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(Fforward_comment): Use type int for `from' and `from_byte'.
[emacs.git] / src / cm.c
blobdd25c112630779dfe5405062c2ba55799905c200
1 /* Cursor motion subroutines for GNU Emacs.
2 Copyright (C) 1985, 1995, 2002, 2003, 2004,
3 2005, 2006 Free Software Foundation, Inc.
4 based primarily on public domain code written by Chris Torek
5
6 This file is part of GNU Emacs.
7
8 GNU Emacs is free software; you can redistribute it and/or modify
9 it under the terms of the GNU General Public License as published by
10 the Free Software Foundation; either version 2, or (at your option)
11 any later version.
12
13 GNU Emacs is distributed in the hope that it will be useful,
14 but WITHOUT ANY WARRANTY; without even the implied warranty of
15 MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
16 GNU General Public License for more details.
17
18 You should have received a copy of the GNU General Public License
19 along with GNU Emacs; see the file COPYING. If not, write to
20 the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor,
21 Boston, MA 02110-1301, USA. */
22
23
24 #include <config.h>
25 #include <stdio.h>
26 #include "cm.h"
27 #include "termhooks.h"
28
29 /* For now, don't try to include termcap.h. On some systems,
30 configure finds a non-standard termcap.h that the main build
31 won't find. */
32
33 #if defined HAVE_TERMCAP_H && 0
34 #include <termcap.h>
35 #else
36 extern void tputs P_ ((const char *, int, int (*)(int)));
37 extern char *tgoto P_ ((const char *, int, int));
38 #endif
39
40 #define BIG 9999 /* 9999 good on VAXen. For 16 bit machines
41 use about 2000.... */
42
43 extern char *BC, *UP;
44
45 int cost; /* sums up costs */
46
47 /* ARGSUSED */
48 int
49 evalcost (c)
50 char c;
51 {
52 cost++;
53 return c;
54 }
55
56 int
57 cmputc (c)
58 char c;
59 {
60 if (termscript)
61 fputc (c & 0177, termscript);
62 putchar (c & 0177);
63 return c;
64 }
65
66 /* NEXT TWO ARE DONE WITH MACROS */
67 #if 0
68 /*
69 * Assume the cursor is at row row, column col. Normally used only after
70 * clearing the screen, when the cursor is at (0, 0), but what the heck,
71 * let's let the guy put it anywhere.
72 */
73
74 static
75 at (row, col) {
76 curY = row;
77 curX = col;
78 }
79
80 /*
81 * Add n columns to the current cursor position.
82 */
83
84 static
85 addcol (n) {
86 curX += n;
87
88 /*
89 * If cursor hit edge of screen, what happened?
90 * N.B.: DO NOT!! write past edge of screen. If you do, you
91 * deserve what you get. Furthermore, on terminals with
92 * autowrap (but not magicwrap), don't write in the last column
93 * of the last line.
94 */
95
96 if (curX == Wcm.cm_cols) {
97 /*
98 * Well, if magicwrap, still there, past the edge of the
99 * screen (!). If autowrap, on the col 0 of the next line.
100 * Otherwise on last column.
101 */
102
103 if (Wcm.cm_magicwrap)
104 ; /* "limbo" */
105 else if (Wcm.cm_autowrap) {
106 curX = 0;
107 curY++; /* Beware end of screen! */
108 }
109 else
110 curX--;
111 }
112 }
113 #endif
114
115 /*
116 * Terminals with magicwrap (xn) don't all behave identically.
117 * The VT100 leaves the cursor in the last column but will wrap before
118 * printing the next character. I hear that the Concept terminal does
119 * the wrap immediately but ignores the next newline it sees. And some
120 * terminals just have buggy firmware, and think that the cursor is still
121 * in limbo if we use direct cursor addressing from the phantom column.
122 * The only guaranteed safe thing to do is to emit a CRLF immediately
123 * after we reach the last column; this takes us to a known state.
124 */
125 void
126 cmcheckmagic ()
127 {
128 if (curX == FrameCols)
129 {
130 if (!MagicWrap || curY >= FrameRows - 1)
131 abort ();
132 if (termscript)
133 putc ('\r', termscript);
134 putchar ('\r');
135 if (termscript)
136 putc ('\n', termscript);
137 putchar ('\n');
138 curX = 0;
139 curY++;
140 }
141 }
142
143
144 /*
145 * (Re)Initialize the cost factors, given the output speed of the terminal
146 * in the variable ospeed. (Note: this holds B300, B9600, etc -- ie stuff
147 * out of <sgtty.h>.)
148 */
149
150 void
151 cmcostinit ()
152 {
153 char *p;
154
155 #define COST(x,e) (x ? (cost = 0, tputs (x, 1, e), cost) : BIG)
156 #define CMCOST(x,e) ((x == 0) ? BIG : (p = tgoto(x, 0, 0), COST(p ,e)))
157
158 Wcm.cc_up = COST (Wcm.cm_up, evalcost);
159 Wcm.cc_down = COST (Wcm.cm_down, evalcost);
160 Wcm.cc_left = COST (Wcm.cm_left, evalcost);
161 Wcm.cc_right = COST (Wcm.cm_right, evalcost);
162 Wcm.cc_home = COST (Wcm.cm_home, evalcost);
163 Wcm.cc_cr = COST (Wcm.cm_cr, evalcost);
164 Wcm.cc_ll = COST (Wcm.cm_ll, evalcost);
165 Wcm.cc_tab = Wcm.cm_tabwidth ? COST (Wcm.cm_tab, evalcost) : BIG;
166
167 /*
168 * These last three are actually minimum costs. When (if) they are
169 * candidates for the least-cost motion, the real cost is computed.
170 * (Note that "0" is the assumed to generate the minimum cost.
171 * While this is not necessarily true, I have yet to see a terminal
172 * for which is not; all the terminals that have variable-cost
173 * cursor motion seem to take straight numeric values. --ACT)
174 */
175
176 Wcm.cc_abs = CMCOST (Wcm.cm_abs, evalcost);
177 Wcm.cc_habs = CMCOST (Wcm.cm_habs, evalcost);
178 Wcm.cc_vabs = CMCOST (Wcm.cm_vabs, evalcost);
179
180 #undef CMCOST
181 #undef COST
182 }
183
184 /*
185 * Calculate the cost to move from (srcy, srcx) to (dsty, dstx) using
186 * up and down, and left and right, motions, and tabs. If doit is set
187 * actually perform the motion.
188 */
189
190 static int
191 calccost (srcy, srcx, dsty, dstx, doit)
192 int srcy, srcx, dsty, dstx, doit;
193 {
194 register int deltay,
195 deltax,
196 c,
197 totalcost;
198 int ntabs,
199 n2tabs,
200 tabx,
201 tab2x,
202 tabcost;
203 register char *p;
204
205 /* If have just wrapped on a terminal with xn,
206 don't believe the cursor position: give up here
207 and force use of absolute positioning. */
208
209 if (curX == Wcm.cm_cols)
210 goto fail;
211
212 totalcost = 0;
213 if ((deltay = dsty - srcy) == 0)
214 goto x;
215 if (deltay < 0)
216 p = Wcm.cm_up, c = Wcm.cc_up, deltay = -deltay;
217 else
218 p = Wcm.cm_down, c = Wcm.cc_down;
219 if (c == BIG) { /* caint get thar from here */
220 if (doit)
221 printf ("OOPS");
222 return c;
223 }
224 totalcost = c * deltay;
225 if (doit)
226 while (--deltay >= 0)
227 tputs (p, 1, cmputc);
228 x:
229 if ((deltax = dstx - srcx) == 0)
230 goto done;
231 if (deltax < 0) {
232 p = Wcm.cm_left, c = Wcm.cc_left, deltax = -deltax;
233 goto dodelta; /* skip all the tab junk */
234 }
235 /* Tabs (the toughie) */
236 if (Wcm.cc_tab >= BIG || !Wcm.cm_usetabs)
237 goto olddelta; /* forget it! */
238
239 /*
240 * ntabs is # tabs towards but not past dstx; n2tabs is one more
241 * (ie past dstx), but this is only valid if that is not past the
242 * right edge of the screen. We can check that at the same time
243 * as we figure out where we would be if we use the tabs (which
244 * we will put into tabx (for ntabs) and tab2x (for n2tabs)).
245 */
246
247 ntabs = (deltax + srcx % Wcm.cm_tabwidth) / Wcm.cm_tabwidth;
248 n2tabs = ntabs + 1;
249 tabx = (srcx / Wcm.cm_tabwidth + ntabs) * Wcm.cm_tabwidth;
250 tab2x = tabx + Wcm.cm_tabwidth;
251
252 if (tab2x >= Wcm.cm_cols) /* too far (past edge) */
253 n2tabs = 0;
254
255 /*
256 * Now set tabcost to the cost for using ntabs, and c to the cost
257 * for using n2tabs, then pick the minimum.
258 */
259
260 /* cost for ntabs + cost for right motion */
261 tabcost = ntabs ? ntabs * Wcm.cc_tab + (dstx - tabx) * Wcm.cc_right
262 : BIG;
263
264 /* cost for n2tabs + cost for left motion */
265 c = n2tabs ? n2tabs * Wcm.cc_tab + (tab2x - dstx) * Wcm.cc_left
266 : BIG;
267
268 if (c < tabcost) /* then cheaper to overshoot & back up */
269 ntabs = n2tabs, tabcost = c, tabx = tab2x;
270
271 if (tabcost >= BIG) /* caint use tabs */
272 goto newdelta;
273
274 /*
275 * See if tabcost is less than just moving right
276 */
277
278 if (tabcost < (deltax * Wcm.cc_right)) {
279 totalcost += tabcost; /* use the tabs */
280 if (doit)
281 while (--ntabs >= 0)
282 tputs (Wcm.cm_tab, 1, cmputc);
283 srcx = tabx;
284 }
285
286 /*
287 * Now might as well just recompute the delta.
288 */
289
290 newdelta:
291 if ((deltax = dstx - srcx) == 0)
292 goto done;
293 olddelta:
294 if (deltax > 0)
295 p = Wcm.cm_right, c = Wcm.cc_right;
296 else
297 p = Wcm.cm_left, c = Wcm.cc_left, deltax = -deltax;
298
299 dodelta:
300 if (c == BIG) { /* caint get thar from here */
301 fail:
302 if (doit)
303 printf ("OOPS");
304 return BIG;
305 }
306 totalcost += c * deltax;
307 if (doit)
308 while (--deltax >= 0)
309 tputs (p, 1, cmputc);
310 done:
311 return totalcost;
312 }
313
314 #if 0
315 losecursor ()
316 {
317 curY = -1;
318 }
319 #endif
320
321 #define USEREL 0
322 #define USEHOME 1
323 #define USELL 2
324 #define USECR 3
325
326 void
327 cmgoto (row, col)
328 int row, col;
329 {
330 int homecost,
331 crcost,
332 llcost,
333 relcost,
334 directcost;
335 int use;
336 char *p,
337 *dcm;
338
339 /* First the degenerate case */
340 if (row == curY && col == curX) /* already there */
341 return;
342
343 if (curY >= 0 && curX >= 0)
344 {
345 /* We may have quick ways to go to the upper-left, bottom-left,
346 * start-of-line, or start-of-next-line. Or it might be best to
347 * start where we are. Examine the options, and pick the cheapest.
348 */
349
350 relcost = calccost (curY, curX, row, col, 0);
351 use = USEREL;
352 if ((homecost = Wcm.cc_home) < BIG)
353 homecost += calccost (0, 0, row, col, 0);
354 if (homecost < relcost)
355 relcost = homecost, use = USEHOME;
356 if ((llcost = Wcm.cc_ll) < BIG)
357 llcost += calccost (Wcm.cm_rows - 1, 0, row, col, 0);
358 if (llcost < relcost)
359 relcost = llcost, use = USELL;
360 if ((crcost = Wcm.cc_cr) < BIG) {
361 if (Wcm.cm_autolf)
362 if (curY + 1 >= Wcm.cm_rows)
363 crcost = BIG;
364 else
365 crcost += calccost (curY + 1, 0, row, col, 0);
366 else
367 crcost += calccost (curY, 0, row, col, 0);
368 }
369 if (crcost < relcost)
370 relcost = crcost, use = USECR;
371 directcost = Wcm.cc_abs, dcm = Wcm.cm_abs;
372 if (row == curY && Wcm.cc_habs < BIG)
373 directcost = Wcm.cc_habs, dcm = Wcm.cm_habs;
374 else if (col == curX && Wcm.cc_vabs < BIG)
375 directcost = Wcm.cc_vabs, dcm = Wcm.cm_vabs;
376 }
377 else
378 {
379 directcost = 0, relcost = 100000;
380 dcm = Wcm.cm_abs;
381 }
382
383 /*
384 * In the following comparison, the = in <= is because when the costs
385 * are the same, it looks nicer (I think) to move directly there.
386 */
387 if (directcost <= relcost)
388 {
389 /* compute REAL direct cost */
390 cost = 0;
391 p = dcm == Wcm.cm_habs ? tgoto (dcm, row, col) :
392 tgoto (dcm, col, row);
393 tputs (p, 1, evalcost);
394 if (cost <= relcost)
395 { /* really is cheaper */
396 tputs (p, 1, cmputc);
397 curY = row, curX = col;
398 return;
399 }
400 }
401
402 switch (use)
403 {
404 case USEHOME:
405 tputs (Wcm.cm_home, 1, cmputc);
406 curY = 0, curX = 0;
407 break;
408
409 case USELL:
410 tputs (Wcm.cm_ll, 1, cmputc);
411 curY = Wcm.cm_rows - 1, curX = 0;
412 break;
413
414 case USECR:
415 tputs (Wcm.cm_cr, 1, cmputc);
416 if (Wcm.cm_autolf)
417 curY++;
418 curX = 0;
419 break;
420 }
421
422 (void) calccost (curY, curX, row, col, 1);
423 curY = row, curX = col;
424 }
425
426 /* Clear out all terminal info.
427 Used before copying into it the info on the actual terminal.
428 */
429
430 void
431 Wcm_clear ()
432 {
433 bzero (&Wcm, sizeof Wcm);
434 UP = 0;
435 BC = 0;
436 }
437
438 /*
439 * Initialized stuff
440 * Return 0 if can do CM.
441 * Return -1 if cannot.
442 * Return -2 if size not specified.
443 */
444
445 int
446 Wcm_init ()
447 {
448 #if 0
449 if (Wcm.cm_abs && !Wcm.cm_ds)
450 return 0;
451 #endif
452 if (Wcm.cm_abs)
453 return 0;
454 /* Require up and left, and, if no absolute, down and right */
455 if (!Wcm.cm_up || !Wcm.cm_left)
456 return - 1;
457 if (!Wcm.cm_abs && (!Wcm.cm_down || !Wcm.cm_right))
458 return - 1;
459 /* Check that we know the size of the screen.... */
460 if (Wcm.cm_rows <= 0 || Wcm.cm_cols <= 0)
461 return - 2;
462 return 0;
463 }
464
465 /* arch-tag: bcf64c02-00f6-44ef-94b6-c56eab5b3dc4
466 (do not change this comment) */
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