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Comparing rxvt-unicode/src/screen.C (file contents):
Revision 1.389 by root, Fri Jul 8 00:23:22 2011 UTC vs.
Revision 1.415 by root, Mon May 28 14:25:16 2012 UTC

98 98
99/* Fill part/all of a line with blanks. */ 99/* Fill part/all of a line with blanks. */
100void 100void
101rxvt_term::scr_blank_line (line_t &l, unsigned int col, unsigned int width, rend_t efs) const NOTHROW 101rxvt_term::scr_blank_line (line_t &l, unsigned int col, unsigned int width, rend_t efs) const NOTHROW
102{ 102{
103 if (!l.t) 103 if (!l.valid ())
104 { 104 {
105 lalloc (l); 105 l.alloc ();
106 col = 0; 106 col = 0;
107 width = ncol; 107 width = ncol;
108 } 108 }
109 109
110 l.touch (); 110 l.touch ();
157/* ------------------------------------------------------------------------- * 157/* ------------------------------------------------------------------------- *
158 * SCREEN INITIALISATION * 158 * SCREEN INITIALISATION *
159 * ------------------------------------------------------------------------- */ 159 * ------------------------------------------------------------------------- */
160 160
161void 161void
162rxvt_term::scr_alloc ()
163{
164 int tsize = sizeof (text_t) * ncol;
165 int rsize = sizeof (rend_t) * ncol;
166
167 // we assume that rend_t size is a sufficient alignment
168 // factor for tetx_t and line_t values, and we only
169 // need to adjust tsize.
170 tsize = (tsize + sizeof (rend_t) - 1);
171 tsize -= tsize % sizeof (rend_t);
172
173 int all_rows = total_rows + nrow + nrow;
174
175 chunk_size = (sizeof (line_t) + rsize + tsize) * all_rows;
176 chunk = rxvt_malloc (chunk_size);
177
178 char *base = (char *)chunk + sizeof (line_t) * all_rows;
179
180 for (int row = 0; row < all_rows; ++row)
181 {
182 line_t &l = ((line_t *)chunk) [row];
183
184 l.t = (text_t *)base; base += tsize;
185 l.r = (rend_t *)base; base += rsize;
186 l.l = -1;
187 l.f = 0;
188 }
189
190 drawn_buf = (line_t *)chunk;
191 swap_buf = drawn_buf + nrow;
192 row_buf = swap_buf + nrow;
193}
194
195void
162rxvt_term::scr_reset () 196rxvt_term::scr_reset ()
163{ 197{
164#if ENABLE_OVERLAY 198#if ENABLE_OVERLAY
165 scr_overlay_off (); 199 scr_overlay_off ();
166#endif 200#endif
192 total_rows = nrow + saveLines; 226 total_rows = nrow + saveLines;
193 227
194 screen.tscroll = 0; 228 screen.tscroll = 0;
195 screen.bscroll = nrow - 1; 229 screen.bscroll = nrow - 1;
196 230
231 void *prev_chunk = chunk;
232 line_t *prev_drawn_buf = drawn_buf;
233 line_t *prev_swap_buf = swap_buf;
234 line_t *prev_row_buf = row_buf;
235
236 int common_col = min (prev_ncol, ncol);
237
238 scr_alloc ();
239
197 if (!row_buf) 240 if (!prev_row_buf)
198 { 241 {
199 /* 242 /*
200 * first time called so just malloc everything: don't rely on realloc 243 * first time called so just malloc everything: don't rely on realloc
201 */ 244 */
202 top_row = 0; 245 top_row = 0;
203 term_start = 0; 246 term_start = 0;
204
205 talloc = new rxvt_salloc (ncol * sizeof (text_t));
206 ralloc = new rxvt_salloc (ncol * sizeof (rend_t));
207
208 row_buf = (line_t *)rxvt_calloc (total_rows + nrow, sizeof (line_t));
209 drawn_buf = (line_t *)rxvt_calloc (nrow , sizeof (line_t));
210 swap_buf = (line_t *)rxvt_calloc (nrow , sizeof (line_t));
211
212 for (int row = nrow; row--; )
213 {
214 scr_blank_screen_mem (ROW (row), DEFAULT_RSTYLE);
215 scr_blank_screen_mem (swap_buf [row], DEFAULT_RSTYLE);
216 scr_blank_screen_mem (drawn_buf[row], DEFAULT_RSTYLE);
217 }
218 247
219 memset (charsets, 'B', sizeof (charsets)); 248 memset (charsets, 'B', sizeof (charsets));
220 rstyle = DEFAULT_RSTYLE; 249 rstyle = DEFAULT_RSTYLE;
221 screen.flags = Screen_DefaultFlags; 250 screen.flags = Screen_DefaultFlags;
222 screen.cur.row = screen.cur.col = 0; 251 screen.cur.row = screen.cur.col = 0;
245 { 274 {
246 /* 275 /*
247 * add or delete rows as appropriate 276 * add or delete rows as appropriate
248 */ 277 */
249 278
250 rxvt_salloc *old_ta = talloc; talloc = new rxvt_salloc (ncol * sizeof (text_t));
251 rxvt_salloc *old_ra = ralloc; ralloc = new rxvt_salloc (ncol * sizeof (rend_t));
252
253#if 0
254 if (nrow < prev_nrow)
255 {
256 for (int row = nrow; row < prev_nrow; row++)
257 {
258 lfree (swap_buf [row]);
259 lfree (drawn_buf[row]);
260 }
261 }
262#endif
263
264 drawn_buf = (line_t *)rxvt_realloc (drawn_buf, nrow * sizeof (line_t));
265 swap_buf = (line_t *)rxvt_realloc (swap_buf , nrow * sizeof (line_t));
266
267 for (int row = min (nrow, prev_nrow); row--; ) 279 for (int row = min (nrow, prev_nrow); row--; )
268 { 280 {
269 lresize (drawn_buf[row]); 281 scr_blank_screen_mem (drawn_buf [row], DEFAULT_RSTYLE);
270 lresize (swap_buf [row]); 282 scr_blank_screen_mem (swap_buf [row], DEFAULT_RSTYLE);
271 }
272 283
273 for (int row = prev_nrow; row < nrow; row++) 284 memcpy (drawn_buf [row].t, prev_drawn_buf [row].t, sizeof (text_t) * common_col);
285 memcpy (drawn_buf [row].r, prev_drawn_buf [row].r, sizeof (rend_t) * common_col);
286 memcpy (swap_buf [row].t, prev_swap_buf [row].t, sizeof (text_t) * common_col);
287 memcpy (swap_buf [row].r, prev_swap_buf [row].r, sizeof (rend_t) * common_col);
274 { 288 }
275 swap_buf [row].clear (); scr_blank_screen_mem (swap_buf [row], DEFAULT_RSTYLE);
276 drawn_buf[row].clear (); scr_blank_screen_mem (drawn_buf[row], DEFAULT_RSTYLE);
277 }
278
279 line_t *old_buf = row_buf;
280 row_buf = (line_t *)rxvt_calloc (total_rows + nrow, sizeof (line_t));
281 289
282 int p = MOD (term_start + prev_nrow, prev_total_rows); // previous row 290 int p = MOD (term_start + prev_nrow, prev_total_rows); // previous row
283 int pend = MOD (term_start + top_row , prev_total_rows); 291 int pend = MOD (term_start + top_row , prev_total_rows);
284 int q = total_rows; // rewrapped row 292 int q = total_rows; // rewrapped row
285 293
293 ocur.row = MOD (term_start + ocur.row, prev_total_rows); 301 ocur.row = MOD (term_start + ocur.row, prev_total_rows);
294 302
295 do 303 do
296 { 304 {
297 p = MOD (p - 1, prev_total_rows); 305 p = MOD (p - 1, prev_total_rows);
298 assert (old_buf [MOD (p, prev_total_rows)].t); 306 assert (prev_row_buf [MOD (p, prev_total_rows)].t);
299 int plines = 1; 307 int plines = 1;
300 int llen = old_buf [MOD (p, prev_total_rows)].l; 308 int llen = prev_row_buf [MOD (p, prev_total_rows)].l;
301 309
302 while (p != pend && old_buf [MOD (p - 1, prev_total_rows)].is_longer ()) 310 while (p != pend && prev_row_buf [MOD (p - 1, prev_total_rows)].is_longer ())
303 { 311 {
304 p = MOD (p - 1, prev_total_rows); 312 p = MOD (p - 1, prev_total_rows);
305 313
306 plines++; 314 plines++;
307 llen += prev_ncol; 315 llen += prev_ncol;
320 328
321 // re-assemble the full line by destination lines 329 // re-assemble the full line by destination lines
322 for (int qrow = q; qlines--; qrow++) 330 for (int qrow = q; qlines--; qrow++)
323 { 331 {
324 qline = row_buf + qrow; 332 qline = row_buf + qrow;
325 lalloc (*qline); 333 qline->alloc (); // redundant with next line
326 qline->l = ncol; 334 qline->l = ncol;
327 qline->is_longer (1); 335 qline->is_longer (1);
328 336
329 int qcol = 0; 337 int qcol = 0;
330 338
345 // this seems to upset applications/shells/readline 353 // this seems to upset applications/shells/readline
346 // least. 354 // least.
347 if (prow == ocur.row) 355 if (prow == ocur.row)
348 screen.cur.row = q - (total_rows - nrow); 356 screen.cur.row = q - (total_rows - nrow);
349 357
350 line_t &pline = old_buf [prow]; 358 line_t &pline = prev_row_buf [prow];
351 359
352 int len = min (min (prev_ncol - pcol, ncol - qcol), llen - lofs); 360 int len = min (min (prev_ncol - pcol, ncol - qcol), llen - lofs);
353 361
354 memcpy (qline->t + qcol, pline.t + pcol, len * sizeof (text_t)); 362 memcpy (qline->t + qcol, pline.t + pcol, len * sizeof (text_t));
355 memcpy (qline->r + qcol, pline.r + pcol, len * sizeof (rend_t)); 363 memcpy (qline->r + qcol, pline.r + pcol, len * sizeof (rend_t));
376 { 384 {
377 // if no scrollback exists (yet), wing, instead of wrap 385 // if no scrollback exists (yet), wing, instead of wrap
378 386
379 for (int row = min (nrow, prev_nrow); row--; ) 387 for (int row = min (nrow, prev_nrow); row--; )
380 { 388 {
381 line_t &pline = old_buf [MOD (term_start + row, prev_total_rows)]; 389 line_t &src = prev_row_buf [MOD (term_start + row, prev_total_rows)];
382 line_t &qline = row_buf [row]; 390 line_t &dst = row_buf [row];
383 391
384 qline = pline; 392 scr_blank_screen_mem (dst, DEFAULT_RSTYLE);
385 lresize (qline); 393
394 memcpy (dst.t, src.t, sizeof (text_t) * common_col);
395 memcpy (dst.r, src.r, sizeof (rend_t) * common_col);
386 } 396 }
387 397
388 for (int row = prev_nrow; row < nrow; row++) 398 for (int row = prev_nrow; row < nrow; row++)
389 {
390 row_buf [row].clear (); scr_blank_screen_mem (row_buf [row], DEFAULT_RSTYLE); 399 scr_blank_screen_mem (row_buf [row], DEFAULT_RSTYLE);
391 }
392 400
393 term_start = 0; 401 term_start = 0;
394 } 402 }
395
396 free (old_buf);
397 delete old_ta;
398 delete old_ra;
399 403
400 clamp_it (screen.cur.row, 0, nrow - 1); 404 clamp_it (screen.cur.row, 0, nrow - 1);
401 clamp_it (screen.cur.col, 0, ncol - 1); 405 clamp_it (screen.cur.col, 0, ncol - 1);
402 } 406 }
403 407
408 for (int row = nrow; row--; )
409 {
410 if (!ROW (row).valid ()) scr_blank_screen_mem (ROW (row), DEFAULT_RSTYLE);
411 if (!swap_buf [row].valid ()) scr_blank_screen_mem (swap_buf [row], DEFAULT_RSTYLE);
412 if (!drawn_buf [row].valid ()) scr_blank_screen_mem (drawn_buf [row], DEFAULT_RSTYLE);
413 }
414
415 free (prev_chunk);
416
404 free (tabs); 417 free (tabs);
405 tabs = (char *)rxvt_malloc (ncol); 418 tabs = (char *)rxvt_malloc (ncol);
406 419
407 for (int col = ncol; col--; ) 420 for (int col = ncol; col--; )
408 tabs [col] = col % TABSIZE == 0; 421 tabs [col] = col % TABSIZE == 0;
422 * Free everything. That way malloc debugging can find leakage. 435 * Free everything. That way malloc debugging can find leakage.
423 */ 436 */
424void 437void
425rxvt_term::scr_release () NOTHROW 438rxvt_term::scr_release () NOTHROW
426{ 439{
427 if (row_buf) 440 free (chunk);
428 {
429 delete talloc; talloc = 0;
430 delete ralloc; ralloc = 0;
431
432 free (row_buf);
433 free (swap_buf);
434 free (drawn_buf);
435 row_buf = 0; // signal that we freed all the arrays above
436
437 free (tabs); 441 free (tabs);
438 tabs = 0;
439 }
440} 442}
441 443
442/* ------------------------------------------------------------------------- */ 444/* ------------------------------------------------------------------------- */
443/* 445/*
444 * Hard/Soft reset 446 * Hard/Soft reset
445 */ 447 */
446void 448void
447rxvt_term::scr_poweron () 449rxvt_term::scr_poweron ()
448{ 450{
449 scr_release (); 451 scr_release ();
452
453 row_buf = 0;
454 tabs = 0;
450 prev_nrow = prev_ncol = 0; 455 prev_nrow = prev_ncol = 0;
451 rvideo_mode = false; 456 rvideo_mode = false;
452 scr_soft_reset (); 457 scr_soft_reset ();
453 scr_reset (); 458 scr_reset ();
454 459
455 scr_clear (true); 460 scr_clear (true);
456 scr_refresh (); 461 scr_refresh ();
457} 462}
458 463
459void 464void
460rxvt_term::scr_soft_reset () 465rxvt_term::scr_soft_reset () NOTHROW
461{ 466{
462 /* only affects modes, nothing drastic such as clearing the screen */ 467 /* only affects modes, nothing drastic such as clearing the screen */
463#if ENABLE_OVERLAY 468#if ENABLE_OVERLAY
464 scr_overlay_off (); 469 scr_overlay_off ();
465#endif 470#endif
520 assert (s->cur.row >= 0); 525 assert (s->cur.row >= 0);
521 assert (s->cur.col >= 0); 526 assert (s->cur.col >= 0);
522} 527}
523 528
524void 529void
525rxvt_term::scr_swap_screen () 530rxvt_term::scr_swap_screen () NOTHROW
526{ 531{
527 if (!option (Opt_secondaryScreen)) 532 if (!option (Opt_secondaryScreen))
528 return; 533 return;
529 534
530 for (int i = prev_nrow; i--; ) 535 for (int i = prev_nrow; i--; )
549 return; 554 return;
550 555
551 want_refresh = 1; 556 want_refresh = 1;
552 view_start = 0; 557 view_start = 0;
553 558
554 selection_check (2); /* check for boundary cross */ 559 /* check for boundary cross */
560 row_col_t pos;
561 pos.row = pos.col = 0;
562 if (ROWCOL_IS_BEFORE (selection.beg, pos)
563 && ROWCOL_IS_AFTER (selection.end, pos))
564 CLEAR_SELECTION ();
555 565
556 current_screen = scrn; 566 current_screen = scrn;
557 567
558#if NSCREENS 568#if NSCREENS
559 if (option (Opt_secondaryScreen)) 569 if (option (Opt_secondaryScreen))
644 654
645 top_row = max (top_row - count, -saveLines); 655 top_row = max (top_row - count, -saveLines);
646 656
647 // sever bottommost line 657 // sever bottommost line
648 { 658 {
649 line_t &l = ROW(row2 - 1); 659 line_t &l = ROW(row2);
650 l.is_longer (0); 660 l.is_longer (0);
651 l.touch (); 661 l.touch ();
652 } 662 }
653 663
654 // scroll everything up 'count' lines 664 // scroll everything up 'count' lines
682 else 692 else
683 scr_blank_screen_mem (l, rstyle); 693 scr_blank_screen_mem (l, rstyle);
684 } 694 }
685 695
686 // move and/or clear selection, if any 696 // move and/or clear selection, if any
687 if (selection.op && current_screen == selection.screen) 697 if (selection.op && current_screen == selection.screen
698 && selection.beg.row <= row2)
688 { 699 {
689 selection.beg.row -= count; 700 selection.beg.row -= count;
690 selection.end.row -= count; 701 selection.end.row -= count;
691 selection.mark.row -= count; 702 selection.mark.row -= count;
692 703
693 if (selection.beg.row < top_row 704 selection_check (0);
694 || selection.end.row < top_row
695 || selection.mark.row < top_row)
696 {
697 CLEAR_ALL_SELECTION ();
698 selection.op = SELECTION_CLEAR;
699 }
700 } 705 }
701 706
702 // finally move the view window, if desired 707 // finally move the view window, if desired
703 if (option (Opt_scrollWithBuffer) 708 if (option (Opt_scrollWithBuffer)
704 && view_start != 0 709 && view_start != 0
746 751
747 int rows = row2 - row1 + 1; 752 int rows = row2 - row1 + 1;
748 753
749 min_it (count, rows); 754 min_it (count, rows);
750 755
751 line_t *temp_buf = row_buf + total_rows; 756 line_t *temp_buf = rxvt_temp_buf<line_t> (rows);
752 757
753 for (int row = 0; row < rows; row++) 758 for (int row = 0; row < rows; row++)
754 { 759 {
755 temp_buf [row] = ROW(row1 + (row + count + rows) % rows); 760 temp_buf [row] = ROW(row1 + (row + count + rows) % rows);
756 761
761 for (int row = 0; row < rows; row++) 766 for (int row = 0; row < rows; row++)
762 ROW(row1 + row) = temp_buf [row]; 767 ROW(row1 + row) = temp_buf [row];
763 768
764 // sever bottommost line 769 // sever bottommost line
765 { 770 {
766 line_t &l = ROW(row2 - 1); 771 line_t &l = ROW(row2);
767 l.is_longer (0); 772 l.is_longer (0);
768 l.touch (); 773 l.touch ();
769 } 774 }
770
771 } 775 }
772 776
773 return count; 777 return count;
774} 778}
775 779
781rxvt_term::scr_add_lines (const wchar_t *str, int len, int minlines) NOTHROW 785rxvt_term::scr_add_lines (const wchar_t *str, int len, int minlines) NOTHROW
782{ 786{
783 if (len <= 0) /* sanity */ 787 if (len <= 0) /* sanity */
784 return; 788 return;
785 789
786 unsigned char checksel; 790 bool checksel;
787 unicode_t c; 791 unicode_t c;
788 int ncol = this->ncol; 792 int ncol = this->ncol;
789 const wchar_t *strend = str + len; 793 const wchar_t *strend = str + len;
790 794
791 want_refresh = 1; 795 want_refresh = 1;
1313 scr_blank_line (line, col, num, rstyle); 1317 scr_blank_line (line, col, num, rstyle);
1314} 1318}
1315 1319
1316/* ------------------------------------------------------------------------- */ 1320/* ------------------------------------------------------------------------- */
1317/* 1321/*
1318 * Erase part of whole of the screen 1322 * Erase part or whole of the screen
1319 * XTERM_SEQ: Clear screen after cursor : ESC [ 0 J 1323 * XTERM_SEQ: Clear screen after cursor : ESC [ 0 J
1320 * XTERM_SEQ: Clear screen before cursor: ESC [ 1 J 1324 * XTERM_SEQ: Clear screen before cursor: ESC [ 1 J
1321 * XTERM_SEQ: Clear whole screen : ESC [ 2 J 1325 * XTERM_SEQ: Clear whole screen : ESC [ 2 J
1322 */ 1326 */
1323void 1327void
1332 ZERO_SCROLLBACK (); 1336 ZERO_SCROLLBACK ();
1333 1337
1334 switch (mode) 1338 switch (mode)
1335 { 1339 {
1336 case 0: /* erase to end of screen */ 1340 case 0: /* erase to end of screen */
1337 selection_check (1);
1338 scr_erase_line (0); 1341 scr_erase_line (0);
1339 row = screen.cur.row + 1; /* possible OOB */ 1342 row = screen.cur.row + 1; /* possible OOB */
1340 num = nrow - row; 1343 num = nrow - row;
1341 break; 1344 break;
1342 case 1: /* erase to beginning of screen */ 1345 case 1: /* erase to beginning of screen */
1343 selection_check (3);
1344 scr_erase_line (1); 1346 scr_erase_line (1);
1345 row = 0; 1347 row = 0;
1346 num = screen.cur.row; 1348 num = screen.cur.row;
1347 break; 1349 break;
1348 case 2: /* erase whole screen */ 1350 case 2: /* erase whole screen */
1349 selection_check (3);
1350 row = 0; 1351 row = 0;
1351 num = nrow; 1352 num = nrow;
1352 break; 1353 break;
1353 default: 1354 default:
1354 return; 1355 return;
1371 { 1372 {
1372 ren = DEFAULT_RSTYLE; 1373 ren = DEFAULT_RSTYLE;
1373 1374
1374 if (mapped) 1375 if (mapped)
1375 XClearArea (dpy, vt, 0, 1376 XClearArea (dpy, vt, 0,
1376 Row2Pixel (row - view_start), (unsigned int)width, 1377 Row2Pixel (row - view_start), (unsigned int)vt_width,
1377 (unsigned int)Height2Pixel (num), False); 1378 (unsigned int)Height2Pixel (num), False);
1378 } 1379 }
1379 else 1380 else
1380 { 1381 {
1381 ren = rstyle & (RS_fgMask | RS_bgMask); 1382 ren = rstyle & (RS_fgMask | RS_bgMask);
1384 { 1385 {
1385 gcvalue.foreground = pix_colors[bgcolor_of (rstyle)]; 1386 gcvalue.foreground = pix_colors[bgcolor_of (rstyle)];
1386 XChangeGC (dpy, gc, GCForeground, &gcvalue); 1387 XChangeGC (dpy, gc, GCForeground, &gcvalue);
1387 XFillRectangle (dpy, vt, gc, 1388 XFillRectangle (dpy, vt, gc,
1388 0, Row2Pixel (row - view_start), 1389 0, Row2Pixel (row - view_start),
1389 (unsigned int)width, 1390 (unsigned int)vt_width,
1390 (unsigned int)Height2Pixel (num)); 1391 (unsigned int)Height2Pixel (num));
1391 gcvalue.foreground = pix_colors[Color_fg]; 1392 gcvalue.foreground = pix_colors[Color_fg];
1392 XChangeGC (dpy, gc, GCForeground, &gcvalue); 1393 XChangeGC (dpy, gc, GCForeground, &gcvalue);
1393 } 1394 }
1394 } 1395 }
1425 1426
1426 want_refresh = 1; 1427 want_refresh = 1;
1427 ZERO_SCROLLBACK (); 1428 ZERO_SCROLLBACK ();
1428 1429
1429 num_scr_allow = 0; 1430 num_scr_allow = 0;
1430 selection_check (3); 1431
1432 row_col_t pos;
1433 pos.row = pos.col = 0;
1434 if (ROWCOL_IS_AFTER (selection.end, pos))
1435 CLEAR_SELECTION ();
1431 1436
1432 fs = SET_FONT (rstyle, FONTSET (rstyle)->find_font ('E')); 1437 fs = SET_FONT (rstyle, FONTSET (rstyle)->find_font ('E'));
1433 for (int row = nrow; row--; ) 1438 for (int row = nrow; row--; )
1434 { 1439 {
1435 line_t &line = ROW(row); 1440 line_t &line = ROW(row);
1876 * Refresh the entire screen 1881 * Refresh the entire screen
1877 */ 1882 */
1878void 1883void
1879rxvt_term::scr_touch (bool refresh) NOTHROW 1884rxvt_term::scr_touch (bool refresh) NOTHROW
1880{ 1885{
1881 scr_expose (0, 0, width, height, refresh); 1886 scr_expose (0, 0, vt_width, vt_height, refresh);
1882} 1887}
1883 1888
1884/* ------------------------------------------------------------------------- */ 1889/* ------------------------------------------------------------------------- */
1885/* 1890/*
1886 * Move the display so that the line represented by scrollbar value Y is at 1891 * Move the display so that the line represented by scrollbar value Y is at
2048 * A: set up vars 2053 * A: set up vars
2049 */ 2054 */
2050 refresh_count = 0; 2055 refresh_count = 0;
2051 2056
2052 unsigned int old_screen_flags = screen.flags; 2057 unsigned int old_screen_flags = screen.flags;
2053 char have_bg = 0; 2058 bool have_bg = 0;
2054#ifdef HAVE_BG_PIXMAP 2059#ifdef HAVE_BG_PIXMAP
2055 have_bg = bg_pixmap != None; 2060 have_bg = bg_pixmap != None;
2056#endif 2061#endif
2057 ocrow = oldcursor.row; /* is there an old outline cursor on screen? */ 2062 ocrow = oldcursor.row; /* is there an old outline cursor on screen? */
2058 2063
2064 HOOK_INVOKE ((this, HOOK_REFRESH_BEGIN, DT_END)); 2069 HOOK_INVOKE ((this, HOOK_REFRESH_BEGIN, DT_END));
2065#if ENABLE_OVERLAY 2070#if ENABLE_OVERLAY
2066 scr_swap_overlay (); 2071 scr_swap_overlay ();
2067#endif 2072#endif
2068 2073
2069 char showcursor = screen.flags & Screen_VisibleCursor; 2074 bool showcursor = screen.flags & Screen_VisibleCursor;
2070 2075
2071 /* 2076 /*
2072 * C: set the cursor character (s) 2077 * C: set the cursor character (s)
2073 */ 2078 */
2074 { 2079 {
2075 unsigned char setoldcursor; 2080 bool setoldcursor;
2076 2081
2077#ifdef CURSOR_BLINK 2082#ifdef CURSOR_BLINK
2078 if (hidden_cursor) 2083 if (hidden_cursor)
2079 showcursor = 0; 2084 showcursor = 0;
2080#endif 2085#endif
2167 { 2172 {
2168 int16_t nits; 2173 int16_t nits;
2169 int i = num_scr; 2174 int i = num_scr;
2170 int j; 2175 int j;
2171 int len, wlen; 2176 int len, wlen;
2172 dLocal (int, num_scr);
2173 2177
2174 j = nrow; 2178 j = nrow;
2175 wlen = len = -1; 2179 wlen = len = -1;
2176 row = i > 0 ? 0 : j - 1; 2180 row = i > 0 ? 0 : j - 1;
2177 2181
2482 2486
2483 XDrawRectangle (dpy, vt, gc, 2487 XDrawRectangle (dpy, vt, gc,
2484 Col2Pixel (col), 2488 Col2Pixel (col),
2485 Row2Pixel (oldcursor.row), 2489 Row2Pixel (oldcursor.row),
2486 (unsigned int) (Width2Pixel (cursorwidth) - 1), 2490 (unsigned int) (Width2Pixel (cursorwidth) - 1),
2487 (unsigned int) (Height2Pixel (1) - lineSpace - 1)); 2491 (unsigned int) (Height2Pixel (1) - 1));
2488 } 2492 }
2489 } 2493 }
2490 2494
2491 /* 2495 /*
2492 * H: cleanup selection 2496 * H: cleanup selection
2504} 2508}
2505 2509
2506void 2510void
2507rxvt_term::scr_remap_chars (line_t &l) NOTHROW 2511rxvt_term::scr_remap_chars (line_t &l) NOTHROW
2508{ 2512{
2509 if (!l.t) 2513 if (!l.valid ())
2510 return; 2514 return;
2511 2515
2512 l.touch (); // maybe a bit of an overkill, but it's not performance-relevant 2516 l.touch (); // maybe a bit of an overkill, but it's not performance-relevant
2513 2517
2514 for (int i = ncol; i--; ) 2518 for (int i = ncol; i--; )
2564 { 2568 {
2565 if (transparent) 2569 if (transparent)
2566 XSetWindowBackgroundPixmap (dpy, scrollBar.win, ParentRelative); 2570 XSetWindowBackgroundPixmap (dpy, scrollBar.win, ParentRelative);
2567 else 2571 else
2568 XSetWindowBackground (dpy, scrollBar.win, pix_colors[Color_border]); 2572 XSetWindowBackground (dpy, scrollBar.win, pix_colors[Color_border]);
2569 scrollBar.state = STATE_IDLE; 2573 scrollBar.state = SB_STATE_IDLE;
2570 scrollBar.show (0); 2574 scrollBar.show (0);
2571 } 2575 }
2572 2576
2573 if (refresh) 2577 if (refresh)
2574 { 2578 {
2668 */ 2672 */
2669#if 0 2673#if 0
2670void 2674void
2671rxvt_term::scr_dump (int fd) NOTHROW 2675rxvt_term::scr_dump (int fd) NOTHROW
2672{ 2676{
2673 int row, wrote; 2677 // if this method is needed, it can be implemented by factoring the
2674 unsigned int width, towrite; 2678 // relevant code in scr_printscreen
2675 const char r1[] = "\n";
2676
2677 for (row = saveLines + top_row;
2678 row < saveLines + nrow - 1; row++)
2679 {
2680 width = row_buf[row].l >= 0 ? row_buf[row].l
2681 : ncol;
2682 for (towrite = width; towrite; towrite -= wrote)
2683 {
2684 wrote = write (fd, & (row_buf[row].t[width - towrite]),
2685 towrite);
2686 if (wrote < 0)
2687 return; /* XXX: death, no report */
2688 }
2689 if (row_buf[row].l >= 0)
2690 if (write (fd, r1, 1) <= 0)
2691 return; /* XXX: death, no report */
2692 }
2693} 2679}
2694#endif 2680#endif
2695 2681
2696/* ------------------------------------------------------------------------- * 2682/* ------------------------------------------------------------------------- *
2697 * CHARACTER SELECTION * 2683 * CHARACTER SELECTION *
2698 * ------------------------------------------------------------------------- */ 2684 * ------------------------------------------------------------------------- */
2699void 2685void
2700rxvt_term::selection_check (int check_more) NOTHROW 2686rxvt_term::selection_check (int check_more) NOTHROW
2701{ 2687{
2702 row_col_t pos;
2703
2704 if (!selection.op) 2688 if (!selection.op)
2705 return; 2689 return;
2706 2690
2707 pos.row = pos.col = 0;
2708 if (!IN_RANGE_EXC (selection.beg.row, top_row, nrow) 2691 if (!IN_RANGE_EXC (selection.beg.row, top_row, nrow)
2709 || !IN_RANGE_EXC (selection.mark.row, top_row, nrow) 2692 || !IN_RANGE_EXC (selection.mark.row, top_row, nrow)
2710 || !IN_RANGE_EXC (selection.end.row, top_row, nrow) 2693 || !IN_RANGE_EXC (selection.end.row, top_row, nrow)
2711 || (check_more == 1 2694 || (check_more == 1
2712 && current_screen == selection.screen 2695 && current_screen == selection.screen
2713 && !ROWCOL_IS_BEFORE (screen.cur, selection.beg) 2696 && !ROWCOL_IS_BEFORE (screen.cur, selection.beg)
2714 && ROWCOL_IS_BEFORE (screen.cur, selection.end)) 2697 && ROWCOL_IS_BEFORE (screen.cur, selection.end)))
2715 || (check_more == 2
2716 && ROWCOL_IS_BEFORE (selection.beg, pos)
2717 && ROWCOL_IS_AFTER (selection.end, pos))
2718 || (check_more == 3
2719 && ROWCOL_IS_AFTER (selection.end, pos))
2720 || (check_more == 4 /* screen width change */
2721 && (selection.beg.row != selection.end.row
2722 || selection.end.col > ncol)))
2723 CLEAR_SELECTION (); 2698 CLEAR_ALL_SELECTION ();
2724} 2699}
2725 2700
2726/* ------------------------------------------------------------------------- */ 2701/* ------------------------------------------------------------------------- */
2727/* 2702/*
2728 * Paste a selection direct to the command fd 2703 * Paste a selection direct to the command fd
2734 for (unsigned int i = 0; i < len; i++) 2709 for (unsigned int i = 0; i < len; i++)
2735 if (data[i] == C0_LF) 2710 if (data[i] == C0_LF)
2736 data[i] = C0_CR; 2711 data[i] = C0_CR;
2737 2712
2738 if (priv_modes & PrivMode_BracketPaste) 2713 if (priv_modes & PrivMode_BracketPaste)
2739 tt_printf ("\e[200~"); 2714 tt_printf ("\x1b[200~");
2740 2715
2741 tt_write (data, len); 2716 tt_write (data, len);
2742 2717
2743 if (priv_modes & PrivMode_BracketPaste) 2718 if (priv_modes & PrivMode_BracketPaste)
2744 tt_printf ("\e[201~"); 2719 tt_printf ("\x1b[201~");
2745} 2720}
2746 2721
2747void 2722void
2748rxvt_term::paste (char *data, unsigned int len) NOTHROW 2723rxvt_term::paste (char *data, unsigned int len) NOTHROW
2749{ 2724{

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