584 } 585 } else { /* (to_y < from_y) */ 586 n = (from_y - to_y); 587 588 if (parm_up_cursor 589 && SP_PARM->_cuu_cost < vcost 590 && _nc_safe_strcat(_nc_str_copy(target, &save), 591 TIPARM_1(parm_up_cursor, n))) { 592 vcost = SP_PARM->_cuu_cost; 593 } 594 595 if (cursor_up && (n * SP_PARM->_cuu1_cost < vcost)) { 596 vcost = repeated_append(_nc_str_copy(target, &save), 0, 597 SP_PARM->_cuu1_cost, n, cursor_up); 598 } 599 } 600 601 if (vcost == INFINITY) 602 return (INFINITY); 603 } 604 605 save = *target; 606 607 if (to_x != from_x) { 608 char str[OPT_SIZE]; 609 string_desc check; 610 611 hcost = INFINITY; 612 613 if (column_address 614 && _nc_safe_strcat(_nc_str_copy(target, &save), 615 TIPARM_1(column_address, to_x))) { 616 hcost = SP_PARM->_hpa_cost; 617 } 618 619 if (to_x > from_x) { 620 n = to_x - from_x; 621 622 if (parm_right_cursor 623 && SP_PARM->_cuf_cost < hcost 624 && _nc_safe_strcat(_nc_str_copy(target, &save), 625 TIPARM_1(parm_right_cursor, n))) { 626 hcost = SP_PARM->_cuf_cost; 627 } 628 629 if (cursor_right) { 630 int lhcost = 0; 631 632 (void) _nc_str_init(&check, str, sizeof(str)); 633 634 #if USE_HARD_TABS 635 /* use hard tabs, if we have them, to do as much as possible */ 636 if (init_tabs > 0 && tab) { 637 int nxt, fr; 638 639 for (fr = from_x; (nxt = NEXTTAB(fr)) <= to_x; fr = nxt) { 640 lhcost = repeated_append(&check, lhcost, 641 SP_PARM->_ht_cost, 1, tab); 642 if (lhcost == INFINITY) 643 break; 644 } 645 646 n = to_x - fr; 647 from_x = fr; 648 } 649 #endif /* USE_HARD_TABS */ 650 651 if (n <= 0 || n >= (int) check.s_size) 652 ovw = FALSE; 653 #if BSD_TPUTS 654 /* 655 * If we're allowing BSD-style padding in tputs, don't generate 656 * a string with a leading digit. Otherwise, that will be 657 * interpreted as a padding value rather than sent to the 658 * screen. 659 */ 660 if (ovw 661 && n > 0 662 && n < (int) check.s_size 663 && vcost == 0 664 && str[0] == '\0') { 665 int wanted = CharOf(WANT_CHAR(SP_PARM, to_y, from_x)); 666 if (is8bits(wanted) && isdigit(wanted)) 667 ovw = FALSE; 668 } 669 #endif 670 /* 671 * If we have no attribute changes, overwrite is cheaper. 672 * Note: must suppress this by passing in ovw = FALSE whenever 673 * WANT_CHAR would return invalid data. In particular, this 674 * is true between the time a hardware scroll has been done 675 * and the time the structure WANT_CHAR would access has been 676 * updated. 677 */ 678 if (ovw) { 679 int i; 680 681 for (i = 0; i < n; i++) { 682 NCURSES_CH_T ch = WANT_CHAR(SP_PARM, to_y, from_x + i); 683 if (!SameAttrOf(ch, SCREEN_ATTRS(SP_PARM)) 684 #if USE_WIDEC_SUPPORT 685 || !Charable(ch) 686 #endif 687 ) { 688 ovw = FALSE; 689 break; 690 } 691 } 692 } 693 if (ovw) { 694 int i; 695 696 for (i = 0; i < n; i++) 697 *check.s_tail++ = (char) CharOf(WANT_CHAR(SP_PARM, to_y, 698 from_x + i)); 699 *check.s_tail = '\0'; 700 check.s_size -= (size_t) n; 701 lhcost += n * SP_PARM->_char_padding; 702 } else { 703 lhcost = repeated_append(&check, lhcost, SP_PARM->_cuf1_cost, 704 n, cursor_right); 705 } 706 707 if (lhcost < hcost 708 && _nc_safe_strcat(_nc_str_copy(target, &save), str)) { 709 hcost = lhcost; 710 } 711 } 712 } else { /* (to_x < from_x) */ 713 n = from_x - to_x; 714 715 if (parm_left_cursor 716 && SP_PARM->_cub_cost < hcost 717 && _nc_safe_strcat(_nc_str_copy(target, &save), 718 TIPARM_1(parm_left_cursor, n))) { 719 hcost = SP_PARM->_cub_cost; 720 } 721 722 if (cursor_left) { 723 int lhcost = 0; 724 725 (void) _nc_str_init(&check, str, sizeof(str)); 726 727 #if USE_HARD_TABS 728 if (init_tabs > 0 && back_tab) { 729 int nxt, fr; 730 731 for (fr = from_x; (nxt = LASTTAB(fr)) >= to_x; fr = nxt) { 732 lhcost = repeated_append(&check, lhcost, 733 SP_PARM->_cbt_cost, 734 1, back_tab); 735 if (lhcost == INFINITY) 736 break; 737 } 738 739 n = fr - to_x; 740 } 741 #endif /* USE_HARD_TABS */ 742 743 lhcost = repeated_append(&check, lhcost, 744 SP_PARM->_cub1_cost, 745 n, cursor_left); 746 747 if (lhcost < hcost 748 && _nc_safe_strcat(_nc_str_copy(target, &save), str)) { 749 hcost = lhcost; 750 } 751 } 752 } 753 754 if (hcost == INFINITY) 755 return (INFINITY); 756 } 757 758 return (vcost + hcost); 759 } 760 #endif /* !NO_OPTIMIZE */ 761 762 /* 763 * With the machinery set up above, it's conceivable that 764 * onscreen_mvcur could be modified into a recursive function that does 765 * an alpha-beta search of motion space, as though it were a chess 766 * move tree, with the weight function being boolean and the search 767 * depth equated to length of string. However, this would jack up the 768 * computation cost a lot, especially on terminals without a cup 769 * capability constraining the search tree depth. So we settle for 770 * the simpler method below. 771 */ 772 773 static NCURSES_INLINE int 774 onscreen_mvcur(NCURSES_SP_DCLx 775 int yold, int xold, 776 int ynew, int xnew, int ovw, 777 NCURSES_SP_OUTC myOutCh) 778 /* onscreen move from (yold, xold) to (ynew, xnew) */ 779 { 780 string_desc result; 781 char buffer[OPT_SIZE]; 782 int tactic = 0, newcost, usecost = INFINITY; 783 int t5_cr_cost; 784 785 #if defined(MAIN) || defined(NCURSES_TEST) 786 struct timeval before, after; 787 788 gettimeofday(&before, NULL); 789 #endif /* MAIN */ 790 791 #define NullResult _nc_str_null(&result, sizeof(buffer)) 792 #define InitResult _nc_str_init(&result, buffer, sizeof(buffer)) 793 794 /* tactic #0: use direct cursor addressing */ 795 if (_nc_safe_strcpy(InitResult, TIPARM_2(SP_PARM->_address_cursor, 796 ynew, xnew))) { 797 tactic = 0; 798 usecost = SP_PARM->_cup_cost; 799 800 #if defined(TRACE) || defined(NCURSES_TEST) 801 if (!(_nc_optimize_enable & OPTIMIZE_MVCUR)) 802 goto nonlocal; 803 #endif /* TRACE */ 804 805 /* 806 * We may be able to tell in advance that the full optimization 807 * will probably not be worth its overhead. Also, don't try to 808 * use local movement if the current attribute is anything but 809 * A_NORMAL...there are just too many ways this can screw up 810 * (like, say, local-movement \n getting mapped to some obscure 811 * character because A_ALTCHARSET is on). 812 */ 813 if (yold == -1 || xold == -1 || NOT_LOCAL(SP_PARM, yold, xold, ynew, xnew)) { 814 #if defined(MAIN) || defined(NCURSES_TEST) 815 if (!profiling) { 816 (void) fputs("nonlocal\n", stderr); 817 goto nonlocal; /* always run the optimizer if profiling */ 818 } 819 #else 820 goto nonlocal; 821 #endif /* MAIN */ 822 } 823 } 824 #ifndef NO_OPTIMIZE 825 /* tactic #1: use local movement */ 826 if (yold != -1 && xold != -1 827 && ((newcost = relative_move(NCURSES_SP_ARGx 828 NullResult, 829 yold, xold, 830 ynew, xnew, ovw)) != INFINITY) 831 && newcost < usecost) { 832 tactic = 1; 833 usecost = newcost; 834 } 835 836 /* tactic #2: use carriage-return + local movement */ 837 if (yold != -1 && carriage_return 838 && ((newcost = relative_move(NCURSES_SP_ARGx 839 NullResult, 840 yold, 0, 841 ynew, xnew, ovw)) != INFINITY) 842 && SP_PARM->_cr_cost + newcost < usecost) { 843 tactic = 2; 844 usecost = SP_PARM->_cr_cost + newcost; 845 } 846 847 /* tactic #3: use home-cursor + local movement */ 848 if (cursor_home 849 && ((newcost = relative_move(NCURSES_SP_ARGx 850 NullResult, 851 0, 0, 852 ynew, xnew, ovw)) != INFINITY) 853 && SP_PARM->_home_cost + newcost < usecost) { 854 tactic = 3; 855 usecost = SP_PARM->_home_cost + newcost; 856 } 857 858 /* tactic #4: use home-down + local movement */ 859 if (cursor_to_ll 860 && ((newcost = relative_move(NCURSES_SP_ARGx 861 NullResult, 862 screen_lines(SP_PARM) - 1, 0, 863 ynew, xnew, ovw)) != INFINITY) 864 && SP_PARM->_ll_cost + newcost < usecost) { 865 tactic = 4; 866 usecost = SP_PARM->_ll_cost + newcost; 867 } 868 869 /* 870 * tactic #5: use left margin for wrap to right-hand side, 871 * unless strange wrap behavior indicated by xenl might hose us. 872 */ 873 t5_cr_cost = (xold > 0 ? SP_PARM->_cr_cost : 0); 874 if (auto_left_margin && !eat_newline_glitch 875 && yold > 0 && cursor_left 876 && ((newcost = relative_move(NCURSES_SP_ARGx 877 NullResult, 878 yold - 1, screen_columns(SP_PARM) - 1, 879 ynew, xnew, ovw)) != INFINITY) 880 && t5_cr_cost + SP_PARM->_cub1_cost + newcost < usecost) { 881 tactic = 5; 882 usecost = t5_cr_cost + SP_PARM->_cub1_cost + newcost; 883 } 884 885 /* 886 * These cases are ordered by estimated relative frequency. 887 */ 888 if (tactic) 889 InitResult; 890 switch (tactic) { 891 case 1: 892 (void) relative_move(NCURSES_SP_ARGx 893 &result, 894 yold, xold, 895 ynew, xnew, ovw); 896 break; 897 case 2: 898 (void) _nc_safe_strcpy(&result, carriage_return); 899 (void) relative_move(NCURSES_SP_ARGx 900 &result, 901 yold, 0, 902 ynew, xnew, ovw); 903 break; 904 case 3: 905 (void) _nc_safe_strcpy(&result, cursor_home); 906 (void) relative_move(NCURSES_SP_ARGx 907 &result, 0, 0, 908 ynew, xnew, ovw); 909 break; 910 case 4: 911 (void) _nc_safe_strcpy(&result, cursor_to_ll); 912 (void) relative_move(NCURSES_SP_ARGx 913 &result, 914 screen_lines(SP_PARM) - 1, 0, 915 ynew, xnew, ovw); 916 break; 917 case 5: 918 if (xold > 0) 919 (void) _nc_safe_strcat(&result, carriage_return); 920 (void) _nc_safe_strcat(&result, cursor_left); 921 (void) relative_move(NCURSES_SP_ARGx 922 &result, 923 yold - 1, screen_columns(SP_PARM) - 1, 924 ynew, xnew, ovw); 925 break; 926 } 927 #endif /* !NO_OPTIMIZE */ 928 929 nonlocal: 930 #if defined(MAIN) || defined(NCURSES_TEST) 931 gettimeofday(&after, NULL); 932 diff = after.tv_usec - before.tv_usec 933 + (after.tv_sec - before.tv_sec) * 1000000; 934 if (!profiling) 935 (void) fprintf(stderr, 936 "onscreen: %d microsec, %f 28.8Kbps char-equivalents\n", 937 (int) diff, diff / 288); 938 #endif /* MAIN */ 939 940 if (usecost != INFINITY) { 941 TR(TRACE_MOVE, ("mvcur tactic %d", tactic)); 942 TPUTS_TRACE("mvcur"); 943 NCURSES_SP_NAME(tputs) (NCURSES_SP_ARGx 944 buffer, 1, myOutCh); 945 SP_PARM->_cursrow = ynew; 946 SP_PARM->_curscol = xnew; 947 return (OK); 948 } else 949 return (ERR); 950 } 951 952 /* 953 * optimized cursor move from (yold, xold) to (ynew, xnew) 954 */ 955 static int 956 _nc_real_mvcur(NCURSES_SP_DCLx 957 int yold, int xold, 958 int ynew, int xnew, 959 NCURSES_SP_OUTC myOutCh, 960 int ovw) 961 { 962 NCURSES_CH_T oldattr; 963 int code; 964 965 TR(TRACE_CALLS | TRACE_MOVE, (T_CALLED("_nc_real_mvcur(%p,%d,%d,%d,%d)"), 966 (void *) SP_PARM, yold, xold, ynew, xnew)); 967 968 if (SP_PARM == 0) { 969 code = ERR; 970 } else if (yold == ynew && xold == xnew) { 971 code = OK; 972 } else { 973 974 /* 975 * Most work here is rounding for terminal boundaries getting the 976 * column position implied by wraparound or the lack thereof and 977 * rolling up the screen to get ynew on the screen. 978 */ 979 if (xnew >= screen_columns(SP_PARM)) { 980 ynew += xnew / screen_columns(SP_PARM); 981 xnew %= screen_columns(SP_PARM); 982 } 983 984 /* 985 * Force restore even if msgr is on when we're in an alternate 986 * character set -- these have a strong tendency to screw up the CR & 987 * LF used for local character motions! 988 */ 989 oldattr = SCREEN_ATTRS(SP_PARM); 990 if ((AttrOf(oldattr) & A_ALTCHARSET) 991 || (AttrOf(oldattr) && !move_standout_mode)) { 992 TR(TRACE_CHARPUT, ("turning off (%#lx) %s before move", 993 (unsigned long) AttrOf(oldattr), 994 _traceattr(AttrOf(oldattr)))); 995 VIDPUTS(SP_PARM, A_NORMAL, 0); 996 } 997 998 if (xold >= screen_columns(SP_PARM)) { 999 1000 int l = (xold + 1) / screen_columns(SP_PARM); 1001 1002 yold += l; 1003 if (yold >= screen_lines(SP_PARM)) 1004 l -= (yold - screen_lines(SP_PARM) - 1); 1005 1006 if (l > 0) { 1007 if (carriage_return) { 1008 NCURSES_PUTP2("carriage_return", carriage_return); 1009 } else { 1010 myOutCh(NCURSES_SP_ARGx '\r'); 1011 } 1012 xold = 0; 1013 1014 while (l > 0) { 1015 if (newline) { 1016 NCURSES_PUTP2("newline", newline); 1017 } else { 1018 myOutCh(NCURSES_SP_ARGx '\n'); 1019 } 1020 l--; 1021 } 1022 } 1023 } 1024 1025 if (yold > screen_lines(SP_PARM) - 1) 1026 yold = screen_lines(SP_PARM) - 1; 1027 if (ynew > screen_lines(SP_PARM) - 1) 1028 ynew = screen_lines(SP_PARM) - 1; 1029 1030 /* destination location is on screen now */ 1031 code = onscreen_mvcur(NCURSES_SP_ARGx yold, xold, ynew, xnew, ovw, myOutCh); 1032 1033 /* 1034 * Restore attributes if we disabled them before moving. 1035 */ 1036 if (!SameAttrOf(oldattr, SCREEN_ATTRS(SP_PARM))) { 1037 TR(TRACE_CHARPUT, ("turning on (%#lx) %s after move", 1038 (unsigned long) AttrOf(oldattr), 1039 _traceattr(AttrOf(oldattr)))); 1040 VIDPUTS(SP_PARM, AttrOf(oldattr), GetPair(oldattr)); 1041 } 1042 } 1043 returnCode(code); 1044 } 1045 1046 /* 1047 * These entrypoints are used within the library. 1048 */ 1049 NCURSES_EXPORT(int) 1050 NCURSES_SP_NAME(_nc_mvcur) (NCURSES_SP_DCLx 1051 int yold, int xold, 1052 int ynew, int xnew) 1053 { 1054 int rc; 1055 rc = _nc_real_mvcur(NCURSES_SP_ARGx yold, xold, ynew, xnew, 1056 NCURSES_SP_NAME(_nc_outch), 1057 TRUE); 1058 /* 1059 * With the terminal-driver, we cannot distinguish between internal and 1060 * external calls. Flush the output if the screen has not been 1061 * initialized, e.g., when used from low-level terminfo programs. 1062 */ 1063 if ((SP_PARM != 0) && (SP_PARM->_endwin == ewInitial)) 1064 NCURSES_SP_NAME(_nc_flush) (NCURSES_SP_ARG); 1065 return rc; 1066 } 1067 1068 #if NCURSES_SP_FUNCS 1069 NCURSES_EXPORT(int) 1070 _nc_mvcur(int yold, int xold, 1071 int ynew, int xnew) 1072 { 1073 return NCURSES_SP_NAME(_nc_mvcur) (CURRENT_SCREEN, yold, xold, ynew, xnew); 1074 } 1075 #endif 1076 1077 #if defined(USE_TERM_DRIVER) 1078 /* 1079 * The terminal driver does not support the external "mvcur()". 1080 */ 1081 NCURSES_EXPORT(int) 1082 TINFO_MVCUR(NCURSES_SP_DCLx int yold, int xold, int ynew, int xnew) 1083 { 1084 int rc; 1085 rc = _nc_real_mvcur(NCURSES_SP_ARGx 1086 yold, xold, 1087 ynew, xnew, 1088 NCURSES_SP_NAME(_nc_outch), 1089 TRUE); 1090 if ((SP_PARM != 0) && (SP_PARM->_endwin == ewInitial)) 1091 NCURSES_SP_NAME(_nc_flush) (NCURSES_SP_ARG); 1092 NCURSES_SP_NAME(_nc_flush) (NCURSES_SP_ARG); 1093 return rc; 1094 } 1095 1096 #else /* !USE_TERM_DRIVER */ 1097 1098 /* 1099 * These entrypoints support users of the library. 1100 */ 1101 NCURSES_EXPORT(int) 1102 NCURSES_SP_NAME(mvcur) (NCURSES_SP_DCLx int yold, int xold, int ynew, 1103 int xnew) 1104 { 1105 return _nc_real_mvcur(NCURSES_SP_ARGx 1106 yold, xold, 1107 ynew, xnew, 1108 NCURSES_SP_NAME(_nc_putchar), 1109 FALSE); 1110 } 1111 1112 #if NCURSES_SP_FUNCS 1113 NCURSES_EXPORT(int) 1114 mvcur(int yold, int xold, int ynew, int xnew) 1115 { 1116 return NCURSES_SP_NAME(mvcur) (CURRENT_SCREEN, yold, xold, ynew, xnew); 1117 } 1118 #endif 1119 #endif /* USE_TERM_DRIVER */ 1120 1121 #if defined(TRACE) || defined(NCURSES_TEST) 1122 NCURSES_EXPORT_VAR(int) _nc_optimize_enable = OPTIMIZE_ALL; 1123 #endif 1124 1125 #if defined(MAIN) || defined(NCURSES_TEST) 1126 /**************************************************************************** 1127 * 1128 * Movement optimizer test code 1129 * 1130 ****************************************************************************/ 1131 1132 #include <tic.h> 1133 #include <dump_entry.h> 1134 #include <time.h> 1135 1136 NCURSES_EXPORT_VAR(const char *) _nc_progname = "mvcur"; 1137 1138 static unsigned long xmits; 1139 1140 /* these override lib_tputs.c */ 1141 NCURSES_EXPORT(int) 1142 tputs(const char *string, int affcnt GCC_UNUSED, int (*outc) (int) GCC_UNUSED) 1143 /* stub tputs() that dumps sequences in a visible form */ 1144 { 1145 if (profiling) 1146 xmits += strlen(string); 1147 else 1148 (void) fputs(_nc_visbuf(string), stdout); 1149 return (OK); 1150 } 1151 1152 NCURSES_EXPORT(int) 1153 putp(const char *string) 1154 { 1155 return (tputs(string, 1, _nc_outch)); 1156 } 1157 1158 NCURSES_EXPORT(int) 1159 _nc_outch(int ch) 1160 { 1161 putc(ch, stdout); 1162 return OK; 1163 } 1164 1165 NCURSES_EXPORT(int) 1166 delay_output(int ms GCC_UNUSED) 1167 { 1168 return OK; 1169 } 1170 1171 static char tname[PATH_MAX]; 1172 1173 static void 1174 load_term(void) 1175 { 1176 (void) setupterm(tname, STDOUT_FILENO, NULL); 1177 } 1178 1179 static int 1180 roll(int n) 1181 { 1182 int i, j; 1183 1184 i = (RAND_MAX / n) * n; 1185 while ((j = rand()) >= i) 1186 continue; 1187 return (j % n); 1188 } 1189 1190 int 1191 main(int argc GCC_UNUSED, char *argv[]GCC_UNUSED) 1192 { 1193 _nc_STRCPY(tname, getenv("TERM"), sizeof(tname)); 1194 load_term(); 1195 _nc_setupscreen(lines, columns, stdout, FALSE, 0); 1196 baudrate(); 1197 1198 _nc_mvcur_init(); 1199 1200 (void) puts("The mvcur tester. Type ? for help"); 1201 1202 fputs("smcup:", stdout); 1203 putchar('\n'); 1204 1205 for (;;) { 1206 int fy, fx, ty, tx, n, i; 1207 char buf[BUFSIZ], capname[BUFSIZ]; 1208 1209 if (fputs("> ", stdout) == EOF) 1210 break; 1211 if (fgets(buf, sizeof(buf), stdin) == 0) 1212 break; 1213 1214 #define PUTS(s) (void) puts(s) 1215 #define PUTF(s,t) (void) printf(s,t) 1216 if (buf[0] == '?') { 1217 PUTS("? -- display this help message"); 1218 PUTS("fy fx ty tx -- (4 numbers) display (fy,fx)->(ty,tx) move"); 1219 PUTS("s[croll] n t b m -- display scrolling sequence"); 1220 PUTF("r[eload] -- reload terminal info for %s\n", 1221 termname()); 1222 PUTS("l[oad] <term> -- load terminal info for type <term>"); 1223 PUTS("d[elete] <cap> -- delete named capability"); 1224 PUTS("i[nspect] -- display terminal capabilities"); 1225 PUTS("c[ost] -- dump cursor-optimization cost table"); 1226 PUTS("o[optimize] -- toggle movement optimization"); 1227 PUTS("t[orture] <num> -- torture-test with <num> random moves"); 1228 PUTS("q[uit] -- quit the program"); 1229 } else if (sscanf(buf, "%d %d %d %d", &fy, &fx, &ty, &tx) == 4) { 1230 struct timeval before, after; 1231 1232 putchar('"'); 1233 1234 gettimeofday(&before, NULL); 1235 mvcur(fy, fx, ty, tx); 1236 gettimeofday(&after, NULL); 1237 1238 printf("\" (%ld msec)\n", 1239 (long) (after.tv_usec - before.tv_usec 1240 + (after.tv_sec - before.tv_sec) 1241 * 1000000)); 1242 } else if (sscanf(buf, "s %d %d %d %d", &fy, &fx, &ty, &tx) == 4) { 1243 struct timeval before, after; 1244 1245 putchar('"'); 1246 1247 gettimeofday(&before, NULL); 1248 _nc_scrolln(fy, fx, ty, tx); 1249 gettimeofday(&after, NULL); 1250 1251 printf("\" (%ld msec)\n", 1252 (long) (after.tv_usec - before.tv_usec + (after.tv_sec - 1253 before.tv_sec) 1254 * 1000000)); 1255 } else if (buf[0] == 'r') { 1256 _nc_STRCPY(tname, termname(), sizeof(tname)); 1257 load_term(); 1258 } else if (sscanf(buf, "l %s", tname) == 1) { 1259 load_term(); 1260 } else if (sscanf(buf, "d %s", capname) == 1) { 1261 struct name_table_entry const *np = _nc_find_entry(capname, 1262 _nc_get_hash_table(FALSE)); 1263 1264 if (np == NULL) 1265 (void) printf("No such capability as \"%s\"\n", capname); 1266 else { 1267 switch (np->nte_type) { 1268 case BOOLEAN: 1269 cur_term->type.Booleans[np->nte_index] = FALSE; 1270 (void) 1271 printf("Boolean capability `%s' (%d) turned off.\n", 1272 np->nte_name, np->nte_index); 1273 break; 1274 1275 case NUMBER: 1276 cur_term->type.Numbers[np->nte_index] = ABSENT_NUMERIC; 1277 (void) printf("Number capability `%s' (%d) set to -1.\n", 1278 np->nte_name, np->nte_index); 1279 break; 1280 1281 case STRING: 1282 cur_term->type.Strings[np->nte_index] = ABSENT_STRING; 1283 (void) printf("String capability `%s' (%d) deleted.\n", 1284 np->nte_name, np->nte_index); 1285 break; 1286 } 1287 } 1288 } else if (buf[0] == 'i') { 1289 dump_init(NULL, F_TERMINFO, S_TERMINFO, 1290 FALSE, 70, 0, 0, FALSE, FALSE, 0); 1291 dump_entry(&TerminalType(cur_term), FALSE, TRUE, 0, 0); 1292 putchar('\n'); 1293 } else if (buf[0] == 'o') { 1294 if (_nc_optimize_enable & OPTIMIZE_MVCUR) { 1295 _nc_optimize_enable &= ~OPTIMIZE_MVCUR; 1296 (void) puts("Optimization is now off."); 1297 } else { 1298 _nc_optimize_enable |= OPTIMIZE_MVCUR; 1299 (void) puts("Optimization is now on."); 1300 } 1301 } 1302 /* 1303 * You can use the `t' test to profile and tune the movement 1304 * optimizer. Use iteration values in three digits or more. 1305 * At above 5000 iterations the profile timing averages are stable 1306 * to within a millisecond or three. 1307 * 1308 * The `overhead' field of the report will help you pick a 1309 * COMPUTE_OVERHEAD figure appropriate for your processor and 1310 * expected line speed. The `total estimated time' is 1311 * computation time plus a character-transmission time 1312 * estimate computed from the number of transmits and the baud 1313 * rate. 1314 * 1315 * Use this together with the `o' command to get a read on the 1316 * optimizer's effectiveness. Compare the total estimated times 1317 * for `t' runs of the same length in both optimized and un-optimized 1318 * modes. As long as the optimized times are less, the optimizer 1319 * is winning. 1320 */ 1321 else if (sscanf(buf, "t %d", &n) == 1) { 1322 float cumtime = 0.0, perchar; 1323 int speeds[] = 1324 {2400, 9600, 14400, 19200, 28800, 38400, 0}; 1325 1326 srand((unsigned) (getpid() + time((time_t *) 0))); 1327 profiling = TRUE; 1328 xmits = 0; 1329 for (i = 0; i < n; i++) { 1330 /* 1331 * This does a move test between two random locations, 1332 * Random moves probably short-change the optimizer, 1333 * which will work better on the short moves probably 1334 * typical of doupdate()'s usage pattern. Still, 1335 * until we have better data... 1336 */ 1337 #ifdef FIND_COREDUMP 1338 int from_y = roll(lines); 1339 int to_y = roll(lines); 1340 int from_x = roll(columns); 1341 int to_x = roll(columns); 1342 1343 printf("(%d,%d) -> (%d,%d)\n", from_y, from_x, to_y, to_x); 1344 mvcur(from_y, from_x, to_y, to_x); 1345 #else 1346 mvcur(roll(lines), roll(columns), roll(lines), roll(columns)); 1347 #endif /* FIND_COREDUMP */ 1348 if (diff) 1349 cumtime += diff; 1350 } 1351 profiling = FALSE; 1352 1353 /* 1354 * Average milliseconds per character optimization time. 1355 * This is the key figure to watch when tuning the optimizer. 1356 */ 1357 perchar = cumtime / n; 1358 1359 (void) printf("%d moves (%ld chars) in %d msec, %f msec each:\n", 1360 n, xmits, (int) cumtime, perchar); 1361 1362 for (i = 0; speeds[i]; i++) { 1363 /* 1364 * Total estimated time for the moves, computation and 1365 * transmission both. Transmission time is an estimate 1366 * assuming 9 bits/char, 8 bits + 1 stop bit. 1367 */ 1368 float totalest = cumtime + xmits * 9 * 1e6 / speeds[i]; 1369 1370 /* 1371 * Per-character optimization overhead in character transmits 1372 * at the current speed. Round this to the nearest integer 1373 * to figure COMPUTE_OVERHEAD for the speed. 1374 */ 1375 float overhead = speeds[i] * perchar / 1e6; 1376 1377 (void) 1378 printf("%6d bps: %3.2f char-xmits overhead; total estimated time %15.2f\n", 1379 speeds[i], overhead, totalest); 1380 } 1381 } else if (buf[0] == 'c') { 1382 (void) printf("char padding: %d\n", CURRENT_SCREEN->_char_padding); 1383 (void) printf("cr cost: %d\n", CURRENT_SCREEN->_cr_cost); 1384 (void) printf("cup cost: %d\n", CURRENT_SCREEN->_cup_cost); 1385 (void) printf("home cost: %d\n", CURRENT_SCREEN->_home_cost); 1386 (void) printf("ll cost: %d\n", CURRENT_SCREEN->_ll_cost); 1387 #if USE_HARD_TABS 1388 (void) printf("ht cost: %d\n", CURRENT_SCREEN->_ht_cost); 1389 (void) printf("cbt cost: %d\n", CURRENT_SCREEN->_cbt_cost); 1390 #endif /* USE_HARD_TABS */ 1391 (void) printf("cub1 cost: %d\n", CURRENT_SCREEN->_cub1_cost); 1392 (void) printf("cuf1 cost: %d\n", CURRENT_SCREEN->_cuf1_cost); 1393 (void) printf("cud1 cost: %d\n", CURRENT_SCREEN->_cud1_cost); 1394 (void) printf("cuu1 cost: %d\n", CURRENT_SCREEN->_cuu1_cost); 1395 (void) printf("cub cost: %d\n", CURRENT_SCREEN->_cub_cost); 1396 (void) printf("cuf cost: %d\n", CURRENT_SCREEN->_cuf_cost); 1397 (void) printf("cud cost: %d\n", CURRENT_SCREEN->_cud_cost); 1398 (void) printf("cuu cost: %d\n", CURRENT_SCREEN->_cuu_cost); 1399 (void) printf("hpa cost: %d\n", CURRENT_SCREEN->_hpa_cost); 1400 (void) printf("vpa cost: %d\n", CURRENT_SCREEN->_vpa_cost); 1401 } else if (buf[0] == 'x' || buf[0] == 'q') 1402 break; 1403 else 1404 (void) puts("Invalid command."); 1405 } 1406 1407 (void) fputs("rmcup:", stdout); 1408 _nc_mvcur_wrap(); 1409 putchar('\n'); 1410 1411 return (0); 1412 } 1413 1414 #endif /* MAIN */ 1415 1416 /* lib_mvcur.c ends here */ 1417