| 1 | /* Updating of data structures for redisplay. |
| 2 | Copyright (C) 1985, 1986, 1987, 1988, 1993, 1994, 1995, |
| 3 | 1997, 1998, 1999, 2000, 2001, 2002, 2003, |
| 4 | 2004, 2005, 2006 Free Software Foundation, Inc. |
| 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 | #include <config.h> |
| 24 | #include <signal.h> |
| 25 | #include <stdio.h> |
| 26 | #include <ctype.h> |
| 27 | |
| 28 | #ifdef HAVE_UNISTD_H |
| 29 | #include <unistd.h> |
| 30 | #endif |
| 31 | |
| 32 | #include "lisp.h" |
| 33 | #include "termchar.h" |
| 34 | #include "termopts.h" |
| 35 | #include "termhooks.h" |
| 36 | /* cm.h must come after dispextern.h on Windows. */ |
| 37 | #include "dispextern.h" |
| 38 | #include "cm.h" |
| 39 | #include "buffer.h" |
| 40 | #include "charset.h" |
| 41 | #include "keyboard.h" |
| 42 | #include "frame.h" |
| 43 | #include "window.h" |
| 44 | #include "commands.h" |
| 45 | #include "disptab.h" |
| 46 | #include "indent.h" |
| 47 | #include "intervals.h" |
| 48 | #include "blockinput.h" |
| 49 | #include "process.h" |
| 50 | |
| 51 | /* I don't know why DEC Alpha OSF1 fail to compile this file if we |
| 52 | include the following file. */ |
| 53 | /* #include "systty.h" */ |
| 54 | #include "syssignal.h" |
| 55 | |
| 56 | #ifdef HAVE_X_WINDOWS |
| 57 | #include "xterm.h" |
| 58 | #endif /* HAVE_X_WINDOWS */ |
| 59 | |
| 60 | #ifdef HAVE_NTGUI |
| 61 | #include "w32term.h" |
| 62 | #endif /* HAVE_NTGUI */ |
| 63 | |
| 64 | #ifdef MAC_OS |
| 65 | #include "macterm.h" |
| 66 | #endif /* MAC_OS */ |
| 67 | |
| 68 | /* Include systime.h after xterm.h to avoid double inclusion of time.h. */ |
| 69 | |
| 70 | #include "systime.h" |
| 71 | #include <errno.h> |
| 72 | |
| 73 | /* To get the prototype for `sleep'. */ |
| 74 | |
| 75 | #ifdef HAVE_UNISTD_H |
| 76 | #include <unistd.h> |
| 77 | #endif |
| 78 | |
| 79 | /* Get number of chars of output now in the buffer of a stdio stream. |
| 80 | This ought to be built in in stdio, but it isn't. Some s- files |
| 81 | override this because their stdio internals differ. */ |
| 82 | |
| 83 | #ifdef __GNU_LIBRARY__ |
| 84 | |
| 85 | /* The s- file might have overridden the definition with one that |
| 86 | works for the system's C library. But we are using the GNU C |
| 87 | library, so this is the right definition for every system. */ |
| 88 | |
| 89 | #ifdef GNU_LIBRARY_PENDING_OUTPUT_COUNT |
| 90 | #define PENDING_OUTPUT_COUNT GNU_LIBRARY_PENDING_OUTPUT_COUNT |
| 91 | #else |
| 92 | #undef PENDING_OUTPUT_COUNT |
| 93 | #define PENDING_OUTPUT_COUNT(FILE) ((FILE)->__bufp - (FILE)->__buffer) |
| 94 | #endif |
| 95 | #else /* not __GNU_LIBRARY__ */ |
| 96 | #if !defined (PENDING_OUTPUT_COUNT) && HAVE_STDIO_EXT_H && HAVE___FPENDING |
| 97 | #include <stdio_ext.h> |
| 98 | #define PENDING_OUTPUT_COUNT(FILE) __fpending (FILE) |
| 99 | #endif |
| 100 | #ifndef PENDING_OUTPUT_COUNT |
| 101 | #define PENDING_OUTPUT_COUNT(FILE) ((FILE)->_ptr - (FILE)->_base) |
| 102 | #endif |
| 103 | #endif /* not __GNU_LIBRARY__ */ |
| 104 | |
| 105 | #if defined(HAVE_TERM_H) && defined (GNU_LINUX) && defined (HAVE_LIBNCURSES) |
| 106 | #include <term.h> /* for tgetent */ |
| 107 | #endif |
| 108 | \f |
| 109 | /* Structure to pass dimensions around. Used for character bounding |
| 110 | boxes, glyph matrix dimensions and alike. */ |
| 111 | |
| 112 | struct dim |
| 113 | { |
| 114 | int width; |
| 115 | int height; |
| 116 | }; |
| 117 | |
| 118 | \f |
| 119 | /* Function prototypes. */ |
| 120 | |
| 121 | static struct glyph_matrix *save_current_matrix P_ ((struct frame *)); |
| 122 | static void restore_current_matrix P_ ((struct frame *, struct glyph_matrix *)); |
| 123 | static void fake_current_matrices P_ ((Lisp_Object)); |
| 124 | static void redraw_overlapping_rows P_ ((struct window *, int)); |
| 125 | static void redraw_overlapped_rows P_ ((struct window *, int)); |
| 126 | static int count_blanks P_ ((struct glyph *, int)); |
| 127 | static int count_match P_ ((struct glyph *, struct glyph *, |
| 128 | struct glyph *, struct glyph *)); |
| 129 | static unsigned line_draw_cost P_ ((struct glyph_matrix *, int)); |
| 130 | static void update_frame_line P_ ((struct frame *, int)); |
| 131 | static struct dim allocate_matrices_for_frame_redisplay |
| 132 | P_ ((Lisp_Object, int, int, int, int *)); |
| 133 | static void allocate_matrices_for_window_redisplay P_ ((struct window *)); |
| 134 | static int realloc_glyph_pool P_ ((struct glyph_pool *, struct dim)); |
| 135 | static void adjust_frame_glyphs P_ ((struct frame *)); |
| 136 | struct glyph_matrix *new_glyph_matrix P_ ((struct glyph_pool *)); |
| 137 | static void free_glyph_matrix P_ ((struct glyph_matrix *)); |
| 138 | static void adjust_glyph_matrix P_ ((struct window *, struct glyph_matrix *, |
| 139 | int, int, struct dim)); |
| 140 | static void change_frame_size_1 P_ ((struct frame *, int, int, int, int, int)); |
| 141 | static void swap_glyph_pointers P_ ((struct glyph_row *, struct glyph_row *)); |
| 142 | #if GLYPH_DEBUG |
| 143 | static int glyph_row_slice_p P_ ((struct glyph_row *, struct glyph_row *)); |
| 144 | #endif |
| 145 | static void fill_up_frame_row_with_spaces P_ ((struct glyph_row *, int)); |
| 146 | static void build_frame_matrix_from_window_tree P_ ((struct glyph_matrix *, |
| 147 | struct window *)); |
| 148 | static void build_frame_matrix_from_leaf_window P_ ((struct glyph_matrix *, |
| 149 | struct window *)); |
| 150 | static struct glyph_pool *new_glyph_pool P_ ((void)); |
| 151 | static void free_glyph_pool P_ ((struct glyph_pool *)); |
| 152 | static void adjust_frame_glyphs_initially P_ ((void)); |
| 153 | static void adjust_frame_message_buffer P_ ((struct frame *)); |
| 154 | static void adjust_decode_mode_spec_buffer P_ ((struct frame *)); |
| 155 | static void fill_up_glyph_row_with_spaces P_ ((struct glyph_row *)); |
| 156 | static void build_frame_matrix P_ ((struct frame *)); |
| 157 | void clear_current_matrices P_ ((struct frame *)); |
| 158 | void scroll_glyph_matrix_range P_ ((struct glyph_matrix *, int, int, |
| 159 | int, int)); |
| 160 | static void clear_window_matrices P_ ((struct window *, int)); |
| 161 | static void fill_up_glyph_row_area_with_spaces P_ ((struct glyph_row *, int)); |
| 162 | static int scrolling_window P_ ((struct window *, int)); |
| 163 | static int update_window_line P_ ((struct window *, int, int *)); |
| 164 | static void update_marginal_area P_ ((struct window *, int, int)); |
| 165 | static int update_text_area P_ ((struct window *, int)); |
| 166 | static void make_current P_ ((struct glyph_matrix *, struct glyph_matrix *, |
| 167 | int)); |
| 168 | static void mirror_make_current P_ ((struct window *, int)); |
| 169 | void check_window_matrix_pointers P_ ((struct window *)); |
| 170 | #if GLYPH_DEBUG |
| 171 | static void check_matrix_pointers P_ ((struct glyph_matrix *, |
| 172 | struct glyph_matrix *)); |
| 173 | #endif |
| 174 | static void mirror_line_dance P_ ((struct window *, int, int, int *, char *)); |
| 175 | static int update_window_tree P_ ((struct window *, int)); |
| 176 | static int update_window P_ ((struct window *, int)); |
| 177 | static int update_frame_1 P_ ((struct frame *, int, int)); |
| 178 | static void set_window_cursor_after_update P_ ((struct window *)); |
| 179 | static int row_equal_p P_ ((struct window *, struct glyph_row *, |
| 180 | struct glyph_row *, int)); |
| 181 | static void adjust_frame_glyphs_for_window_redisplay P_ ((struct frame *)); |
| 182 | static void adjust_frame_glyphs_for_frame_redisplay P_ ((struct frame *)); |
| 183 | static void reverse_rows P_ ((struct glyph_matrix *, int, int)); |
| 184 | static int margin_glyphs_to_reserve P_ ((struct window *, int, Lisp_Object)); |
| 185 | static void sync_window_with_frame_matrix_rows P_ ((struct window *)); |
| 186 | struct window *frame_row_to_window P_ ((struct window *, int)); |
| 187 | |
| 188 | \f |
| 189 | /* Non-zero means don't pause redisplay for pending input. (This is |
| 190 | for debugging and for a future implementation of EDT-like |
| 191 | scrolling. */ |
| 192 | |
| 193 | int redisplay_dont_pause; |
| 194 | |
| 195 | /* Define PERIODIC_PREEMPTION_CHECKING to 1, if micro-second timers |
| 196 | are supported, so we can check for input during redisplay at |
| 197 | regular intervals. */ |
| 198 | #ifdef EMACS_HAS_USECS |
| 199 | #define PERIODIC_PREEMPTION_CHECKING 1 |
| 200 | #else |
| 201 | #define PERIODIC_PREEMPTION_CHECKING 0 |
| 202 | #endif |
| 203 | |
| 204 | #if PERIODIC_PREEMPTION_CHECKING |
| 205 | |
| 206 | /* If a number (float), check for user input every N seconds. */ |
| 207 | |
| 208 | Lisp_Object Vredisplay_preemption_period; |
| 209 | |
| 210 | /* Redisplay preemption timers. */ |
| 211 | |
| 212 | static EMACS_TIME preemption_period; |
| 213 | static EMACS_TIME preemption_next_check; |
| 214 | |
| 215 | #endif |
| 216 | |
| 217 | /* Nonzero upon entry to redisplay means do not assume anything about |
| 218 | current contents of actual terminal frame; clear and redraw it. */ |
| 219 | |
| 220 | int frame_garbaged; |
| 221 | |
| 222 | /* Nonzero means last display completed. Zero means it was preempted. */ |
| 223 | |
| 224 | int display_completed; |
| 225 | |
| 226 | /* Lisp variable visible-bell; enables use of screen-flash instead of |
| 227 | audible bell. */ |
| 228 | |
| 229 | int visible_bell; |
| 230 | |
| 231 | /* Invert the color of the whole frame, at a low level. */ |
| 232 | |
| 233 | int inverse_video; |
| 234 | |
| 235 | /* Line speed of the terminal. */ |
| 236 | |
| 237 | EMACS_INT baud_rate; |
| 238 | |
| 239 | /* Either nil or a symbol naming the window system under which Emacs |
| 240 | is running. */ |
| 241 | |
| 242 | Lisp_Object Vwindow_system; |
| 243 | |
| 244 | /* Version number of X windows: 10, 11 or nil. */ |
| 245 | |
| 246 | Lisp_Object Vwindow_system_version; |
| 247 | |
| 248 | /* Vector of glyph definitions. Indexed by glyph number, the contents |
| 249 | are a string which is how to output the glyph. |
| 250 | |
| 251 | If Vglyph_table is nil, a glyph is output by using its low 8 bits |
| 252 | as a character code. |
| 253 | |
| 254 | This is an obsolete feature that is no longer used. The variable |
| 255 | is retained for compatibility. */ |
| 256 | |
| 257 | Lisp_Object Vglyph_table; |
| 258 | |
| 259 | /* Display table to use for vectors that don't specify their own. */ |
| 260 | |
| 261 | Lisp_Object Vstandard_display_table; |
| 262 | |
| 263 | /* Nonzero means reading single-character input with prompt so put |
| 264 | cursor on mini-buffer after the prompt. Positive means at end of |
| 265 | text in echo area; negative means at beginning of line. */ |
| 266 | |
| 267 | int cursor_in_echo_area; |
| 268 | |
| 269 | Lisp_Object Qdisplay_table, Qredisplay_dont_pause; |
| 270 | |
| 271 | \f |
| 272 | /* The currently selected frame. In a single-frame version, this |
| 273 | variable always equals the_only_frame. */ |
| 274 | |
| 275 | Lisp_Object selected_frame; |
| 276 | |
| 277 | /* A frame which is not just a mini-buffer, or 0 if there are no such |
| 278 | frames. This is usually the most recent such frame that was |
| 279 | selected. In a single-frame version, this variable always holds |
| 280 | the address of the_only_frame. */ |
| 281 | |
| 282 | struct frame *last_nonminibuf_frame; |
| 283 | |
| 284 | /* Stdio stream being used for copy of all output. */ |
| 285 | |
| 286 | FILE *termscript; |
| 287 | |
| 288 | /* Structure for info on cursor positioning. */ |
| 289 | |
| 290 | struct cm Wcm; |
| 291 | |
| 292 | /* 1 means SIGWINCH happened when not safe. */ |
| 293 | |
| 294 | int delayed_size_change; |
| 295 | |
| 296 | /* 1 means glyph initialization has been completed at startup. */ |
| 297 | |
| 298 | static int glyphs_initialized_initially_p; |
| 299 | |
| 300 | /* Updated window if != 0. Set by update_window. */ |
| 301 | |
| 302 | struct window *updated_window; |
| 303 | |
| 304 | /* Glyph row updated in update_window_line, and area that is updated. */ |
| 305 | |
| 306 | struct glyph_row *updated_row; |
| 307 | int updated_area; |
| 308 | |
| 309 | /* A glyph for a space. */ |
| 310 | |
| 311 | struct glyph space_glyph; |
| 312 | |
| 313 | /* Non-zero means update has been performed directly, so that there's |
| 314 | no need for redisplay_internal to do much work. Set by |
| 315 | direct_output_for_insert. */ |
| 316 | |
| 317 | int redisplay_performed_directly_p; |
| 318 | |
| 319 | /* Counts of allocated structures. These counts serve to diagnose |
| 320 | memory leaks and double frees. */ |
| 321 | |
| 322 | int glyph_matrix_count; |
| 323 | int glyph_pool_count; |
| 324 | |
| 325 | /* If non-null, the frame whose frame matrices are manipulated. If |
| 326 | null, window matrices are worked on. */ |
| 327 | |
| 328 | static struct frame *frame_matrix_frame; |
| 329 | |
| 330 | /* Current interface for window-based redisplay. Set from init_xterm. |
| 331 | A null value means we are not using window-based redisplay. */ |
| 332 | |
| 333 | struct redisplay_interface *rif; |
| 334 | |
| 335 | /* Non-zero means that fonts have been loaded since the last glyph |
| 336 | matrix adjustments. Redisplay must stop, and glyph matrices must |
| 337 | be adjusted when this flag becomes non-zero during display. The |
| 338 | reason fonts can be loaded so late is that fonts of fontsets are |
| 339 | loaded on demand. */ |
| 340 | |
| 341 | int fonts_changed_p; |
| 342 | |
| 343 | /* Convert vpos and hpos from frame to window and vice versa. |
| 344 | This may only be used for terminal frames. */ |
| 345 | |
| 346 | #if GLYPH_DEBUG |
| 347 | |
| 348 | static int window_to_frame_vpos P_ ((struct window *, int)); |
| 349 | static int window_to_frame_hpos P_ ((struct window *, int)); |
| 350 | #define WINDOW_TO_FRAME_VPOS(W, VPOS) window_to_frame_vpos ((W), (VPOS)) |
| 351 | #define WINDOW_TO_FRAME_HPOS(W, HPOS) window_to_frame_hpos ((W), (HPOS)) |
| 352 | |
| 353 | /* One element of the ring buffer containing redisplay history |
| 354 | information. */ |
| 355 | |
| 356 | struct redisplay_history |
| 357 | { |
| 358 | char trace[512 + 100]; |
| 359 | }; |
| 360 | |
| 361 | /* The size of the history buffer. */ |
| 362 | |
| 363 | #define REDISPLAY_HISTORY_SIZE 30 |
| 364 | |
| 365 | /* The redisplay history buffer. */ |
| 366 | |
| 367 | static struct redisplay_history redisplay_history[REDISPLAY_HISTORY_SIZE]; |
| 368 | |
| 369 | /* Next free entry in redisplay_history. */ |
| 370 | |
| 371 | static int history_idx; |
| 372 | |
| 373 | /* A tick that's incremented each time something is added to the |
| 374 | history. */ |
| 375 | |
| 376 | static unsigned history_tick; |
| 377 | |
| 378 | static void add_frame_display_history P_ ((struct frame *, int)); |
| 379 | static void add_window_display_history P_ ((struct window *, char *, int)); |
| 380 | \f |
| 381 | /* Add to the redisplay history how window W has been displayed. |
| 382 | MSG is a trace containing the information how W's glyph matrix |
| 383 | has been constructed. PAUSED_P non-zero means that the update |
| 384 | has been interrupted for pending input. */ |
| 385 | |
| 386 | static void |
| 387 | add_window_display_history (w, msg, paused_p) |
| 388 | struct window *w; |
| 389 | char *msg; |
| 390 | int paused_p; |
| 391 | { |
| 392 | char *buf; |
| 393 | |
| 394 | if (history_idx >= REDISPLAY_HISTORY_SIZE) |
| 395 | history_idx = 0; |
| 396 | buf = redisplay_history[history_idx].trace; |
| 397 | ++history_idx; |
| 398 | |
| 399 | sprintf (buf, "%d: window %p (`%s')%s\n", |
| 400 | history_tick++, |
| 401 | w, |
| 402 | ((BUFFERP (w->buffer) |
| 403 | && STRINGP (XBUFFER (w->buffer)->name)) |
| 404 | ? (char *) SDATA (XBUFFER (w->buffer)->name) |
| 405 | : "???"), |
| 406 | paused_p ? " ***paused***" : ""); |
| 407 | strcat (buf, msg); |
| 408 | } |
| 409 | |
| 410 | |
| 411 | /* Add to the redisplay history that frame F has been displayed. |
| 412 | PAUSED_P non-zero means that the update has been interrupted for |
| 413 | pending input. */ |
| 414 | |
| 415 | static void |
| 416 | add_frame_display_history (f, paused_p) |
| 417 | struct frame *f; |
| 418 | int paused_p; |
| 419 | { |
| 420 | char *buf; |
| 421 | |
| 422 | if (history_idx >= REDISPLAY_HISTORY_SIZE) |
| 423 | history_idx = 0; |
| 424 | buf = redisplay_history[history_idx].trace; |
| 425 | ++history_idx; |
| 426 | |
| 427 | sprintf (buf, "%d: update frame %p%s", |
| 428 | history_tick++, |
| 429 | f, paused_p ? " ***paused***" : ""); |
| 430 | } |
| 431 | |
| 432 | |
| 433 | DEFUN ("dump-redisplay-history", Fdump_redisplay_history, |
| 434 | Sdump_redisplay_history, 0, 0, "", |
| 435 | doc: /* Dump redisplay history to stderr. */) |
| 436 | () |
| 437 | { |
| 438 | int i; |
| 439 | |
| 440 | for (i = history_idx - 1; i != history_idx; --i) |
| 441 | { |
| 442 | if (i < 0) |
| 443 | i = REDISPLAY_HISTORY_SIZE - 1; |
| 444 | fprintf (stderr, "%s\n", redisplay_history[i].trace); |
| 445 | } |
| 446 | |
| 447 | return Qnil; |
| 448 | } |
| 449 | |
| 450 | |
| 451 | #else /* GLYPH_DEBUG == 0 */ |
| 452 | |
| 453 | #define WINDOW_TO_FRAME_VPOS(W, VPOS) ((VPOS) + WINDOW_TOP_EDGE_LINE (W)) |
| 454 | #define WINDOW_TO_FRAME_HPOS(W, HPOS) ((HPOS) + WINDOW_LEFT_EDGE_COL (W)) |
| 455 | |
| 456 | #endif /* GLYPH_DEBUG == 0 */ |
| 457 | |
| 458 | |
| 459 | /* Like bcopy except never gets confused by overlap. Let this be the |
| 460 | first function defined in this file, or change emacs.c where the |
| 461 | address of this function is used. */ |
| 462 | |
| 463 | void |
| 464 | safe_bcopy (from, to, size) |
| 465 | const char *from; |
| 466 | char *to; |
| 467 | int size; |
| 468 | { |
| 469 | if (size <= 0 || from == to) |
| 470 | return; |
| 471 | |
| 472 | /* If the source and destination don't overlap, then bcopy can |
| 473 | handle it. If they do overlap, but the destination is lower in |
| 474 | memory than the source, we'll assume bcopy can handle that. */ |
| 475 | if (to < from || from + size <= to) |
| 476 | bcopy (from, to, size); |
| 477 | |
| 478 | /* Otherwise, we'll copy from the end. */ |
| 479 | else |
| 480 | { |
| 481 | register const char *endf = from + size; |
| 482 | register char *endt = to + size; |
| 483 | |
| 484 | /* If TO - FROM is large, then we should break the copy into |
| 485 | nonoverlapping chunks of TO - FROM bytes each. However, if |
| 486 | TO - FROM is small, then the bcopy function call overhead |
| 487 | makes this not worth it. The crossover point could be about |
| 488 | anywhere. Since I don't think the obvious copy loop is too |
| 489 | bad, I'm trying to err in its favor. */ |
| 490 | if (to - from < 64) |
| 491 | { |
| 492 | do |
| 493 | *--endt = *--endf; |
| 494 | while (endf != from); |
| 495 | } |
| 496 | else |
| 497 | { |
| 498 | for (;;) |
| 499 | { |
| 500 | endt -= (to - from); |
| 501 | endf -= (to - from); |
| 502 | |
| 503 | if (endt < to) |
| 504 | break; |
| 505 | |
| 506 | bcopy (endf, endt, to - from); |
| 507 | } |
| 508 | |
| 509 | /* If SIZE wasn't a multiple of TO - FROM, there will be a |
| 510 | little left over. The amount left over is (endt + (to - |
| 511 | from)) - to, which is endt - from. */ |
| 512 | bcopy (from, to, endt - from); |
| 513 | } |
| 514 | } |
| 515 | } |
| 516 | |
| 517 | |
| 518 | \f |
| 519 | /*********************************************************************** |
| 520 | Glyph Matrices |
| 521 | ***********************************************************************/ |
| 522 | |
| 523 | /* Allocate and return a glyph_matrix structure. POOL is the glyph |
| 524 | pool from which memory for the matrix should be allocated, or null |
| 525 | for window-based redisplay where no glyph pools are used. The |
| 526 | member `pool' of the glyph matrix structure returned is set to |
| 527 | POOL, the structure is otherwise zeroed. */ |
| 528 | |
| 529 | struct glyph_matrix * |
| 530 | new_glyph_matrix (pool) |
| 531 | struct glyph_pool *pool; |
| 532 | { |
| 533 | struct glyph_matrix *result; |
| 534 | |
| 535 | /* Allocate and clear. */ |
| 536 | result = (struct glyph_matrix *) xmalloc (sizeof *result); |
| 537 | bzero (result, sizeof *result); |
| 538 | |
| 539 | /* Increment number of allocated matrices. This count is used |
| 540 | to detect memory leaks. */ |
| 541 | ++glyph_matrix_count; |
| 542 | |
| 543 | /* Set pool and return. */ |
| 544 | result->pool = pool; |
| 545 | return result; |
| 546 | } |
| 547 | |
| 548 | |
| 549 | /* Free glyph matrix MATRIX. Passing in a null MATRIX is allowed. |
| 550 | |
| 551 | The global counter glyph_matrix_count is decremented when a matrix |
| 552 | is freed. If the count gets negative, more structures were freed |
| 553 | than allocated, i.e. one matrix was freed more than once or a bogus |
| 554 | pointer was passed to this function. |
| 555 | |
| 556 | If MATRIX->pool is null, this means that the matrix manages its own |
| 557 | glyph memory---this is done for matrices on X frames. Freeing the |
| 558 | matrix also frees the glyph memory in this case. */ |
| 559 | |
| 560 | static void |
| 561 | free_glyph_matrix (matrix) |
| 562 | struct glyph_matrix *matrix; |
| 563 | { |
| 564 | if (matrix) |
| 565 | { |
| 566 | int i; |
| 567 | |
| 568 | /* Detect the case that more matrices are freed than were |
| 569 | allocated. */ |
| 570 | if (--glyph_matrix_count < 0) |
| 571 | abort (); |
| 572 | |
| 573 | /* Free glyph memory if MATRIX owns it. */ |
| 574 | if (matrix->pool == NULL) |
| 575 | for (i = 0; i < matrix->rows_allocated; ++i) |
| 576 | xfree (matrix->rows[i].glyphs[LEFT_MARGIN_AREA]); |
| 577 | |
| 578 | /* Free row structures and the matrix itself. */ |
| 579 | xfree (matrix->rows); |
| 580 | xfree (matrix); |
| 581 | } |
| 582 | } |
| 583 | |
| 584 | |
| 585 | /* Return the number of glyphs to reserve for a marginal area of |
| 586 | window W. TOTAL_GLYPHS is the number of glyphs in a complete |
| 587 | display line of window W. MARGIN gives the width of the marginal |
| 588 | area in canonical character units. MARGIN should be an integer |
| 589 | or a float. */ |
| 590 | |
| 591 | static int |
| 592 | margin_glyphs_to_reserve (w, total_glyphs, margin) |
| 593 | struct window *w; |
| 594 | int total_glyphs; |
| 595 | Lisp_Object margin; |
| 596 | { |
| 597 | int n; |
| 598 | |
| 599 | if (NUMBERP (margin)) |
| 600 | { |
| 601 | int width = XFASTINT (w->total_cols); |
| 602 | double d = max (0, XFLOATINT (margin)); |
| 603 | d = min (width / 2 - 1, d); |
| 604 | n = (int) ((double) total_glyphs / width * d); |
| 605 | } |
| 606 | else |
| 607 | n = 0; |
| 608 | |
| 609 | return n; |
| 610 | } |
| 611 | |
| 612 | |
| 613 | /* Adjust glyph matrix MATRIX on window W or on a frame to changed |
| 614 | window sizes. |
| 615 | |
| 616 | W is null if the function is called for a frame glyph matrix. |
| 617 | Otherwise it is the window MATRIX is a member of. X and Y are the |
| 618 | indices of the first column and row of MATRIX within the frame |
| 619 | matrix, if such a matrix exists. They are zero for purely |
| 620 | window-based redisplay. DIM is the needed size of the matrix. |
| 621 | |
| 622 | In window-based redisplay, where no frame matrices exist, glyph |
| 623 | matrices manage their own glyph storage. Otherwise, they allocate |
| 624 | storage from a common frame glyph pool which can be found in |
| 625 | MATRIX->pool. |
| 626 | |
| 627 | The reason for this memory management strategy is to avoid complete |
| 628 | frame redraws if possible. When we allocate from a common pool, a |
| 629 | change of the location or size of a sub-matrix within the pool |
| 630 | requires a complete redisplay of the frame because we cannot easily |
| 631 | make sure that the current matrices of all windows still agree with |
| 632 | what is displayed on the screen. While this is usually fast, it |
| 633 | leads to screen flickering. */ |
| 634 | |
| 635 | static void |
| 636 | adjust_glyph_matrix (w, matrix, x, y, dim) |
| 637 | struct window *w; |
| 638 | struct glyph_matrix *matrix; |
| 639 | int x, y; |
| 640 | struct dim dim; |
| 641 | { |
| 642 | int i; |
| 643 | int new_rows; |
| 644 | int marginal_areas_changed_p = 0; |
| 645 | int header_line_changed_p = 0; |
| 646 | int header_line_p = 0; |
| 647 | int left = -1, right = -1; |
| 648 | int window_width = -1, window_height; |
| 649 | |
| 650 | /* See if W had a header line that has disappeared now, or vice versa. |
| 651 | Get W's size. */ |
| 652 | if (w) |
| 653 | { |
| 654 | window_box (w, -1, 0, 0, &window_width, &window_height); |
| 655 | |
| 656 | header_line_p = WINDOW_WANTS_HEADER_LINE_P (w); |
| 657 | header_line_changed_p = header_line_p != matrix->header_line_p; |
| 658 | } |
| 659 | matrix->header_line_p = header_line_p; |
| 660 | |
| 661 | /* If POOL is null, MATRIX is a window matrix for window-based redisplay. |
| 662 | Do nothing if MATRIX' size, position, vscroll, and marginal areas |
| 663 | haven't changed. This optimization is important because preserving |
| 664 | the matrix means preventing redisplay. */ |
| 665 | if (matrix->pool == NULL) |
| 666 | { |
| 667 | left = margin_glyphs_to_reserve (w, dim.width, w->left_margin_cols); |
| 668 | right = margin_glyphs_to_reserve (w, dim.width, w->right_margin_cols); |
| 669 | xassert (left >= 0 && right >= 0); |
| 670 | marginal_areas_changed_p = (left != matrix->left_margin_glyphs |
| 671 | || right != matrix->right_margin_glyphs); |
| 672 | |
| 673 | if (!marginal_areas_changed_p |
| 674 | && !fonts_changed_p |
| 675 | && !header_line_changed_p |
| 676 | && matrix->window_left_col == WINDOW_LEFT_EDGE_COL (w) |
| 677 | && matrix->window_top_line == WINDOW_TOP_EDGE_LINE (w) |
| 678 | && matrix->window_height == window_height |
| 679 | && matrix->window_vscroll == w->vscroll |
| 680 | && matrix->window_width == window_width) |
| 681 | return; |
| 682 | } |
| 683 | |
| 684 | /* Enlarge MATRIX->rows if necessary. New rows are cleared. */ |
| 685 | if (matrix->rows_allocated < dim.height) |
| 686 | { |
| 687 | int size = dim.height * sizeof (struct glyph_row); |
| 688 | new_rows = dim.height - matrix->rows_allocated; |
| 689 | matrix->rows = (struct glyph_row *) xrealloc (matrix->rows, size); |
| 690 | bzero (matrix->rows + matrix->rows_allocated, |
| 691 | new_rows * sizeof *matrix->rows); |
| 692 | matrix->rows_allocated = dim.height; |
| 693 | } |
| 694 | else |
| 695 | new_rows = 0; |
| 696 | |
| 697 | /* If POOL is not null, MATRIX is a frame matrix or a window matrix |
| 698 | on a frame not using window-based redisplay. Set up pointers for |
| 699 | each row into the glyph pool. */ |
| 700 | if (matrix->pool) |
| 701 | { |
| 702 | xassert (matrix->pool->glyphs); |
| 703 | |
| 704 | if (w) |
| 705 | { |
| 706 | left = margin_glyphs_to_reserve (w, dim.width, |
| 707 | w->left_margin_cols); |
| 708 | right = margin_glyphs_to_reserve (w, dim.width, |
| 709 | w->right_margin_cols); |
| 710 | } |
| 711 | else |
| 712 | left = right = 0; |
| 713 | |
| 714 | for (i = 0; i < dim.height; ++i) |
| 715 | { |
| 716 | struct glyph_row *row = &matrix->rows[i]; |
| 717 | |
| 718 | row->glyphs[LEFT_MARGIN_AREA] |
| 719 | = (matrix->pool->glyphs |
| 720 | + (y + i) * matrix->pool->ncolumns |
| 721 | + x); |
| 722 | |
| 723 | if (w == NULL |
| 724 | || row == matrix->rows + dim.height - 1 |
| 725 | || (row == matrix->rows && matrix->header_line_p)) |
| 726 | { |
| 727 | row->glyphs[TEXT_AREA] |
| 728 | = row->glyphs[LEFT_MARGIN_AREA]; |
| 729 | row->glyphs[RIGHT_MARGIN_AREA] |
| 730 | = row->glyphs[TEXT_AREA] + dim.width; |
| 731 | row->glyphs[LAST_AREA] |
| 732 | = row->glyphs[RIGHT_MARGIN_AREA]; |
| 733 | } |
| 734 | else |
| 735 | { |
| 736 | row->glyphs[TEXT_AREA] |
| 737 | = row->glyphs[LEFT_MARGIN_AREA] + left; |
| 738 | row->glyphs[RIGHT_MARGIN_AREA] |
| 739 | = row->glyphs[TEXT_AREA] + dim.width - left - right; |
| 740 | row->glyphs[LAST_AREA] |
| 741 | = row->glyphs[LEFT_MARGIN_AREA] + dim.width; |
| 742 | } |
| 743 | } |
| 744 | |
| 745 | matrix->left_margin_glyphs = left; |
| 746 | matrix->right_margin_glyphs = right; |
| 747 | } |
| 748 | else |
| 749 | { |
| 750 | /* If MATRIX->pool is null, MATRIX is responsible for managing |
| 751 | its own memory. It is a window matrix for window-based redisplay. |
| 752 | Allocate glyph memory from the heap. */ |
| 753 | if (dim.width > matrix->matrix_w |
| 754 | || new_rows |
| 755 | || header_line_changed_p |
| 756 | || marginal_areas_changed_p) |
| 757 | { |
| 758 | struct glyph_row *row = matrix->rows; |
| 759 | struct glyph_row *end = row + matrix->rows_allocated; |
| 760 | |
| 761 | while (row < end) |
| 762 | { |
| 763 | row->glyphs[LEFT_MARGIN_AREA] |
| 764 | = (struct glyph *) xrealloc (row->glyphs[LEFT_MARGIN_AREA], |
| 765 | (dim.width |
| 766 | * sizeof (struct glyph))); |
| 767 | |
| 768 | /* The mode line never has marginal areas. */ |
| 769 | if (row == matrix->rows + dim.height - 1 |
| 770 | || (row == matrix->rows && matrix->header_line_p)) |
| 771 | { |
| 772 | row->glyphs[TEXT_AREA] |
| 773 | = row->glyphs[LEFT_MARGIN_AREA]; |
| 774 | row->glyphs[RIGHT_MARGIN_AREA] |
| 775 | = row->glyphs[TEXT_AREA] + dim.width; |
| 776 | row->glyphs[LAST_AREA] |
| 777 | = row->glyphs[RIGHT_MARGIN_AREA]; |
| 778 | } |
| 779 | else |
| 780 | { |
| 781 | row->glyphs[TEXT_AREA] |
| 782 | = row->glyphs[LEFT_MARGIN_AREA] + left; |
| 783 | row->glyphs[RIGHT_MARGIN_AREA] |
| 784 | = row->glyphs[TEXT_AREA] + dim.width - left - right; |
| 785 | row->glyphs[LAST_AREA] |
| 786 | = row->glyphs[LEFT_MARGIN_AREA] + dim.width; |
| 787 | } |
| 788 | ++row; |
| 789 | } |
| 790 | } |
| 791 | |
| 792 | xassert (left >= 0 && right >= 0); |
| 793 | matrix->left_margin_glyphs = left; |
| 794 | matrix->right_margin_glyphs = right; |
| 795 | } |
| 796 | |
| 797 | /* Number of rows to be used by MATRIX. */ |
| 798 | matrix->nrows = dim.height; |
| 799 | xassert (matrix->nrows >= 0); |
| 800 | |
| 801 | if (w) |
| 802 | { |
| 803 | if (matrix == w->current_matrix) |
| 804 | { |
| 805 | /* Mark rows in a current matrix of a window as not having |
| 806 | valid contents. It's important to not do this for |
| 807 | desired matrices. When Emacs starts, it may already be |
| 808 | building desired matrices when this function runs. */ |
| 809 | if (window_width < 0) |
| 810 | window_width = window_box_width (w, -1); |
| 811 | |
| 812 | /* Optimize the case that only the height has changed (C-x 2, |
| 813 | upper window). Invalidate all rows that are no longer part |
| 814 | of the window. */ |
| 815 | if (!marginal_areas_changed_p |
| 816 | && !header_line_changed_p |
| 817 | && new_rows == 0 |
| 818 | && dim.width == matrix->matrix_w |
| 819 | && matrix->window_left_col == WINDOW_LEFT_EDGE_COL (w) |
| 820 | && matrix->window_top_line == WINDOW_TOP_EDGE_LINE (w) |
| 821 | && matrix->window_width == window_width) |
| 822 | { |
| 823 | /* Find the last row in the window. */ |
| 824 | for (i = 0; i < matrix->nrows && matrix->rows[i].enabled_p; ++i) |
| 825 | if (MATRIX_ROW_BOTTOM_Y (matrix->rows + i) >= window_height) |
| 826 | { |
| 827 | ++i; |
| 828 | break; |
| 829 | } |
| 830 | |
| 831 | /* Window end is invalid, if inside of the rows that |
| 832 | are invalidated below. */ |
| 833 | if (INTEGERP (w->window_end_vpos) |
| 834 | && XFASTINT (w->window_end_vpos) >= i) |
| 835 | w->window_end_valid = Qnil; |
| 836 | |
| 837 | while (i < matrix->nrows) |
| 838 | matrix->rows[i++].enabled_p = 0; |
| 839 | } |
| 840 | else |
| 841 | { |
| 842 | for (i = 0; i < matrix->nrows; ++i) |
| 843 | matrix->rows[i].enabled_p = 0; |
| 844 | } |
| 845 | } |
| 846 | else if (matrix == w->desired_matrix) |
| 847 | { |
| 848 | /* Rows in desired matrices always have to be cleared; |
| 849 | redisplay expects this is the case when it runs, so it |
| 850 | had better be the case when we adjust matrices between |
| 851 | redisplays. */ |
| 852 | for (i = 0; i < matrix->nrows; ++i) |
| 853 | matrix->rows[i].enabled_p = 0; |
| 854 | } |
| 855 | } |
| 856 | |
| 857 | |
| 858 | /* Remember last values to be able to optimize frame redraws. */ |
| 859 | matrix->matrix_x = x; |
| 860 | matrix->matrix_y = y; |
| 861 | matrix->matrix_w = dim.width; |
| 862 | matrix->matrix_h = dim.height; |
| 863 | |
| 864 | /* Record the top y location and height of W at the time the matrix |
| 865 | was last adjusted. This is used to optimize redisplay above. */ |
| 866 | if (w) |
| 867 | { |
| 868 | matrix->window_left_col = WINDOW_LEFT_EDGE_COL (w); |
| 869 | matrix->window_top_line = WINDOW_TOP_EDGE_LINE (w); |
| 870 | matrix->window_height = window_height; |
| 871 | matrix->window_width = window_width; |
| 872 | matrix->window_vscroll = w->vscroll; |
| 873 | } |
| 874 | } |
| 875 | |
| 876 | |
| 877 | /* Reverse the contents of rows in MATRIX between START and END. The |
| 878 | contents of the row at END - 1 end up at START, END - 2 at START + |
| 879 | 1 etc. This is part of the implementation of rotate_matrix (see |
| 880 | below). */ |
| 881 | |
| 882 | static void |
| 883 | reverse_rows (matrix, start, end) |
| 884 | struct glyph_matrix *matrix; |
| 885 | int start, end; |
| 886 | { |
| 887 | int i, j; |
| 888 | |
| 889 | for (i = start, j = end - 1; i < j; ++i, --j) |
| 890 | { |
| 891 | /* Non-ISO HP/UX compiler doesn't like auto struct |
| 892 | initialization. */ |
| 893 | struct glyph_row temp; |
| 894 | temp = matrix->rows[i]; |
| 895 | matrix->rows[i] = matrix->rows[j]; |
| 896 | matrix->rows[j] = temp; |
| 897 | } |
| 898 | } |
| 899 | |
| 900 | |
| 901 | /* Rotate the contents of rows in MATRIX in the range FIRST .. LAST - |
| 902 | 1 by BY positions. BY < 0 means rotate left, i.e. towards lower |
| 903 | indices. (Note: this does not copy glyphs, only glyph pointers in |
| 904 | row structures are moved around). |
| 905 | |
| 906 | The algorithm used for rotating the vector was, I believe, first |
| 907 | described by Kernighan. See the vector R as consisting of two |
| 908 | sub-vectors AB, where A has length BY for BY >= 0. The result |
| 909 | after rotating is then BA. Reverse both sub-vectors to get ArBr |
| 910 | and reverse the result to get (ArBr)r which is BA. Similar for |
| 911 | rotating right. */ |
| 912 | |
| 913 | void |
| 914 | rotate_matrix (matrix, first, last, by) |
| 915 | struct glyph_matrix *matrix; |
| 916 | int first, last, by; |
| 917 | { |
| 918 | if (by < 0) |
| 919 | { |
| 920 | /* Up (rotate left, i.e. towards lower indices). */ |
| 921 | by = -by; |
| 922 | reverse_rows (matrix, first, first + by); |
| 923 | reverse_rows (matrix, first + by, last); |
| 924 | reverse_rows (matrix, first, last); |
| 925 | } |
| 926 | else if (by > 0) |
| 927 | { |
| 928 | /* Down (rotate right, i.e. towards higher indices). */ |
| 929 | reverse_rows (matrix, last - by, last); |
| 930 | reverse_rows (matrix, first, last - by); |
| 931 | reverse_rows (matrix, first, last); |
| 932 | } |
| 933 | } |
| 934 | |
| 935 | |
| 936 | /* Increment buffer positions in glyph rows of MATRIX. Do it for rows |
| 937 | with indices START <= index < END. Increment positions by DELTA/ |
| 938 | DELTA_BYTES. */ |
| 939 | |
| 940 | void |
| 941 | increment_matrix_positions (matrix, start, end, delta, delta_bytes) |
| 942 | struct glyph_matrix *matrix; |
| 943 | int start, end, delta, delta_bytes; |
| 944 | { |
| 945 | /* Check that START and END are reasonable values. */ |
| 946 | xassert (start >= 0 && start <= matrix->nrows); |
| 947 | xassert (end >= 0 && end <= matrix->nrows); |
| 948 | xassert (start <= end); |
| 949 | |
| 950 | for (; start < end; ++start) |
| 951 | increment_row_positions (matrix->rows + start, delta, delta_bytes); |
| 952 | } |
| 953 | |
| 954 | |
| 955 | /* Enable a range of rows in glyph matrix MATRIX. START and END are |
| 956 | the row indices of the first and last + 1 row to enable. If |
| 957 | ENABLED_P is non-zero, enabled_p flags in rows will be set to 1. */ |
| 958 | |
| 959 | void |
| 960 | enable_glyph_matrix_rows (matrix, start, end, enabled_p) |
| 961 | struct glyph_matrix *matrix; |
| 962 | int start, end; |
| 963 | int enabled_p; |
| 964 | { |
| 965 | xassert (start <= end); |
| 966 | xassert (start >= 0 && start < matrix->nrows); |
| 967 | xassert (end >= 0 && end <= matrix->nrows); |
| 968 | |
| 969 | for (; start < end; ++start) |
| 970 | matrix->rows[start].enabled_p = enabled_p != 0; |
| 971 | } |
| 972 | |
| 973 | |
| 974 | /* Clear MATRIX. |
| 975 | |
| 976 | This empties all rows in MATRIX by setting the enabled_p flag for |
| 977 | all rows of the matrix to zero. The function prepare_desired_row |
| 978 | will eventually really clear a row when it sees one with a zero |
| 979 | enabled_p flag. |
| 980 | |
| 981 | Resets update hints to defaults value. The only update hint |
| 982 | currently present is the flag MATRIX->no_scrolling_p. */ |
| 983 | |
| 984 | void |
| 985 | clear_glyph_matrix (matrix) |
| 986 | struct glyph_matrix *matrix; |
| 987 | { |
| 988 | if (matrix) |
| 989 | { |
| 990 | enable_glyph_matrix_rows (matrix, 0, matrix->nrows, 0); |
| 991 | matrix->no_scrolling_p = 0; |
| 992 | } |
| 993 | } |
| 994 | |
| 995 | |
| 996 | /* Shift part of the glyph matrix MATRIX of window W up or down. |
| 997 | Increment y-positions in glyph rows between START and END by DY, |
| 998 | and recompute their visible height. */ |
| 999 | |
| 1000 | void |
| 1001 | shift_glyph_matrix (w, matrix, start, end, dy) |
| 1002 | struct window *w; |
| 1003 | struct glyph_matrix *matrix; |
| 1004 | int start, end, dy; |
| 1005 | { |
| 1006 | int min_y, max_y; |
| 1007 | |
| 1008 | xassert (start <= end); |
| 1009 | xassert (start >= 0 && start < matrix->nrows); |
| 1010 | xassert (end >= 0 && end <= matrix->nrows); |
| 1011 | |
| 1012 | min_y = WINDOW_HEADER_LINE_HEIGHT (w); |
| 1013 | max_y = WINDOW_BOX_HEIGHT_NO_MODE_LINE (w); |
| 1014 | |
| 1015 | for (; start < end; ++start) |
| 1016 | { |
| 1017 | struct glyph_row *row = &matrix->rows[start]; |
| 1018 | |
| 1019 | row->y += dy; |
| 1020 | row->visible_height = row->height; |
| 1021 | |
| 1022 | if (row->y < min_y) |
| 1023 | row->visible_height -= min_y - row->y; |
| 1024 | if (row->y + row->height > max_y) |
| 1025 | row->visible_height -= row->y + row->height - max_y; |
| 1026 | } |
| 1027 | } |
| 1028 | |
| 1029 | |
| 1030 | /* Mark all rows in current matrices of frame F as invalid. Marking |
| 1031 | invalid is done by setting enabled_p to zero for all rows in a |
| 1032 | current matrix. */ |
| 1033 | |
| 1034 | void |
| 1035 | clear_current_matrices (f) |
| 1036 | register struct frame *f; |
| 1037 | { |
| 1038 | /* Clear frame current matrix, if we have one. */ |
| 1039 | if (f->current_matrix) |
| 1040 | clear_glyph_matrix (f->current_matrix); |
| 1041 | |
| 1042 | /* Clear the matrix of the menu bar window, if such a window exists. |
| 1043 | The menu bar window is currently used to display menus on X when |
| 1044 | no toolkit support is compiled in. */ |
| 1045 | if (WINDOWP (f->menu_bar_window)) |
| 1046 | clear_glyph_matrix (XWINDOW (f->menu_bar_window)->current_matrix); |
| 1047 | |
| 1048 | /* Clear the matrix of the tool-bar window, if any. */ |
| 1049 | if (WINDOWP (f->tool_bar_window)) |
| 1050 | clear_glyph_matrix (XWINDOW (f->tool_bar_window)->current_matrix); |
| 1051 | |
| 1052 | /* Clear current window matrices. */ |
| 1053 | xassert (WINDOWP (FRAME_ROOT_WINDOW (f))); |
| 1054 | clear_window_matrices (XWINDOW (FRAME_ROOT_WINDOW (f)), 0); |
| 1055 | } |
| 1056 | |
| 1057 | |
| 1058 | /* Clear out all display lines of F for a coming redisplay. */ |
| 1059 | |
| 1060 | void |
| 1061 | clear_desired_matrices (f) |
| 1062 | register struct frame *f; |
| 1063 | { |
| 1064 | if (f->desired_matrix) |
| 1065 | clear_glyph_matrix (f->desired_matrix); |
| 1066 | |
| 1067 | if (WINDOWP (f->menu_bar_window)) |
| 1068 | clear_glyph_matrix (XWINDOW (f->menu_bar_window)->desired_matrix); |
| 1069 | |
| 1070 | if (WINDOWP (f->tool_bar_window)) |
| 1071 | clear_glyph_matrix (XWINDOW (f->tool_bar_window)->desired_matrix); |
| 1072 | |
| 1073 | /* Do it for window matrices. */ |
| 1074 | xassert (WINDOWP (FRAME_ROOT_WINDOW (f))); |
| 1075 | clear_window_matrices (XWINDOW (FRAME_ROOT_WINDOW (f)), 1); |
| 1076 | } |
| 1077 | |
| 1078 | |
| 1079 | /* Clear matrices in window tree rooted in W. If DESIRED_P is |
| 1080 | non-zero clear desired matrices, otherwise clear current matrices. */ |
| 1081 | |
| 1082 | static void |
| 1083 | clear_window_matrices (w, desired_p) |
| 1084 | struct window *w; |
| 1085 | int desired_p; |
| 1086 | { |
| 1087 | while (w) |
| 1088 | { |
| 1089 | if (!NILP (w->hchild)) |
| 1090 | { |
| 1091 | xassert (WINDOWP (w->hchild)); |
| 1092 | clear_window_matrices (XWINDOW (w->hchild), desired_p); |
| 1093 | } |
| 1094 | else if (!NILP (w->vchild)) |
| 1095 | { |
| 1096 | xassert (WINDOWP (w->vchild)); |
| 1097 | clear_window_matrices (XWINDOW (w->vchild), desired_p); |
| 1098 | } |
| 1099 | else |
| 1100 | { |
| 1101 | if (desired_p) |
| 1102 | clear_glyph_matrix (w->desired_matrix); |
| 1103 | else |
| 1104 | { |
| 1105 | clear_glyph_matrix (w->current_matrix); |
| 1106 | w->window_end_valid = Qnil; |
| 1107 | } |
| 1108 | } |
| 1109 | |
| 1110 | w = NILP (w->next) ? 0 : XWINDOW (w->next); |
| 1111 | } |
| 1112 | } |
| 1113 | |
| 1114 | |
| 1115 | \f |
| 1116 | /*********************************************************************** |
| 1117 | Glyph Rows |
| 1118 | |
| 1119 | See dispextern.h for an overall explanation of glyph rows. |
| 1120 | ***********************************************************************/ |
| 1121 | |
| 1122 | /* Clear glyph row ROW. Do it in a way that makes it robust against |
| 1123 | changes in the glyph_row structure, i.e. addition or removal of |
| 1124 | structure members. */ |
| 1125 | |
| 1126 | static struct glyph_row null_row; |
| 1127 | |
| 1128 | void |
| 1129 | clear_glyph_row (row) |
| 1130 | struct glyph_row *row; |
| 1131 | { |
| 1132 | struct glyph *p[1 + LAST_AREA]; |
| 1133 | |
| 1134 | /* Save pointers. */ |
| 1135 | p[LEFT_MARGIN_AREA] = row->glyphs[LEFT_MARGIN_AREA]; |
| 1136 | p[TEXT_AREA] = row->glyphs[TEXT_AREA]; |
| 1137 | p[RIGHT_MARGIN_AREA] = row->glyphs[RIGHT_MARGIN_AREA]; |
| 1138 | p[LAST_AREA] = row->glyphs[LAST_AREA]; |
| 1139 | |
| 1140 | /* Clear. */ |
| 1141 | *row = null_row; |
| 1142 | |
| 1143 | /* Restore pointers. */ |
| 1144 | row->glyphs[LEFT_MARGIN_AREA] = p[LEFT_MARGIN_AREA]; |
| 1145 | row->glyphs[TEXT_AREA] = p[TEXT_AREA]; |
| 1146 | row->glyphs[RIGHT_MARGIN_AREA] = p[RIGHT_MARGIN_AREA]; |
| 1147 | row->glyphs[LAST_AREA] = p[LAST_AREA]; |
| 1148 | |
| 1149 | #if 0 /* At some point, some bit-fields of struct glyph were not set, |
| 1150 | which made glyphs unequal when compared with GLYPH_EQUAL_P. |
| 1151 | Redisplay outputs such glyphs, and flickering effects were |
| 1152 | the result. This also depended on the contents of memory |
| 1153 | returned by xmalloc. If flickering happens again, activate |
| 1154 | the code below. If the flickering is gone with that, chances |
| 1155 | are that the flickering has the same reason as here. */ |
| 1156 | bzero (p[0], (char *) p[LAST_AREA] - (char *) p[0]); |
| 1157 | #endif |
| 1158 | } |
| 1159 | |
| 1160 | |
| 1161 | /* Make ROW an empty, enabled row of canonical character height, |
| 1162 | in window W starting at y-position Y. */ |
| 1163 | |
| 1164 | void |
| 1165 | blank_row (w, row, y) |
| 1166 | struct window *w; |
| 1167 | struct glyph_row *row; |
| 1168 | int y; |
| 1169 | { |
| 1170 | int min_y, max_y; |
| 1171 | |
| 1172 | min_y = WINDOW_HEADER_LINE_HEIGHT (w); |
| 1173 | max_y = WINDOW_BOX_HEIGHT_NO_MODE_LINE (w); |
| 1174 | |
| 1175 | clear_glyph_row (row); |
| 1176 | row->y = y; |
| 1177 | row->ascent = row->phys_ascent = 0; |
| 1178 | row->height = row->phys_height = FRAME_LINE_HEIGHT (XFRAME (w->frame)); |
| 1179 | row->visible_height = row->height; |
| 1180 | |
| 1181 | if (row->y < min_y) |
| 1182 | row->visible_height -= min_y - row->y; |
| 1183 | if (row->y + row->height > max_y) |
| 1184 | row->visible_height -= row->y + row->height - max_y; |
| 1185 | |
| 1186 | row->enabled_p = 1; |
| 1187 | } |
| 1188 | |
| 1189 | |
| 1190 | /* Increment buffer positions in glyph row ROW. DELTA and DELTA_BYTES |
| 1191 | are the amounts by which to change positions. Note that the first |
| 1192 | glyph of the text area of a row can have a buffer position even if |
| 1193 | the used count of the text area is zero. Such rows display line |
| 1194 | ends. */ |
| 1195 | |
| 1196 | void |
| 1197 | increment_row_positions (row, delta, delta_bytes) |
| 1198 | struct glyph_row *row; |
| 1199 | int delta, delta_bytes; |
| 1200 | { |
| 1201 | int area, i; |
| 1202 | |
| 1203 | /* Increment start and end positions. */ |
| 1204 | MATRIX_ROW_START_CHARPOS (row) += delta; |
| 1205 | MATRIX_ROW_START_BYTEPOS (row) += delta_bytes; |
| 1206 | MATRIX_ROW_END_CHARPOS (row) += delta; |
| 1207 | MATRIX_ROW_END_BYTEPOS (row) += delta_bytes; |
| 1208 | |
| 1209 | if (!row->enabled_p) |
| 1210 | return; |
| 1211 | |
| 1212 | /* Increment positions in glyphs. */ |
| 1213 | for (area = 0; area < LAST_AREA; ++area) |
| 1214 | for (i = 0; i < row->used[area]; ++i) |
| 1215 | if (BUFFERP (row->glyphs[area][i].object) |
| 1216 | && row->glyphs[area][i].charpos > 0) |
| 1217 | row->glyphs[area][i].charpos += delta; |
| 1218 | |
| 1219 | /* Capture the case of rows displaying a line end. */ |
| 1220 | if (row->used[TEXT_AREA] == 0 |
| 1221 | && MATRIX_ROW_DISPLAYS_TEXT_P (row)) |
| 1222 | row->glyphs[TEXT_AREA]->charpos += delta; |
| 1223 | } |
| 1224 | |
| 1225 | |
| 1226 | #if 0 |
| 1227 | /* Swap glyphs between two glyph rows A and B. This exchanges glyph |
| 1228 | contents, i.e. glyph structure contents are exchanged between A and |
| 1229 | B without changing glyph pointers in A and B. */ |
| 1230 | |
| 1231 | static void |
| 1232 | swap_glyphs_in_rows (a, b) |
| 1233 | struct glyph_row *a, *b; |
| 1234 | { |
| 1235 | int area; |
| 1236 | |
| 1237 | for (area = 0; area < LAST_AREA; ++area) |
| 1238 | { |
| 1239 | /* Number of glyphs to swap. */ |
| 1240 | int max_used = max (a->used[area], b->used[area]); |
| 1241 | |
| 1242 | /* Start of glyphs in area of row A. */ |
| 1243 | struct glyph *glyph_a = a->glyphs[area]; |
| 1244 | |
| 1245 | /* End + 1 of glyphs in area of row A. */ |
| 1246 | struct glyph *glyph_a_end = a->glyphs[max_used]; |
| 1247 | |
| 1248 | /* Start of glyphs in area of row B. */ |
| 1249 | struct glyph *glyph_b = b->glyphs[area]; |
| 1250 | |
| 1251 | while (glyph_a < glyph_a_end) |
| 1252 | { |
| 1253 | /* Non-ISO HP/UX compiler doesn't like auto struct |
| 1254 | initialization. */ |
| 1255 | struct glyph temp; |
| 1256 | temp = *glyph_a; |
| 1257 | *glyph_a = *glyph_b; |
| 1258 | *glyph_b = temp; |
| 1259 | ++glyph_a; |
| 1260 | ++glyph_b; |
| 1261 | } |
| 1262 | } |
| 1263 | } |
| 1264 | |
| 1265 | #endif /* 0 */ |
| 1266 | |
| 1267 | /* Exchange pointers to glyph memory between glyph rows A and B. */ |
| 1268 | |
| 1269 | static INLINE void |
| 1270 | swap_glyph_pointers (a, b) |
| 1271 | struct glyph_row *a, *b; |
| 1272 | { |
| 1273 | int i; |
| 1274 | for (i = 0; i < LAST_AREA + 1; ++i) |
| 1275 | { |
| 1276 | struct glyph *temp = a->glyphs[i]; |
| 1277 | a->glyphs[i] = b->glyphs[i]; |
| 1278 | b->glyphs[i] = temp; |
| 1279 | } |
| 1280 | } |
| 1281 | |
| 1282 | |
| 1283 | /* Copy glyph row structure FROM to glyph row structure TO, except |
| 1284 | that glyph pointers in the structures are left unchanged. */ |
| 1285 | |
| 1286 | INLINE void |
| 1287 | copy_row_except_pointers (to, from) |
| 1288 | struct glyph_row *to, *from; |
| 1289 | { |
| 1290 | struct glyph *pointers[1 + LAST_AREA]; |
| 1291 | |
| 1292 | /* Save glyph pointers of TO. */ |
| 1293 | bcopy (to->glyphs, pointers, sizeof to->glyphs); |
| 1294 | |
| 1295 | /* Do a structure assignment. */ |
| 1296 | *to = *from; |
| 1297 | |
| 1298 | /* Restore original pointers of TO. */ |
| 1299 | bcopy (pointers, to->glyphs, sizeof to->glyphs); |
| 1300 | } |
| 1301 | |
| 1302 | |
| 1303 | /* Copy contents of glyph row FROM to glyph row TO. Glyph pointers in |
| 1304 | TO and FROM are left unchanged. Glyph contents are copied from the |
| 1305 | glyph memory of FROM to the glyph memory of TO. Increment buffer |
| 1306 | positions in row TO by DELTA/ DELTA_BYTES. */ |
| 1307 | |
| 1308 | void |
| 1309 | copy_glyph_row_contents (to, from, delta, delta_bytes) |
| 1310 | struct glyph_row *to, *from; |
| 1311 | int delta, delta_bytes; |
| 1312 | { |
| 1313 | int area; |
| 1314 | |
| 1315 | /* This is like a structure assignment TO = FROM, except that |
| 1316 | glyph pointers in the rows are left unchanged. */ |
| 1317 | copy_row_except_pointers (to, from); |
| 1318 | |
| 1319 | /* Copy glyphs from FROM to TO. */ |
| 1320 | for (area = 0; area < LAST_AREA; ++area) |
| 1321 | if (from->used[area]) |
| 1322 | bcopy (from->glyphs[area], to->glyphs[area], |
| 1323 | from->used[area] * sizeof (struct glyph)); |
| 1324 | |
| 1325 | /* Increment buffer positions in TO by DELTA. */ |
| 1326 | increment_row_positions (to, delta, delta_bytes); |
| 1327 | } |
| 1328 | |
| 1329 | |
| 1330 | /* Assign glyph row FROM to glyph row TO. This works like a structure |
| 1331 | assignment TO = FROM, except that glyph pointers are not copied but |
| 1332 | exchanged between TO and FROM. Pointers must be exchanged to avoid |
| 1333 | a memory leak. */ |
| 1334 | |
| 1335 | static INLINE void |
| 1336 | assign_row (to, from) |
| 1337 | struct glyph_row *to, *from; |
| 1338 | { |
| 1339 | swap_glyph_pointers (to, from); |
| 1340 | copy_row_except_pointers (to, from); |
| 1341 | } |
| 1342 | |
| 1343 | |
| 1344 | /* Test whether the glyph memory of the glyph row WINDOW_ROW, which is |
| 1345 | a row in a window matrix, is a slice of the glyph memory of the |
| 1346 | glyph row FRAME_ROW which is a row in a frame glyph matrix. Value |
| 1347 | is non-zero if the glyph memory of WINDOW_ROW is part of the glyph |
| 1348 | memory of FRAME_ROW. */ |
| 1349 | |
| 1350 | #if GLYPH_DEBUG |
| 1351 | |
| 1352 | static int |
| 1353 | glyph_row_slice_p (window_row, frame_row) |
| 1354 | struct glyph_row *window_row, *frame_row; |
| 1355 | { |
| 1356 | struct glyph *window_glyph_start = window_row->glyphs[0]; |
| 1357 | struct glyph *frame_glyph_start = frame_row->glyphs[0]; |
| 1358 | struct glyph *frame_glyph_end = frame_row->glyphs[LAST_AREA]; |
| 1359 | |
| 1360 | return (frame_glyph_start <= window_glyph_start |
| 1361 | && window_glyph_start < frame_glyph_end); |
| 1362 | } |
| 1363 | |
| 1364 | #endif /* GLYPH_DEBUG */ |
| 1365 | |
| 1366 | #if 0 |
| 1367 | |
| 1368 | /* Find the row in the window glyph matrix WINDOW_MATRIX being a slice |
| 1369 | of ROW in the frame matrix FRAME_MATRIX. Value is null if no row |
| 1370 | in WINDOW_MATRIX is found satisfying the condition. */ |
| 1371 | |
| 1372 | static struct glyph_row * |
| 1373 | find_glyph_row_slice (window_matrix, frame_matrix, row) |
| 1374 | struct glyph_matrix *window_matrix, *frame_matrix; |
| 1375 | int row; |
| 1376 | { |
| 1377 | int i; |
| 1378 | |
| 1379 | xassert (row >= 0 && row < frame_matrix->nrows); |
| 1380 | |
| 1381 | for (i = 0; i < window_matrix->nrows; ++i) |
| 1382 | if (glyph_row_slice_p (window_matrix->rows + i, |
| 1383 | frame_matrix->rows + row)) |
| 1384 | break; |
| 1385 | |
| 1386 | return i < window_matrix->nrows ? window_matrix->rows + i : 0; |
| 1387 | } |
| 1388 | |
| 1389 | #endif /* 0 */ |
| 1390 | |
| 1391 | /* Prepare ROW for display. Desired rows are cleared lazily, |
| 1392 | i.e. they are only marked as to be cleared by setting their |
| 1393 | enabled_p flag to zero. When a row is to be displayed, a prior |
| 1394 | call to this function really clears it. */ |
| 1395 | |
| 1396 | void |
| 1397 | prepare_desired_row (row) |
| 1398 | struct glyph_row *row; |
| 1399 | { |
| 1400 | if (!row->enabled_p) |
| 1401 | { |
| 1402 | clear_glyph_row (row); |
| 1403 | row->enabled_p = 1; |
| 1404 | } |
| 1405 | } |
| 1406 | |
| 1407 | |
| 1408 | /* Return a hash code for glyph row ROW. */ |
| 1409 | |
| 1410 | int |
| 1411 | line_hash_code (row) |
| 1412 | struct glyph_row *row; |
| 1413 | { |
| 1414 | int hash = 0; |
| 1415 | |
| 1416 | if (row->enabled_p) |
| 1417 | { |
| 1418 | struct glyph *glyph = row->glyphs[TEXT_AREA]; |
| 1419 | struct glyph *end = glyph + row->used[TEXT_AREA]; |
| 1420 | |
| 1421 | while (glyph < end) |
| 1422 | { |
| 1423 | int c = glyph->u.ch; |
| 1424 | int face_id = glyph->face_id; |
| 1425 | if (must_write_spaces) |
| 1426 | c -= SPACEGLYPH; |
| 1427 | hash = (((hash << 4) + (hash >> 24)) & 0x0fffffff) + c; |
| 1428 | hash = (((hash << 4) + (hash >> 24)) & 0x0fffffff) + face_id; |
| 1429 | ++glyph; |
| 1430 | } |
| 1431 | |
| 1432 | if (hash == 0) |
| 1433 | hash = 1; |
| 1434 | } |
| 1435 | |
| 1436 | return hash; |
| 1437 | } |
| 1438 | |
| 1439 | |
| 1440 | /* Return the cost of drawing line VPOS in MATRIX. The cost equals |
| 1441 | the number of characters in the line. If must_write_spaces is |
| 1442 | zero, leading and trailing spaces are ignored. */ |
| 1443 | |
| 1444 | static unsigned int |
| 1445 | line_draw_cost (matrix, vpos) |
| 1446 | struct glyph_matrix *matrix; |
| 1447 | int vpos; |
| 1448 | { |
| 1449 | struct glyph_row *row = matrix->rows + vpos; |
| 1450 | struct glyph *beg = row->glyphs[TEXT_AREA]; |
| 1451 | struct glyph *end = beg + row->used[TEXT_AREA]; |
| 1452 | int len; |
| 1453 | Lisp_Object *glyph_table_base = GLYPH_TABLE_BASE; |
| 1454 | int glyph_table_len = GLYPH_TABLE_LENGTH; |
| 1455 | |
| 1456 | /* Ignore trailing and leading spaces if we can. */ |
| 1457 | if (!must_write_spaces) |
| 1458 | { |
| 1459 | /* Skip from the end over trailing spaces. */ |
| 1460 | while (end > beg && CHAR_GLYPH_SPACE_P (*(end - 1))) |
| 1461 | --end; |
| 1462 | |
| 1463 | /* All blank line. */ |
| 1464 | if (end == beg) |
| 1465 | return 0; |
| 1466 | |
| 1467 | /* Skip over leading spaces. */ |
| 1468 | while (CHAR_GLYPH_SPACE_P (*beg)) |
| 1469 | ++beg; |
| 1470 | } |
| 1471 | |
| 1472 | /* If we don't have a glyph-table, each glyph is one character, |
| 1473 | so return the number of glyphs. */ |
| 1474 | if (glyph_table_base == 0) |
| 1475 | len = end - beg; |
| 1476 | else |
| 1477 | { |
| 1478 | /* Otherwise, scan the glyphs and accumulate their total length |
| 1479 | in LEN. */ |
| 1480 | len = 0; |
| 1481 | while (beg < end) |
| 1482 | { |
| 1483 | GLYPH g = GLYPH_FROM_CHAR_GLYPH (*beg); |
| 1484 | |
| 1485 | if (g < 0 |
| 1486 | || GLYPH_SIMPLE_P (glyph_table_base, glyph_table_len, g)) |
| 1487 | len += 1; |
| 1488 | else |
| 1489 | len += GLYPH_LENGTH (glyph_table_base, g); |
| 1490 | |
| 1491 | ++beg; |
| 1492 | } |
| 1493 | } |
| 1494 | |
| 1495 | return len; |
| 1496 | } |
| 1497 | |
| 1498 | |
| 1499 | /* Test two glyph rows A and B for equality. Value is non-zero if A |
| 1500 | and B have equal contents. W is the window to which the glyphs |
| 1501 | rows A and B belong. It is needed here to test for partial row |
| 1502 | visibility. MOUSE_FACE_P non-zero means compare the mouse_face_p |
| 1503 | flags of A and B, too. */ |
| 1504 | |
| 1505 | static INLINE int |
| 1506 | row_equal_p (w, a, b, mouse_face_p) |
| 1507 | struct window *w; |
| 1508 | struct glyph_row *a, *b; |
| 1509 | int mouse_face_p; |
| 1510 | { |
| 1511 | if (a == b) |
| 1512 | return 1; |
| 1513 | else if (a->hash != b->hash) |
| 1514 | return 0; |
| 1515 | else |
| 1516 | { |
| 1517 | struct glyph *a_glyph, *b_glyph, *a_end; |
| 1518 | int area; |
| 1519 | |
| 1520 | if (mouse_face_p && a->mouse_face_p != b->mouse_face_p) |
| 1521 | return 0; |
| 1522 | |
| 1523 | /* Compare glyphs. */ |
| 1524 | for (area = LEFT_MARGIN_AREA; area < LAST_AREA; ++area) |
| 1525 | { |
| 1526 | if (a->used[area] != b->used[area]) |
| 1527 | return 0; |
| 1528 | |
| 1529 | a_glyph = a->glyphs[area]; |
| 1530 | a_end = a_glyph + a->used[area]; |
| 1531 | b_glyph = b->glyphs[area]; |
| 1532 | |
| 1533 | while (a_glyph < a_end |
| 1534 | && GLYPH_EQUAL_P (a_glyph, b_glyph)) |
| 1535 | ++a_glyph, ++b_glyph; |
| 1536 | |
| 1537 | if (a_glyph != a_end) |
| 1538 | return 0; |
| 1539 | } |
| 1540 | |
| 1541 | if (a->fill_line_p != b->fill_line_p |
| 1542 | || a->cursor_in_fringe_p != b->cursor_in_fringe_p |
| 1543 | || a->left_fringe_bitmap != b->left_fringe_bitmap |
| 1544 | || a->left_fringe_face_id != b->left_fringe_face_id |
| 1545 | || a->right_fringe_bitmap != b->right_fringe_bitmap |
| 1546 | || a->right_fringe_face_id != b->right_fringe_face_id |
| 1547 | || a->overlay_arrow_bitmap != b->overlay_arrow_bitmap |
| 1548 | || a->exact_window_width_line_p != b->exact_window_width_line_p |
| 1549 | || a->overlapped_p != b->overlapped_p |
| 1550 | || (MATRIX_ROW_CONTINUATION_LINE_P (a) |
| 1551 | != MATRIX_ROW_CONTINUATION_LINE_P (b)) |
| 1552 | /* Different partially visible characters on left margin. */ |
| 1553 | || a->x != b->x |
| 1554 | /* Different height. */ |
| 1555 | || a->ascent != b->ascent |
| 1556 | || a->phys_ascent != b->phys_ascent |
| 1557 | || a->phys_height != b->phys_height |
| 1558 | || a->visible_height != b->visible_height) |
| 1559 | return 0; |
| 1560 | } |
| 1561 | |
| 1562 | return 1; |
| 1563 | } |
| 1564 | |
| 1565 | |
| 1566 | \f |
| 1567 | /*********************************************************************** |
| 1568 | Glyph Pool |
| 1569 | |
| 1570 | See dispextern.h for an overall explanation of glyph pools. |
| 1571 | ***********************************************************************/ |
| 1572 | |
| 1573 | /* Allocate a glyph_pool structure. The structure returned is |
| 1574 | initialized with zeros. The global variable glyph_pool_count is |
| 1575 | incremented for each pool allocated. */ |
| 1576 | |
| 1577 | static struct glyph_pool * |
| 1578 | new_glyph_pool () |
| 1579 | { |
| 1580 | struct glyph_pool *result; |
| 1581 | |
| 1582 | /* Allocate a new glyph_pool and clear it. */ |
| 1583 | result = (struct glyph_pool *) xmalloc (sizeof *result); |
| 1584 | bzero (result, sizeof *result); |
| 1585 | |
| 1586 | /* For memory leak and double deletion checking. */ |
| 1587 | ++glyph_pool_count; |
| 1588 | |
| 1589 | return result; |
| 1590 | } |
| 1591 | |
| 1592 | |
| 1593 | /* Free a glyph_pool structure POOL. The function may be called with |
| 1594 | a null POOL pointer. The global variable glyph_pool_count is |
| 1595 | decremented with every pool structure freed. If this count gets |
| 1596 | negative, more structures were freed than allocated, i.e. one |
| 1597 | structure must have been freed more than once or a bogus pointer |
| 1598 | was passed to free_glyph_pool. */ |
| 1599 | |
| 1600 | static void |
| 1601 | free_glyph_pool (pool) |
| 1602 | struct glyph_pool *pool; |
| 1603 | { |
| 1604 | if (pool) |
| 1605 | { |
| 1606 | /* More freed than allocated? */ |
| 1607 | --glyph_pool_count; |
| 1608 | xassert (glyph_pool_count >= 0); |
| 1609 | |
| 1610 | xfree (pool->glyphs); |
| 1611 | xfree (pool); |
| 1612 | } |
| 1613 | } |
| 1614 | |
| 1615 | |
| 1616 | /* Enlarge a glyph pool POOL. MATRIX_DIM gives the number of rows and |
| 1617 | columns we need. This function never shrinks a pool. The only |
| 1618 | case in which this would make sense, would be when a frame's size |
| 1619 | is changed from a large value to a smaller one. But, if someone |
| 1620 | does it once, we can expect that he will do it again. |
| 1621 | |
| 1622 | Value is non-zero if the pool changed in a way which makes |
| 1623 | re-adjusting window glyph matrices necessary. */ |
| 1624 | |
| 1625 | static int |
| 1626 | realloc_glyph_pool (pool, matrix_dim) |
| 1627 | struct glyph_pool *pool; |
| 1628 | struct dim matrix_dim; |
| 1629 | { |
| 1630 | int needed; |
| 1631 | int changed_p; |
| 1632 | |
| 1633 | changed_p = (pool->glyphs == 0 |
| 1634 | || matrix_dim.height != pool->nrows |
| 1635 | || matrix_dim.width != pool->ncolumns); |
| 1636 | |
| 1637 | /* Enlarge the glyph pool. */ |
| 1638 | needed = matrix_dim.width * matrix_dim.height; |
| 1639 | if (needed > pool->nglyphs) |
| 1640 | { |
| 1641 | int size = needed * sizeof (struct glyph); |
| 1642 | |
| 1643 | if (pool->glyphs) |
| 1644 | pool->glyphs = (struct glyph *) xrealloc (pool->glyphs, size); |
| 1645 | else |
| 1646 | { |
| 1647 | pool->glyphs = (struct glyph *) xmalloc (size); |
| 1648 | bzero (pool->glyphs, size); |
| 1649 | } |
| 1650 | |
| 1651 | pool->nglyphs = needed; |
| 1652 | } |
| 1653 | |
| 1654 | /* Remember the number of rows and columns because (a) we use them |
| 1655 | to do sanity checks, and (b) the number of columns determines |
| 1656 | where rows in the frame matrix start---this must be available to |
| 1657 | determine pointers to rows of window sub-matrices. */ |
| 1658 | pool->nrows = matrix_dim.height; |
| 1659 | pool->ncolumns = matrix_dim.width; |
| 1660 | |
| 1661 | return changed_p; |
| 1662 | } |
| 1663 | |
| 1664 | |
| 1665 | \f |
| 1666 | /*********************************************************************** |
| 1667 | Debug Code |
| 1668 | ***********************************************************************/ |
| 1669 | |
| 1670 | #if GLYPH_DEBUG |
| 1671 | |
| 1672 | |
| 1673 | /* Flush standard output. This is sometimes useful to call from |
| 1674 | the debugger. */ |
| 1675 | |
| 1676 | void |
| 1677 | flush_stdout () |
| 1678 | { |
| 1679 | fflush (stdout); |
| 1680 | } |
| 1681 | |
| 1682 | |
| 1683 | /* Check that no glyph pointers have been lost in MATRIX. If a |
| 1684 | pointer has been lost, e.g. by using a structure assignment between |
| 1685 | rows, at least one pointer must occur more than once in the rows of |
| 1686 | MATRIX. */ |
| 1687 | |
| 1688 | void |
| 1689 | check_matrix_pointer_lossage (matrix) |
| 1690 | struct glyph_matrix *matrix; |
| 1691 | { |
| 1692 | int i, j; |
| 1693 | |
| 1694 | for (i = 0; i < matrix->nrows; ++i) |
| 1695 | for (j = 0; j < matrix->nrows; ++j) |
| 1696 | xassert (i == j |
| 1697 | || (matrix->rows[i].glyphs[TEXT_AREA] |
| 1698 | != matrix->rows[j].glyphs[TEXT_AREA])); |
| 1699 | } |
| 1700 | |
| 1701 | |
| 1702 | /* Get a pointer to glyph row ROW in MATRIX, with bounds checks. */ |
| 1703 | |
| 1704 | struct glyph_row * |
| 1705 | matrix_row (matrix, row) |
| 1706 | struct glyph_matrix *matrix; |
| 1707 | int row; |
| 1708 | { |
| 1709 | xassert (matrix && matrix->rows); |
| 1710 | xassert (row >= 0 && row < matrix->nrows); |
| 1711 | |
| 1712 | /* That's really too slow for normal testing because this function |
| 1713 | is called almost everywhere. Although---it's still astonishingly |
| 1714 | fast, so it is valuable to have for debugging purposes. */ |
| 1715 | #if 0 |
| 1716 | check_matrix_pointer_lossage (matrix); |
| 1717 | #endif |
| 1718 | |
| 1719 | return matrix->rows + row; |
| 1720 | } |
| 1721 | |
| 1722 | |
| 1723 | #if 0 /* This function makes invalid assumptions when text is |
| 1724 | partially invisible. But it might come handy for debugging |
| 1725 | nevertheless. */ |
| 1726 | |
| 1727 | /* Check invariants that must hold for an up to date current matrix of |
| 1728 | window W. */ |
| 1729 | |
| 1730 | static void |
| 1731 | check_matrix_invariants (w) |
| 1732 | struct window *w; |
| 1733 | { |
| 1734 | struct glyph_matrix *matrix = w->current_matrix; |
| 1735 | int yb = window_text_bottom_y (w); |
| 1736 | struct glyph_row *row = matrix->rows; |
| 1737 | struct glyph_row *last_text_row = NULL; |
| 1738 | struct buffer *saved = current_buffer; |
| 1739 | struct buffer *buffer = XBUFFER (w->buffer); |
| 1740 | int c; |
| 1741 | |
| 1742 | /* This can sometimes happen for a fresh window. */ |
| 1743 | if (matrix->nrows < 2) |
| 1744 | return; |
| 1745 | |
| 1746 | set_buffer_temp (buffer); |
| 1747 | |
| 1748 | /* Note: last row is always reserved for the mode line. */ |
| 1749 | while (MATRIX_ROW_DISPLAYS_TEXT_P (row) |
| 1750 | && MATRIX_ROW_BOTTOM_Y (row) < yb) |
| 1751 | { |
| 1752 | struct glyph_row *next = row + 1; |
| 1753 | |
| 1754 | if (MATRIX_ROW_DISPLAYS_TEXT_P (row)) |
| 1755 | last_text_row = row; |
| 1756 | |
| 1757 | /* Check that character and byte positions are in sync. */ |
| 1758 | xassert (MATRIX_ROW_START_BYTEPOS (row) |
| 1759 | == CHAR_TO_BYTE (MATRIX_ROW_START_CHARPOS (row))); |
| 1760 | |
| 1761 | /* CHAR_TO_BYTE aborts when invoked for a position > Z. We can |
| 1762 | have such a position temporarily in case of a minibuffer |
| 1763 | displaying something like `[Sole completion]' at its end. */ |
| 1764 | if (MATRIX_ROW_END_CHARPOS (row) < BUF_ZV (current_buffer)) |
| 1765 | xassert (MATRIX_ROW_END_BYTEPOS (row) |
| 1766 | == CHAR_TO_BYTE (MATRIX_ROW_END_CHARPOS (row))); |
| 1767 | |
| 1768 | /* Check that end position of `row' is equal to start position |
| 1769 | of next row. */ |
| 1770 | if (next->enabled_p && MATRIX_ROW_DISPLAYS_TEXT_P (next)) |
| 1771 | { |
| 1772 | xassert (MATRIX_ROW_END_CHARPOS (row) |
| 1773 | == MATRIX_ROW_START_CHARPOS (next)); |
| 1774 | xassert (MATRIX_ROW_END_BYTEPOS (row) |
| 1775 | == MATRIX_ROW_START_BYTEPOS (next)); |
| 1776 | } |
| 1777 | row = next; |
| 1778 | } |
| 1779 | |
| 1780 | xassert (w->current_matrix->nrows == w->desired_matrix->nrows); |
| 1781 | xassert (w->desired_matrix->rows != NULL); |
| 1782 | set_buffer_temp (saved); |
| 1783 | } |
| 1784 | |
| 1785 | #endif /* 0 */ |
| 1786 | |
| 1787 | #endif /* GLYPH_DEBUG != 0 */ |
| 1788 | |
| 1789 | |
| 1790 | \f |
| 1791 | /********************************************************************** |
| 1792 | Allocating/ Adjusting Glyph Matrices |
| 1793 | **********************************************************************/ |
| 1794 | |
| 1795 | /* Allocate glyph matrices over a window tree for a frame-based |
| 1796 | redisplay |
| 1797 | |
| 1798 | X and Y are column/row within the frame glyph matrix where |
| 1799 | sub-matrices for the window tree rooted at WINDOW must be |
| 1800 | allocated. CH_DIM contains the dimensions of the smallest |
| 1801 | character that could be used during display. DIM_ONLY_P non-zero |
| 1802 | means that the caller of this function is only interested in the |
| 1803 | result matrix dimension, and matrix adjustments should not be |
| 1804 | performed. |
| 1805 | |
| 1806 | The function returns the total width/height of the sub-matrices of |
| 1807 | the window tree. If called on a frame root window, the computation |
| 1808 | will take the mini-buffer window into account. |
| 1809 | |
| 1810 | *WINDOW_CHANGE_FLAGS is set to a bit mask with bits |
| 1811 | |
| 1812 | NEW_LEAF_MATRIX set if any window in the tree did not have a |
| 1813 | glyph matrices yet, and |
| 1814 | |
| 1815 | CHANGED_LEAF_MATRIX set if the dimension or location of a matrix of |
| 1816 | any window in the tree will be changed or have been changed (see |
| 1817 | DIM_ONLY_P) |
| 1818 | |
| 1819 | *WINDOW_CHANGE_FLAGS must be initialized by the caller of this |
| 1820 | function. |
| 1821 | |
| 1822 | Windows are arranged into chains of windows on the same level |
| 1823 | through the next fields of window structures. Such a level can be |
| 1824 | either a sequence of horizontally adjacent windows from left to |
| 1825 | right, or a sequence of vertically adjacent windows from top to |
| 1826 | bottom. Each window in a horizontal sequence can be either a leaf |
| 1827 | window or a vertical sequence; a window in a vertical sequence can |
| 1828 | be either a leaf or a horizontal sequence. All windows in a |
| 1829 | horizontal sequence have the same height, and all windows in a |
| 1830 | vertical sequence have the same width. |
| 1831 | |
| 1832 | This function uses, for historical reasons, a more general |
| 1833 | algorithm to determine glyph matrix dimensions that would be |
| 1834 | necessary. |
| 1835 | |
| 1836 | The matrix height of a horizontal sequence is determined by the |
| 1837 | maximum height of any matrix in the sequence. The matrix width of |
| 1838 | a horizontal sequence is computed by adding up matrix widths of |
| 1839 | windows in the sequence. |
| 1840 | |
| 1841 | |<------- result width ------->| |
| 1842 | +---------+----------+---------+ --- |
| 1843 | | | | | | |
| 1844 | | | | | |
| 1845 | +---------+ | | result height |
| 1846 | | +---------+ |
| 1847 | | | | |
| 1848 | +----------+ --- |
| 1849 | |
| 1850 | The matrix width of a vertical sequence is the maximum matrix width |
| 1851 | of any window in the sequence. Its height is computed by adding up |
| 1852 | matrix heights of windows in the sequence. |
| 1853 | |
| 1854 | |<---- result width -->| |
| 1855 | +---------+ --- |
| 1856 | | | | |
| 1857 | | | | |
| 1858 | +---------+--+ | |
| 1859 | | | | |
| 1860 | | | result height |
| 1861 | | | |
| 1862 | +------------+---------+ | |
| 1863 | | | | |
| 1864 | | | | |
| 1865 | +------------+---------+ --- */ |
| 1866 | |
| 1867 | /* Bit indicating that a new matrix will be allocated or has been |
| 1868 | allocated. */ |
| 1869 | |
| 1870 | #define NEW_LEAF_MATRIX (1 << 0) |
| 1871 | |
| 1872 | /* Bit indicating that a matrix will or has changed its location or |
| 1873 | size. */ |
| 1874 | |
| 1875 | #define CHANGED_LEAF_MATRIX (1 << 1) |
| 1876 | |
| 1877 | static struct dim |
| 1878 | allocate_matrices_for_frame_redisplay (window, x, y, dim_only_p, |
| 1879 | window_change_flags) |
| 1880 | Lisp_Object window; |
| 1881 | int x, y; |
| 1882 | int dim_only_p; |
| 1883 | int *window_change_flags; |
| 1884 | { |
| 1885 | struct frame *f = XFRAME (WINDOW_FRAME (XWINDOW (window))); |
| 1886 | int x0 = x, y0 = y; |
| 1887 | int wmax = 0, hmax = 0; |
| 1888 | struct dim total; |
| 1889 | struct dim dim; |
| 1890 | struct window *w; |
| 1891 | int in_horz_combination_p; |
| 1892 | |
| 1893 | /* What combination is WINDOW part of? Compute this once since the |
| 1894 | result is the same for all windows in the `next' chain. The |
| 1895 | special case of a root window (parent equal to nil) is treated |
| 1896 | like a vertical combination because a root window's `next' |
| 1897 | points to the mini-buffer window, if any, which is arranged |
| 1898 | vertically below other windows. */ |
| 1899 | in_horz_combination_p |
| 1900 | = (!NILP (XWINDOW (window)->parent) |
| 1901 | && !NILP (XWINDOW (XWINDOW (window)->parent)->hchild)); |
| 1902 | |
| 1903 | /* For WINDOW and all windows on the same level. */ |
| 1904 | do |
| 1905 | { |
| 1906 | w = XWINDOW (window); |
| 1907 | |
| 1908 | /* Get the dimension of the window sub-matrix for W, depending |
| 1909 | on whether this is a combination or a leaf window. */ |
| 1910 | if (!NILP (w->hchild)) |
| 1911 | dim = allocate_matrices_for_frame_redisplay (w->hchild, x, y, |
| 1912 | dim_only_p, |
| 1913 | window_change_flags); |
| 1914 | else if (!NILP (w->vchild)) |
| 1915 | dim = allocate_matrices_for_frame_redisplay (w->vchild, x, y, |
| 1916 | dim_only_p, |
| 1917 | window_change_flags); |
| 1918 | else |
| 1919 | { |
| 1920 | /* If not already done, allocate sub-matrix structures. */ |
| 1921 | if (w->desired_matrix == NULL) |
| 1922 | { |
| 1923 | w->desired_matrix = new_glyph_matrix (f->desired_pool); |
| 1924 | w->current_matrix = new_glyph_matrix (f->current_pool); |
| 1925 | *window_change_flags |= NEW_LEAF_MATRIX; |
| 1926 | } |
| 1927 | |
| 1928 | /* Width and height MUST be chosen so that there are no |
| 1929 | holes in the frame matrix. */ |
| 1930 | dim.width = required_matrix_width (w); |
| 1931 | dim.height = required_matrix_height (w); |
| 1932 | |
| 1933 | /* Will matrix be re-allocated? */ |
| 1934 | if (x != w->desired_matrix->matrix_x |
| 1935 | || y != w->desired_matrix->matrix_y |
| 1936 | || dim.width != w->desired_matrix->matrix_w |
| 1937 | || dim.height != w->desired_matrix->matrix_h |
| 1938 | || (margin_glyphs_to_reserve (w, dim.width, |
| 1939 | w->left_margin_cols) |
| 1940 | != w->desired_matrix->left_margin_glyphs) |
| 1941 | || (margin_glyphs_to_reserve (w, dim.width, |
| 1942 | w->right_margin_cols) |
| 1943 | != w->desired_matrix->right_margin_glyphs)) |
| 1944 | *window_change_flags |= CHANGED_LEAF_MATRIX; |
| 1945 | |
| 1946 | /* Actually change matrices, if allowed. Do not consider |
| 1947 | CHANGED_LEAF_MATRIX computed above here because the pool |
| 1948 | may have been changed which we don't now here. We trust |
| 1949 | that we only will be called with DIM_ONLY_P != 0 when |
| 1950 | necessary. */ |
| 1951 | if (!dim_only_p) |
| 1952 | { |
| 1953 | adjust_glyph_matrix (w, w->desired_matrix, x, y, dim); |
| 1954 | adjust_glyph_matrix (w, w->current_matrix, x, y, dim); |
| 1955 | } |
| 1956 | } |
| 1957 | |
| 1958 | /* If we are part of a horizontal combination, advance x for |
| 1959 | windows to the right of W; otherwise advance y for windows |
| 1960 | below W. */ |
| 1961 | if (in_horz_combination_p) |
| 1962 | x += dim.width; |
| 1963 | else |
| 1964 | y += dim.height; |
| 1965 | |
| 1966 | /* Remember maximum glyph matrix dimensions. */ |
| 1967 | wmax = max (wmax, dim.width); |
| 1968 | hmax = max (hmax, dim.height); |
| 1969 | |
| 1970 | /* Next window on same level. */ |
| 1971 | window = w->next; |
| 1972 | } |
| 1973 | while (!NILP (window)); |
| 1974 | |
| 1975 | /* Set `total' to the total glyph matrix dimension of this window |
| 1976 | level. In a vertical combination, the width is the width of the |
| 1977 | widest window; the height is the y we finally reached, corrected |
| 1978 | by the y we started with. In a horizontal combination, the total |
| 1979 | height is the height of the tallest window, and the width is the |
| 1980 | x we finally reached, corrected by the x we started with. */ |
| 1981 | if (in_horz_combination_p) |
| 1982 | { |
| 1983 | total.width = x - x0; |
| 1984 | total.height = hmax; |
| 1985 | } |
| 1986 | else |
| 1987 | { |
| 1988 | total.width = wmax; |
| 1989 | total.height = y - y0; |
| 1990 | } |
| 1991 | |
| 1992 | return total; |
| 1993 | } |
| 1994 | |
| 1995 | |
| 1996 | /* Return the required height of glyph matrices for window W. */ |
| 1997 | |
| 1998 | int |
| 1999 | required_matrix_height (w) |
| 2000 | struct window *w; |
| 2001 | { |
| 2002 | #ifdef HAVE_WINDOW_SYSTEM |
| 2003 | struct frame *f = XFRAME (w->frame); |
| 2004 | |
| 2005 | if (FRAME_WINDOW_P (f)) |
| 2006 | { |
| 2007 | int ch_height = FRAME_SMALLEST_FONT_HEIGHT (f); |
| 2008 | int window_pixel_height = window_box_height (w) + abs (w->vscroll); |
| 2009 | return (((window_pixel_height + ch_height - 1) |
| 2010 | / ch_height) * w->nrows_scale_factor |
| 2011 | /* One partially visible line at the top and |
| 2012 | bottom of the window. */ |
| 2013 | + 2 |
| 2014 | /* 2 for header and mode line. */ |
| 2015 | + 2); |
| 2016 | } |
| 2017 | #endif /* HAVE_WINDOW_SYSTEM */ |
| 2018 | |
| 2019 | return WINDOW_TOTAL_LINES (w); |
| 2020 | } |
| 2021 | |
| 2022 | |
| 2023 | /* Return the required width of glyph matrices for window W. */ |
| 2024 | |
| 2025 | int |
| 2026 | required_matrix_width (w) |
| 2027 | struct window *w; |
| 2028 | { |
| 2029 | #ifdef HAVE_WINDOW_SYSTEM |
| 2030 | struct frame *f = XFRAME (w->frame); |
| 2031 | if (FRAME_WINDOW_P (f)) |
| 2032 | { |
| 2033 | int ch_width = FRAME_SMALLEST_CHAR_WIDTH (f); |
| 2034 | int window_pixel_width = WINDOW_TOTAL_WIDTH (w); |
| 2035 | |
| 2036 | /* Compute number of glyphs needed in a glyph row. */ |
| 2037 | return (((window_pixel_width + ch_width - 1) |
| 2038 | / ch_width) * w->ncols_scale_factor |
| 2039 | /* 2 partially visible columns in the text area. */ |
| 2040 | + 2 |
| 2041 | /* One partially visible column at the right |
| 2042 | edge of each marginal area. */ |
| 2043 | + 1 + 1); |
| 2044 | } |
| 2045 | #endif /* HAVE_WINDOW_SYSTEM */ |
| 2046 | |
| 2047 | return XINT (w->total_cols); |
| 2048 | } |
| 2049 | |
| 2050 | |
| 2051 | /* Allocate window matrices for window-based redisplay. W is the |
| 2052 | window whose matrices must be allocated/reallocated. CH_DIM is the |
| 2053 | size of the smallest character that could potentially be used on W. */ |
| 2054 | |
| 2055 | static void |
| 2056 | allocate_matrices_for_window_redisplay (w) |
| 2057 | struct window *w; |
| 2058 | { |
| 2059 | while (w) |
| 2060 | { |
| 2061 | if (!NILP (w->vchild)) |
| 2062 | allocate_matrices_for_window_redisplay (XWINDOW (w->vchild)); |
| 2063 | else if (!NILP (w->hchild)) |
| 2064 | allocate_matrices_for_window_redisplay (XWINDOW (w->hchild)); |
| 2065 | else |
| 2066 | { |
| 2067 | /* W is a leaf window. */ |
| 2068 | struct dim dim; |
| 2069 | |
| 2070 | /* If matrices are not yet allocated, allocate them now. */ |
| 2071 | if (w->desired_matrix == NULL) |
| 2072 | { |
| 2073 | w->desired_matrix = new_glyph_matrix (NULL); |
| 2074 | w->current_matrix = new_glyph_matrix (NULL); |
| 2075 | } |
| 2076 | |
| 2077 | dim.width = required_matrix_width (w); |
| 2078 | dim.height = required_matrix_height (w); |
| 2079 | adjust_glyph_matrix (w, w->desired_matrix, 0, 0, dim); |
| 2080 | adjust_glyph_matrix (w, w->current_matrix, 0, 0, dim); |
| 2081 | } |
| 2082 | |
| 2083 | w = NILP (w->next) ? NULL : XWINDOW (w->next); |
| 2084 | } |
| 2085 | } |
| 2086 | |
| 2087 | |
| 2088 | /* Re-allocate/ re-compute glyph matrices on frame F. If F is null, |
| 2089 | do it for all frames; otherwise do it just for the given frame. |
| 2090 | This function must be called when a new frame is created, its size |
| 2091 | changes, or its window configuration changes. */ |
| 2092 | |
| 2093 | void |
| 2094 | adjust_glyphs (f) |
| 2095 | struct frame *f; |
| 2096 | { |
| 2097 | /* Block input so that expose events and other events that access |
| 2098 | glyph matrices are not processed while we are changing them. */ |
| 2099 | BLOCK_INPUT; |
| 2100 | |
| 2101 | if (f) |
| 2102 | adjust_frame_glyphs (f); |
| 2103 | else |
| 2104 | { |
| 2105 | Lisp_Object tail, lisp_frame; |
| 2106 | |
| 2107 | FOR_EACH_FRAME (tail, lisp_frame) |
| 2108 | adjust_frame_glyphs (XFRAME (lisp_frame)); |
| 2109 | } |
| 2110 | |
| 2111 | UNBLOCK_INPUT; |
| 2112 | } |
| 2113 | |
| 2114 | |
| 2115 | /* Adjust frame glyphs when Emacs is initialized. |
| 2116 | |
| 2117 | To be called from init_display. |
| 2118 | |
| 2119 | We need a glyph matrix because redraw will happen soon. |
| 2120 | Unfortunately, window sizes on selected_frame are not yet set to |
| 2121 | meaningful values. I believe we can assume that there are only two |
| 2122 | windows on the frame---the mini-buffer and the root window. Frame |
| 2123 | height and width seem to be correct so far. So, set the sizes of |
| 2124 | windows to estimated values. */ |
| 2125 | |
| 2126 | static void |
| 2127 | adjust_frame_glyphs_initially () |
| 2128 | { |
| 2129 | struct frame *sf = SELECTED_FRAME (); |
| 2130 | struct window *root = XWINDOW (sf->root_window); |
| 2131 | struct window *mini = XWINDOW (root->next); |
| 2132 | int frame_lines = FRAME_LINES (sf); |
| 2133 | int frame_cols = FRAME_COLS (sf); |
| 2134 | int top_margin = FRAME_TOP_MARGIN (sf); |
| 2135 | |
| 2136 | /* Do it for the root window. */ |
| 2137 | XSETFASTINT (root->top_line, top_margin); |
| 2138 | XSETFASTINT (root->total_cols, frame_cols); |
| 2139 | set_window_height (sf->root_window, frame_lines - 1 - top_margin, 0); |
| 2140 | |
| 2141 | /* Do it for the mini-buffer window. */ |
| 2142 | XSETFASTINT (mini->top_line, frame_lines - 1); |
| 2143 | XSETFASTINT (mini->total_cols, frame_cols); |
| 2144 | set_window_height (root->next, 1, 0); |
| 2145 | |
| 2146 | adjust_frame_glyphs (sf); |
| 2147 | glyphs_initialized_initially_p = 1; |
| 2148 | } |
| 2149 | |
| 2150 | |
| 2151 | /* Allocate/reallocate glyph matrices of a single frame F. */ |
| 2152 | |
| 2153 | static void |
| 2154 | adjust_frame_glyphs (f) |
| 2155 | struct frame *f; |
| 2156 | { |
| 2157 | if (FRAME_WINDOW_P (f)) |
| 2158 | adjust_frame_glyphs_for_window_redisplay (f); |
| 2159 | else |
| 2160 | adjust_frame_glyphs_for_frame_redisplay (f); |
| 2161 | |
| 2162 | /* Don't forget the message buffer and the buffer for |
| 2163 | decode_mode_spec. */ |
| 2164 | adjust_frame_message_buffer (f); |
| 2165 | adjust_decode_mode_spec_buffer (f); |
| 2166 | |
| 2167 | f->glyphs_initialized_p = 1; |
| 2168 | } |
| 2169 | |
| 2170 | |
| 2171 | /* In the window tree with root W, build current matrices of leaf |
| 2172 | windows from the frame's current matrix. */ |
| 2173 | |
| 2174 | static void |
| 2175 | fake_current_matrices (window) |
| 2176 | Lisp_Object window; |
| 2177 | { |
| 2178 | struct window *w; |
| 2179 | |
| 2180 | for (; !NILP (window); window = w->next) |
| 2181 | { |
| 2182 | w = XWINDOW (window); |
| 2183 | |
| 2184 | if (!NILP (w->hchild)) |
| 2185 | fake_current_matrices (w->hchild); |
| 2186 | else if (!NILP (w->vchild)) |
| 2187 | fake_current_matrices (w->vchild); |
| 2188 | else |
| 2189 | { |
| 2190 | int i; |
| 2191 | struct frame *f = XFRAME (w->frame); |
| 2192 | struct glyph_matrix *m = w->current_matrix; |
| 2193 | struct glyph_matrix *fm = f->current_matrix; |
| 2194 | |
| 2195 | xassert (m->matrix_h == WINDOW_TOTAL_LINES (w)); |
| 2196 | xassert (m->matrix_w == WINDOW_TOTAL_COLS (w)); |
| 2197 | |
| 2198 | for (i = 0; i < m->matrix_h; ++i) |
| 2199 | { |
| 2200 | struct glyph_row *r = m->rows + i; |
| 2201 | struct glyph_row *fr = fm->rows + i + WINDOW_TOP_EDGE_LINE (w); |
| 2202 | |
| 2203 | xassert (r->glyphs[TEXT_AREA] >= fr->glyphs[TEXT_AREA] |
| 2204 | && r->glyphs[LAST_AREA] <= fr->glyphs[LAST_AREA]); |
| 2205 | |
| 2206 | r->enabled_p = fr->enabled_p; |
| 2207 | if (r->enabled_p) |
| 2208 | { |
| 2209 | r->used[LEFT_MARGIN_AREA] = m->left_margin_glyphs; |
| 2210 | r->used[RIGHT_MARGIN_AREA] = m->right_margin_glyphs; |
| 2211 | r->used[TEXT_AREA] = (m->matrix_w |
| 2212 | - r->used[LEFT_MARGIN_AREA] |
| 2213 | - r->used[RIGHT_MARGIN_AREA]); |
| 2214 | r->mode_line_p = 0; |
| 2215 | } |
| 2216 | } |
| 2217 | } |
| 2218 | } |
| 2219 | } |
| 2220 | |
| 2221 | |
| 2222 | /* Save away the contents of frame F's current frame matrix. Value is |
| 2223 | a glyph matrix holding the contents of F's current frame matrix. */ |
| 2224 | |
| 2225 | static struct glyph_matrix * |
| 2226 | save_current_matrix (f) |
| 2227 | struct frame *f; |
| 2228 | { |
| 2229 | int i; |
| 2230 | struct glyph_matrix *saved; |
| 2231 | |
| 2232 | saved = (struct glyph_matrix *) xmalloc (sizeof *saved); |
| 2233 | bzero (saved, sizeof *saved); |
| 2234 | saved->nrows = f->current_matrix->nrows; |
| 2235 | saved->rows = (struct glyph_row *) xmalloc (saved->nrows |
| 2236 | * sizeof *saved->rows); |
| 2237 | bzero (saved->rows, saved->nrows * sizeof *saved->rows); |
| 2238 | |
| 2239 | for (i = 0; i < saved->nrows; ++i) |
| 2240 | { |
| 2241 | struct glyph_row *from = f->current_matrix->rows + i; |
| 2242 | struct glyph_row *to = saved->rows + i; |
| 2243 | size_t nbytes = from->used[TEXT_AREA] * sizeof (struct glyph); |
| 2244 | to->glyphs[TEXT_AREA] = (struct glyph *) xmalloc (nbytes); |
| 2245 | bcopy (from->glyphs[TEXT_AREA], to->glyphs[TEXT_AREA], nbytes); |
| 2246 | to->used[TEXT_AREA] = from->used[TEXT_AREA]; |
| 2247 | } |
| 2248 | |
| 2249 | return saved; |
| 2250 | } |
| 2251 | |
| 2252 | |
| 2253 | /* Restore the contents of frame F's current frame matrix from SAVED, |
| 2254 | and free memory associated with SAVED. */ |
| 2255 | |
| 2256 | static void |
| 2257 | restore_current_matrix (f, saved) |
| 2258 | struct frame *f; |
| 2259 | struct glyph_matrix *saved; |
| 2260 | { |
| 2261 | int i; |
| 2262 | |
| 2263 | for (i = 0; i < saved->nrows; ++i) |
| 2264 | { |
| 2265 | struct glyph_row *from = saved->rows + i; |
| 2266 | struct glyph_row *to = f->current_matrix->rows + i; |
| 2267 | size_t nbytes = from->used[TEXT_AREA] * sizeof (struct glyph); |
| 2268 | bcopy (from->glyphs[TEXT_AREA], to->glyphs[TEXT_AREA], nbytes); |
| 2269 | to->used[TEXT_AREA] = from->used[TEXT_AREA]; |
| 2270 | xfree (from->glyphs[TEXT_AREA]); |
| 2271 | } |
| 2272 | |
| 2273 | xfree (saved->rows); |
| 2274 | xfree (saved); |
| 2275 | } |
| 2276 | |
| 2277 | |
| 2278 | |
| 2279 | /* Allocate/reallocate glyph matrices of a single frame F for |
| 2280 | frame-based redisplay. */ |
| 2281 | |
| 2282 | static void |
| 2283 | adjust_frame_glyphs_for_frame_redisplay (f) |
| 2284 | struct frame *f; |
| 2285 | { |
| 2286 | struct dim ch_dim; |
| 2287 | struct dim matrix_dim; |
| 2288 | int pool_changed_p; |
| 2289 | int window_change_flags; |
| 2290 | int top_window_y; |
| 2291 | |
| 2292 | if (!FRAME_LIVE_P (f)) |
| 2293 | return; |
| 2294 | |
| 2295 | /* Determine the smallest character in any font for F. On |
| 2296 | console windows, all characters have dimension (1, 1). */ |
| 2297 | ch_dim.width = ch_dim.height = 1; |
| 2298 | |
| 2299 | top_window_y = FRAME_TOP_MARGIN (f); |
| 2300 | |
| 2301 | /* Allocate glyph pool structures if not already done. */ |
| 2302 | if (f->desired_pool == NULL) |
| 2303 | { |
| 2304 | f->desired_pool = new_glyph_pool (); |
| 2305 | f->current_pool = new_glyph_pool (); |
| 2306 | } |
| 2307 | |
| 2308 | /* Allocate frames matrix structures if needed. */ |
| 2309 | if (f->desired_matrix == NULL) |
| 2310 | { |
| 2311 | f->desired_matrix = new_glyph_matrix (f->desired_pool); |
| 2312 | f->current_matrix = new_glyph_matrix (f->current_pool); |
| 2313 | } |
| 2314 | |
| 2315 | /* Compute window glyph matrices. (This takes the mini-buffer |
| 2316 | window into account). The result is the size of the frame glyph |
| 2317 | matrix needed. The variable window_change_flags is set to a bit |
| 2318 | mask indicating whether new matrices will be allocated or |
| 2319 | existing matrices change their size or location within the frame |
| 2320 | matrix. */ |
| 2321 | window_change_flags = 0; |
| 2322 | matrix_dim |
| 2323 | = allocate_matrices_for_frame_redisplay (FRAME_ROOT_WINDOW (f), |
| 2324 | 0, top_window_y, |
| 2325 | 1, |
| 2326 | &window_change_flags); |
| 2327 | |
| 2328 | /* Add in menu bar lines, if any. */ |
| 2329 | matrix_dim.height += top_window_y; |
| 2330 | |
| 2331 | /* Enlarge pools as necessary. */ |
| 2332 | pool_changed_p = realloc_glyph_pool (f->desired_pool, matrix_dim); |
| 2333 | realloc_glyph_pool (f->current_pool, matrix_dim); |
| 2334 | |
| 2335 | /* Set up glyph pointers within window matrices. Do this only if |
| 2336 | absolutely necessary since it requires a frame redraw. */ |
| 2337 | if (pool_changed_p || window_change_flags) |
| 2338 | { |
| 2339 | /* Do it for window matrices. */ |
| 2340 | allocate_matrices_for_frame_redisplay (FRAME_ROOT_WINDOW (f), |
| 2341 | 0, top_window_y, 0, |
| 2342 | &window_change_flags); |
| 2343 | |
| 2344 | /* Size of frame matrices must equal size of frame. Note |
| 2345 | that we are called for X frames with window widths NOT equal |
| 2346 | to the frame width (from CHANGE_FRAME_SIZE_1). */ |
| 2347 | xassert (matrix_dim.width == FRAME_COLS (f) |
| 2348 | && matrix_dim.height == FRAME_LINES (f)); |
| 2349 | |
| 2350 | /* Pointers to glyph memory in glyph rows are exchanged during |
| 2351 | the update phase of redisplay, which means in general that a |
| 2352 | frame's current matrix consists of pointers into both the |
| 2353 | desired and current glyph pool of the frame. Adjusting a |
| 2354 | matrix sets the frame matrix up so that pointers are all into |
| 2355 | the same pool. If we want to preserve glyph contents of the |
| 2356 | current matrix over a call to adjust_glyph_matrix, we must |
| 2357 | make a copy of the current glyphs, and restore the current |
| 2358 | matrix' contents from that copy. */ |
| 2359 | if (display_completed |
| 2360 | && !FRAME_GARBAGED_P (f) |
| 2361 | && matrix_dim.width == f->current_matrix->matrix_w |
| 2362 | && matrix_dim.height == f->current_matrix->matrix_h) |
| 2363 | { |
| 2364 | struct glyph_matrix *copy = save_current_matrix (f); |
| 2365 | adjust_glyph_matrix (NULL, f->desired_matrix, 0, 0, matrix_dim); |
| 2366 | adjust_glyph_matrix (NULL, f->current_matrix, 0, 0, matrix_dim); |
| 2367 | restore_current_matrix (f, copy); |
| 2368 | fake_current_matrices (FRAME_ROOT_WINDOW (f)); |
| 2369 | } |
| 2370 | else |
| 2371 | { |
| 2372 | adjust_glyph_matrix (NULL, f->desired_matrix, 0, 0, matrix_dim); |
| 2373 | adjust_glyph_matrix (NULL, f->current_matrix, 0, 0, matrix_dim); |
| 2374 | SET_FRAME_GARBAGED (f); |
| 2375 | } |
| 2376 | } |
| 2377 | } |
| 2378 | |
| 2379 | |
| 2380 | /* Allocate/reallocate glyph matrices of a single frame F for |
| 2381 | window-based redisplay. */ |
| 2382 | |
| 2383 | static void |
| 2384 | adjust_frame_glyphs_for_window_redisplay (f) |
| 2385 | struct frame *f; |
| 2386 | { |
| 2387 | struct dim ch_dim; |
| 2388 | struct window *w; |
| 2389 | |
| 2390 | xassert (FRAME_WINDOW_P (f) && FRAME_LIVE_P (f)); |
| 2391 | |
| 2392 | /* Get minimum sizes. */ |
| 2393 | #ifdef HAVE_WINDOW_SYSTEM |
| 2394 | ch_dim.width = FRAME_SMALLEST_CHAR_WIDTH (f); |
| 2395 | ch_dim.height = FRAME_SMALLEST_FONT_HEIGHT (f); |
| 2396 | #else |
| 2397 | ch_dim.width = ch_dim.height = 1; |
| 2398 | #endif |
| 2399 | |
| 2400 | /* Allocate/reallocate window matrices. */ |
| 2401 | allocate_matrices_for_window_redisplay (XWINDOW (FRAME_ROOT_WINDOW (f))); |
| 2402 | |
| 2403 | /* Allocate/ reallocate matrices of the dummy window used to display |
| 2404 | the menu bar under X when no X toolkit support is available. */ |
| 2405 | #if ! defined (USE_X_TOOLKIT) && ! defined (USE_GTK) |
| 2406 | { |
| 2407 | /* Allocate a dummy window if not already done. */ |
| 2408 | if (NILP (f->menu_bar_window)) |
| 2409 | { |
| 2410 | f->menu_bar_window = make_window (); |
| 2411 | w = XWINDOW (f->menu_bar_window); |
| 2412 | XSETFRAME (w->frame, f); |
| 2413 | w->pseudo_window_p = 1; |
| 2414 | } |
| 2415 | else |
| 2416 | w = XWINDOW (f->menu_bar_window); |
| 2417 | |
| 2418 | /* Set window dimensions to frame dimensions and allocate or |
| 2419 | adjust glyph matrices of W. */ |
| 2420 | XSETFASTINT (w->top_line, 0); |
| 2421 | XSETFASTINT (w->left_col, 0); |
| 2422 | XSETFASTINT (w->total_lines, FRAME_MENU_BAR_LINES (f)); |
| 2423 | XSETFASTINT (w->total_cols, FRAME_TOTAL_COLS (f)); |
| 2424 | allocate_matrices_for_window_redisplay (w); |
| 2425 | } |
| 2426 | #endif /* not USE_X_TOOLKIT */ |
| 2427 | |
| 2428 | #ifndef USE_GTK |
| 2429 | /* Allocate/ reallocate matrices of the tool bar window. If we |
| 2430 | don't have a tool bar window yet, make one. */ |
| 2431 | if (NILP (f->tool_bar_window)) |
| 2432 | { |
| 2433 | f->tool_bar_window = make_window (); |
| 2434 | w = XWINDOW (f->tool_bar_window); |
| 2435 | XSETFRAME (w->frame, f); |
| 2436 | w->pseudo_window_p = 1; |
| 2437 | } |
| 2438 | else |
| 2439 | w = XWINDOW (f->tool_bar_window); |
| 2440 | |
| 2441 | XSETFASTINT (w->top_line, FRAME_MENU_BAR_LINES (f)); |
| 2442 | XSETFASTINT (w->left_col, 0); |
| 2443 | XSETFASTINT (w->total_lines, FRAME_TOOL_BAR_LINES (f)); |
| 2444 | XSETFASTINT (w->total_cols, FRAME_TOTAL_COLS (f)); |
| 2445 | allocate_matrices_for_window_redisplay (w); |
| 2446 | #endif |
| 2447 | } |
| 2448 | |
| 2449 | |
| 2450 | /* Adjust/ allocate message buffer of frame F. |
| 2451 | |
| 2452 | Note that the message buffer is never freed. Since I could not |
| 2453 | find a free in 19.34, I assume that freeing it would be |
| 2454 | problematic in some way and don't do it either. |
| 2455 | |
| 2456 | (Implementation note: It should be checked if we can free it |
| 2457 | eventually without causing trouble). */ |
| 2458 | |
| 2459 | static void |
| 2460 | adjust_frame_message_buffer (f) |
| 2461 | struct frame *f; |
| 2462 | { |
| 2463 | int size = FRAME_MESSAGE_BUF_SIZE (f) + 1; |
| 2464 | |
| 2465 | if (FRAME_MESSAGE_BUF (f)) |
| 2466 | { |
| 2467 | char *buffer = FRAME_MESSAGE_BUF (f); |
| 2468 | char *new_buffer = (char *) xrealloc (buffer, size); |
| 2469 | FRAME_MESSAGE_BUF (f) = new_buffer; |
| 2470 | } |
| 2471 | else |
| 2472 | FRAME_MESSAGE_BUF (f) = (char *) xmalloc (size); |
| 2473 | } |
| 2474 | |
| 2475 | |
| 2476 | /* Re-allocate buffer for decode_mode_spec on frame F. */ |
| 2477 | |
| 2478 | static void |
| 2479 | adjust_decode_mode_spec_buffer (f) |
| 2480 | struct frame *f; |
| 2481 | { |
| 2482 | f->decode_mode_spec_buffer |
| 2483 | = (char *) xrealloc (f->decode_mode_spec_buffer, |
| 2484 | FRAME_MESSAGE_BUF_SIZE (f) + 1); |
| 2485 | } |
| 2486 | |
| 2487 | |
| 2488 | \f |
| 2489 | /********************************************************************** |
| 2490 | Freeing Glyph Matrices |
| 2491 | **********************************************************************/ |
| 2492 | |
| 2493 | /* Free glyph memory for a frame F. F may be null. This function can |
| 2494 | be called for the same frame more than once. The root window of |
| 2495 | F may be nil when this function is called. This is the case when |
| 2496 | the function is called when F is destroyed. */ |
| 2497 | |
| 2498 | void |
| 2499 | free_glyphs (f) |
| 2500 | struct frame *f; |
| 2501 | { |
| 2502 | if (f && f->glyphs_initialized_p) |
| 2503 | { |
| 2504 | /* Block interrupt input so that we don't get surprised by an X |
| 2505 | event while we're in an inconsistent state. */ |
| 2506 | BLOCK_INPUT; |
| 2507 | f->glyphs_initialized_p = 0; |
| 2508 | |
| 2509 | /* Release window sub-matrices. */ |
| 2510 | if (!NILP (f->root_window)) |
| 2511 | free_window_matrices (XWINDOW (f->root_window)); |
| 2512 | |
| 2513 | /* Free the dummy window for menu bars without X toolkit and its |
| 2514 | glyph matrices. */ |
| 2515 | if (!NILP (f->menu_bar_window)) |
| 2516 | { |
| 2517 | struct window *w = XWINDOW (f->menu_bar_window); |
| 2518 | free_glyph_matrix (w->desired_matrix); |
| 2519 | free_glyph_matrix (w->current_matrix); |
| 2520 | w->desired_matrix = w->current_matrix = NULL; |
| 2521 | f->menu_bar_window = Qnil; |
| 2522 | } |
| 2523 | |
| 2524 | /* Free the tool bar window and its glyph matrices. */ |
| 2525 | if (!NILP (f->tool_bar_window)) |
| 2526 | { |
| 2527 | struct window *w = XWINDOW (f->tool_bar_window); |
| 2528 | free_glyph_matrix (w->desired_matrix); |
| 2529 | free_glyph_matrix (w->current_matrix); |
| 2530 | w->desired_matrix = w->current_matrix = NULL; |
| 2531 | f->tool_bar_window = Qnil; |
| 2532 | } |
| 2533 | |
| 2534 | /* Release frame glyph matrices. Reset fields to zero in |
| 2535 | case we are called a second time. */ |
| 2536 | if (f->desired_matrix) |
| 2537 | { |
| 2538 | free_glyph_matrix (f->desired_matrix); |
| 2539 | free_glyph_matrix (f->current_matrix); |
| 2540 | f->desired_matrix = f->current_matrix = NULL; |
| 2541 | } |
| 2542 | |
| 2543 | /* Release glyph pools. */ |
| 2544 | if (f->desired_pool) |
| 2545 | { |
| 2546 | free_glyph_pool (f->desired_pool); |
| 2547 | free_glyph_pool (f->current_pool); |
| 2548 | f->desired_pool = f->current_pool = NULL; |
| 2549 | } |
| 2550 | |
| 2551 | UNBLOCK_INPUT; |
| 2552 | } |
| 2553 | } |
| 2554 | |
| 2555 | |
| 2556 | /* Free glyph sub-matrices in the window tree rooted at W. This |
| 2557 | function may be called with a null pointer, and it may be called on |
| 2558 | the same tree more than once. */ |
| 2559 | |
| 2560 | void |
| 2561 | free_window_matrices (w) |
| 2562 | struct window *w; |
| 2563 | { |
| 2564 | while (w) |
| 2565 | { |
| 2566 | if (!NILP (w->hchild)) |
| 2567 | free_window_matrices (XWINDOW (w->hchild)); |
| 2568 | else if (!NILP (w->vchild)) |
| 2569 | free_window_matrices (XWINDOW (w->vchild)); |
| 2570 | else |
| 2571 | { |
| 2572 | /* This is a leaf window. Free its memory and reset fields |
| 2573 | to zero in case this function is called a second time for |
| 2574 | W. */ |
| 2575 | free_glyph_matrix (w->current_matrix); |
| 2576 | free_glyph_matrix (w->desired_matrix); |
| 2577 | w->current_matrix = w->desired_matrix = NULL; |
| 2578 | } |
| 2579 | |
| 2580 | /* Next window on same level. */ |
| 2581 | w = NILP (w->next) ? 0 : XWINDOW (w->next); |
| 2582 | } |
| 2583 | } |
| 2584 | |
| 2585 | |
| 2586 | /* Check glyph memory leaks. This function is called from |
| 2587 | shut_down_emacs. Note that frames are not destroyed when Emacs |
| 2588 | exits. We therefore free all glyph memory for all active frames |
| 2589 | explicitly and check that nothing is left allocated. */ |
| 2590 | |
| 2591 | void |
| 2592 | check_glyph_memory () |
| 2593 | { |
| 2594 | Lisp_Object tail, frame; |
| 2595 | |
| 2596 | /* Free glyph memory for all frames. */ |
| 2597 | FOR_EACH_FRAME (tail, frame) |
| 2598 | free_glyphs (XFRAME (frame)); |
| 2599 | |
| 2600 | /* Check that nothing is left allocated. */ |
| 2601 | if (glyph_matrix_count) |
| 2602 | abort (); |
| 2603 | if (glyph_pool_count) |
| 2604 | abort (); |
| 2605 | } |
| 2606 | |
| 2607 | |
| 2608 | \f |
| 2609 | /********************************************************************** |
| 2610 | Building a Frame Matrix |
| 2611 | **********************************************************************/ |
| 2612 | |
| 2613 | /* Most of the redisplay code works on glyph matrices attached to |
| 2614 | windows. This is a good solution most of the time, but it is not |
| 2615 | suitable for terminal code. Terminal output functions cannot rely |
| 2616 | on being able to set an arbitrary terminal window. Instead they |
| 2617 | must be provided with a view of the whole frame, i.e. the whole |
| 2618 | screen. We build such a view by constructing a frame matrix from |
| 2619 | window matrices in this section. |
| 2620 | |
| 2621 | Windows that must be updated have their must_be_update_p flag set. |
| 2622 | For all such windows, their desired matrix is made part of the |
| 2623 | desired frame matrix. For other windows, their current matrix is |
| 2624 | made part of the desired frame matrix. |
| 2625 | |
| 2626 | +-----------------+----------------+ |
| 2627 | | desired | desired | |
| 2628 | | | | |
| 2629 | +-----------------+----------------+ |
| 2630 | | current | |
| 2631 | | | |
| 2632 | +----------------------------------+ |
| 2633 | |
| 2634 | Desired window matrices can be made part of the frame matrix in a |
| 2635 | cheap way: We exploit the fact that the desired frame matrix and |
| 2636 | desired window matrices share their glyph memory. This is not |
| 2637 | possible for current window matrices. Their glyphs are copied to |
| 2638 | the desired frame matrix. The latter is equivalent to |
| 2639 | preserve_other_columns in the old redisplay. |
| 2640 | |
| 2641 | Used glyphs counters for frame matrix rows are the result of adding |
| 2642 | up glyph lengths of the window matrices. A line in the frame |
| 2643 | matrix is enabled, if a corresponding line in a window matrix is |
| 2644 | enabled. |
| 2645 | |
| 2646 | After building the desired frame matrix, it will be passed to |
| 2647 | terminal code, which will manipulate both the desired and current |
| 2648 | frame matrix. Changes applied to the frame's current matrix have |
| 2649 | to be visible in current window matrices afterwards, of course. |
| 2650 | |
| 2651 | This problem is solved like this: |
| 2652 | |
| 2653 | 1. Window and frame matrices share glyphs. Window matrices are |
| 2654 | constructed in a way that their glyph contents ARE the glyph |
| 2655 | contents needed in a frame matrix. Thus, any modification of |
| 2656 | glyphs done in terminal code will be reflected in window matrices |
| 2657 | automatically. |
| 2658 | |
| 2659 | 2. Exchanges of rows in a frame matrix done by terminal code are |
| 2660 | intercepted by hook functions so that corresponding row operations |
| 2661 | on window matrices can be performed. This is necessary because we |
| 2662 | use pointers to glyphs in glyph row structures. To satisfy the |
| 2663 | assumption of point 1 above that glyphs are updated implicitly in |
| 2664 | window matrices when they are manipulated via the frame matrix, |
| 2665 | window and frame matrix must of course agree where to find the |
| 2666 | glyphs for their rows. Possible manipulations that must be |
| 2667 | mirrored are assignments of rows of the desired frame matrix to the |
| 2668 | current frame matrix and scrolling the current frame matrix. */ |
| 2669 | |
| 2670 | /* Build frame F's desired matrix from window matrices. Only windows |
| 2671 | which have the flag must_be_updated_p set have to be updated. Menu |
| 2672 | bar lines of a frame are not covered by window matrices, so make |
| 2673 | sure not to touch them in this function. */ |
| 2674 | |
| 2675 | static void |
| 2676 | build_frame_matrix (f) |
| 2677 | struct frame *f; |
| 2678 | { |
| 2679 | int i; |
| 2680 | |
| 2681 | /* F must have a frame matrix when this function is called. */ |
| 2682 | xassert (!FRAME_WINDOW_P (f)); |
| 2683 | |
| 2684 | /* Clear all rows in the frame matrix covered by window matrices. |
| 2685 | Menu bar lines are not covered by windows. */ |
| 2686 | for (i = FRAME_TOP_MARGIN (f); i < f->desired_matrix->nrows; ++i) |
| 2687 | clear_glyph_row (MATRIX_ROW (f->desired_matrix, i)); |
| 2688 | |
| 2689 | /* Build the matrix by walking the window tree. */ |
| 2690 | build_frame_matrix_from_window_tree (f->desired_matrix, |
| 2691 | XWINDOW (FRAME_ROOT_WINDOW (f))); |
| 2692 | } |
| 2693 | |
| 2694 | |
| 2695 | /* Walk a window tree, building a frame matrix MATRIX from window |
| 2696 | matrices. W is the root of a window tree. */ |
| 2697 | |
| 2698 | static void |
| 2699 | build_frame_matrix_from_window_tree (matrix, w) |
| 2700 | struct glyph_matrix *matrix; |
| 2701 | struct window *w; |
| 2702 | { |
| 2703 | while (w) |
| 2704 | { |
| 2705 | if (!NILP (w->hchild)) |
| 2706 | build_frame_matrix_from_window_tree (matrix, XWINDOW (w->hchild)); |
| 2707 | else if (!NILP (w->vchild)) |
| 2708 | build_frame_matrix_from_window_tree (matrix, XWINDOW (w->vchild)); |
| 2709 | else |
| 2710 | build_frame_matrix_from_leaf_window (matrix, w); |
| 2711 | |
| 2712 | w = NILP (w->next) ? 0 : XWINDOW (w->next); |
| 2713 | } |
| 2714 | } |
| 2715 | |
| 2716 | |
| 2717 | /* Add a window's matrix to a frame matrix. FRAME_MATRIX is the |
| 2718 | desired frame matrix built. W is a leaf window whose desired or |
| 2719 | current matrix is to be added to FRAME_MATRIX. W's flag |
| 2720 | must_be_updated_p determines which matrix it contributes to |
| 2721 | FRAME_MATRIX. If must_be_updated_p is non-zero, W's desired matrix |
| 2722 | is added to FRAME_MATRIX, otherwise W's current matrix is added. |
| 2723 | Adding a desired matrix means setting up used counters and such in |
| 2724 | frame rows, while adding a current window matrix to FRAME_MATRIX |
| 2725 | means copying glyphs. The latter case corresponds to |
| 2726 | preserve_other_columns in the old redisplay. */ |
| 2727 | |
| 2728 | static void |
| 2729 | build_frame_matrix_from_leaf_window (frame_matrix, w) |
| 2730 | struct glyph_matrix *frame_matrix; |
| 2731 | struct window *w; |
| 2732 | { |
| 2733 | struct glyph_matrix *window_matrix; |
| 2734 | int window_y, frame_y; |
| 2735 | /* If non-zero, a glyph to insert at the right border of W. */ |
| 2736 | GLYPH right_border_glyph = 0; |
| 2737 | |
| 2738 | /* Set window_matrix to the matrix we have to add to FRAME_MATRIX. */ |
| 2739 | if (w->must_be_updated_p) |
| 2740 | { |
| 2741 | window_matrix = w->desired_matrix; |
| 2742 | |
| 2743 | /* Decide whether we want to add a vertical border glyph. */ |
| 2744 | if (!WINDOW_RIGHTMOST_P (w)) |
| 2745 | { |
| 2746 | struct Lisp_Char_Table *dp = window_display_table (w); |
| 2747 | |
| 2748 | right_border_glyph |
| 2749 | = ((dp && INTEGERP (DISP_BORDER_GLYPH (dp))) |
| 2750 | ? spec_glyph_lookup_face (w, XINT (DISP_BORDER_GLYPH (dp))) |
| 2751 | : '|'); |
| 2752 | |
| 2753 | if (FAST_GLYPH_FACE (right_border_glyph) <= 0) |
| 2754 | right_border_glyph |
| 2755 | = FAST_MAKE_GLYPH (right_border_glyph, VERTICAL_BORDER_FACE_ID); |
| 2756 | } |
| 2757 | } |
| 2758 | else |
| 2759 | window_matrix = w->current_matrix; |
| 2760 | |
| 2761 | /* For all rows in the window matrix and corresponding rows in the |
| 2762 | frame matrix. */ |
| 2763 | window_y = 0; |
| 2764 | frame_y = window_matrix->matrix_y; |
| 2765 | while (window_y < window_matrix->nrows) |
| 2766 | { |
| 2767 | struct glyph_row *frame_row = frame_matrix->rows + frame_y; |
| 2768 | struct glyph_row *window_row = window_matrix->rows + window_y; |
| 2769 | int current_row_p = window_matrix == w->current_matrix; |
| 2770 | |
| 2771 | /* Fill up the frame row with spaces up to the left margin of the |
| 2772 | window row. */ |
| 2773 | fill_up_frame_row_with_spaces (frame_row, window_matrix->matrix_x); |
| 2774 | |
| 2775 | /* Fill up areas in the window matrix row with spaces. */ |
| 2776 | fill_up_glyph_row_with_spaces (window_row); |
| 2777 | |
| 2778 | /* If only part of W's desired matrix has been built, and |
| 2779 | window_row wasn't displayed, use the corresponding current |
| 2780 | row instead. */ |
| 2781 | if (window_matrix == w->desired_matrix |
| 2782 | && !window_row->enabled_p) |
| 2783 | { |
| 2784 | window_row = w->current_matrix->rows + window_y; |
| 2785 | current_row_p = 1; |
| 2786 | } |
| 2787 | |
| 2788 | if (current_row_p) |
| 2789 | { |
| 2790 | /* Copy window row to frame row. */ |
| 2791 | bcopy (window_row->glyphs[0], |
| 2792 | frame_row->glyphs[TEXT_AREA] + window_matrix->matrix_x, |
| 2793 | window_matrix->matrix_w * sizeof (struct glyph)); |
| 2794 | } |
| 2795 | else |
| 2796 | { |
| 2797 | xassert (window_row->enabled_p); |
| 2798 | |
| 2799 | /* Only when a desired row has been displayed, we want |
| 2800 | the corresponding frame row to be updated. */ |
| 2801 | frame_row->enabled_p = 1; |
| 2802 | |
| 2803 | /* Maybe insert a vertical border between horizontally adjacent |
| 2804 | windows. */ |
| 2805 | if (right_border_glyph) |
| 2806 | { |
| 2807 | struct glyph *border = window_row->glyphs[LAST_AREA] - 1; |
| 2808 | SET_CHAR_GLYPH_FROM_GLYPH (*border, right_border_glyph); |
| 2809 | } |
| 2810 | |
| 2811 | #if GLYPH_DEBUG |
| 2812 | /* Window row window_y must be a slice of frame row |
| 2813 | frame_y. */ |
| 2814 | xassert (glyph_row_slice_p (window_row, frame_row)); |
| 2815 | |
| 2816 | /* If rows are in sync, we don't have to copy glyphs because |
| 2817 | frame and window share glyphs. */ |
| 2818 | |
| 2819 | strcpy (w->current_matrix->method, w->desired_matrix->method); |
| 2820 | add_window_display_history (w, w->current_matrix->method, 0); |
| 2821 | #endif |
| 2822 | } |
| 2823 | |
| 2824 | /* Set number of used glyphs in the frame matrix. Since we fill |
| 2825 | up with spaces, and visit leaf windows from left to right it |
| 2826 | can be done simply. */ |
| 2827 | frame_row->used[TEXT_AREA] |
| 2828 | = window_matrix->matrix_x + window_matrix->matrix_w; |
| 2829 | |
| 2830 | /* Next row. */ |
| 2831 | ++window_y; |
| 2832 | ++frame_y; |
| 2833 | } |
| 2834 | } |
| 2835 | |
| 2836 | /* Given a user-specified glyph, possibly including a Lisp-level face |
| 2837 | ID, return a glyph that has a realized face ID. |
| 2838 | This is used for glyphs displayed specially and not part of the text; |
| 2839 | for instance, vertical separators, truncation markers, etc. */ |
| 2840 | |
| 2841 | GLYPH |
| 2842 | spec_glyph_lookup_face (w, glyph) |
| 2843 | struct window *w; |
| 2844 | GLYPH glyph; |
| 2845 | { |
| 2846 | int lface_id = FAST_GLYPH_FACE (glyph); |
| 2847 | /* Convert the glyph's specified face to a realized (cache) face. */ |
| 2848 | if (lface_id > 0) |
| 2849 | { |
| 2850 | int face_id = merge_faces (XFRAME (w->frame), |
| 2851 | Qt, lface_id, DEFAULT_FACE_ID); |
| 2852 | glyph |
| 2853 | = FAST_MAKE_GLYPH (FAST_GLYPH_CHAR (glyph), face_id); |
| 2854 | } |
| 2855 | return glyph; |
| 2856 | } |
| 2857 | |
| 2858 | /* Add spaces to a glyph row ROW in a window matrix. |
| 2859 | |
| 2860 | Each row has the form: |
| 2861 | |
| 2862 | +---------+-----------------------------+------------+ |
| 2863 | | left | text | right | |
| 2864 | +---------+-----------------------------+------------+ |
| 2865 | |
| 2866 | Left and right marginal areas are optional. This function adds |
| 2867 | spaces to areas so that there are no empty holes between areas. |
| 2868 | In other words: If the right area is not empty, the text area |
| 2869 | is filled up with spaces up to the right area. If the text area |
| 2870 | is not empty, the left area is filled up. |
| 2871 | |
| 2872 | To be called for frame-based redisplay, only. */ |
| 2873 | |
| 2874 | static void |
| 2875 | fill_up_glyph_row_with_spaces (row) |
| 2876 | struct glyph_row *row; |
| 2877 | { |
| 2878 | fill_up_glyph_row_area_with_spaces (row, LEFT_MARGIN_AREA); |
| 2879 | fill_up_glyph_row_area_with_spaces (row, TEXT_AREA); |
| 2880 | fill_up_glyph_row_area_with_spaces (row, RIGHT_MARGIN_AREA); |
| 2881 | } |
| 2882 | |
| 2883 | |
| 2884 | /* Fill area AREA of glyph row ROW with spaces. To be called for |
| 2885 | frame-based redisplay only. */ |
| 2886 | |
| 2887 | static void |
| 2888 | fill_up_glyph_row_area_with_spaces (row, area) |
| 2889 | struct glyph_row *row; |
| 2890 | int area; |
| 2891 | { |
| 2892 | if (row->glyphs[area] < row->glyphs[area + 1]) |
| 2893 | { |
| 2894 | struct glyph *end = row->glyphs[area + 1]; |
| 2895 | struct glyph *text = row->glyphs[area] + row->used[area]; |
| 2896 | |
| 2897 | while (text < end) |
| 2898 | *text++ = space_glyph; |
| 2899 | row->used[area] = text - row->glyphs[area]; |
| 2900 | } |
| 2901 | } |
| 2902 | |
| 2903 | |
| 2904 | /* Add spaces to the end of ROW in a frame matrix until index UPTO is |
| 2905 | reached. In frame matrices only one area, TEXT_AREA, is used. */ |
| 2906 | |
| 2907 | static void |
| 2908 | fill_up_frame_row_with_spaces (row, upto) |
| 2909 | struct glyph_row *row; |
| 2910 | int upto; |
| 2911 | { |
| 2912 | int i = row->used[TEXT_AREA]; |
| 2913 | struct glyph *glyph = row->glyphs[TEXT_AREA]; |
| 2914 | |
| 2915 | while (i < upto) |
| 2916 | glyph[i++] = space_glyph; |
| 2917 | |
| 2918 | row->used[TEXT_AREA] = i; |
| 2919 | } |
| 2920 | |
| 2921 | |
| 2922 | \f |
| 2923 | /********************************************************************** |
| 2924 | Mirroring operations on frame matrices in window matrices |
| 2925 | **********************************************************************/ |
| 2926 | |
| 2927 | /* Set frame being updated via frame-based redisplay to F. This |
| 2928 | function must be called before updates to make explicit that we are |
| 2929 | working on frame matrices or not. */ |
| 2930 | |
| 2931 | static INLINE void |
| 2932 | set_frame_matrix_frame (f) |
| 2933 | struct frame *f; |
| 2934 | { |
| 2935 | frame_matrix_frame = f; |
| 2936 | } |
| 2937 | |
| 2938 | |
| 2939 | /* Make sure glyph row ROW in CURRENT_MATRIX is up to date. |
| 2940 | DESIRED_MATRIX is the desired matrix corresponding to |
| 2941 | CURRENT_MATRIX. The update is done by exchanging glyph pointers |
| 2942 | between rows in CURRENT_MATRIX and DESIRED_MATRIX. If |
| 2943 | frame_matrix_frame is non-null, this indicates that the exchange is |
| 2944 | done in frame matrices, and that we have to perform analogous |
| 2945 | operations in window matrices of frame_matrix_frame. */ |
| 2946 | |
| 2947 | static INLINE void |
| 2948 | make_current (desired_matrix, current_matrix, row) |
| 2949 | struct glyph_matrix *desired_matrix, *current_matrix; |
| 2950 | int row; |
| 2951 | { |
| 2952 | struct glyph_row *current_row = MATRIX_ROW (current_matrix, row); |
| 2953 | struct glyph_row *desired_row = MATRIX_ROW (desired_matrix, row); |
| 2954 | int mouse_face_p = current_row->mouse_face_p; |
| 2955 | |
| 2956 | /* Do current_row = desired_row. This exchanges glyph pointers |
| 2957 | between both rows, and does a structure assignment otherwise. */ |
| 2958 | assign_row (current_row, desired_row); |
| 2959 | |
| 2960 | /* Enable current_row to mark it as valid. */ |
| 2961 | current_row->enabled_p = 1; |
| 2962 | current_row->mouse_face_p = mouse_face_p; |
| 2963 | |
| 2964 | /* If we are called on frame matrices, perform analogous operations |
| 2965 | for window matrices. */ |
| 2966 | if (frame_matrix_frame) |
| 2967 | mirror_make_current (XWINDOW (frame_matrix_frame->root_window), row); |
| 2968 | } |
| 2969 | |
| 2970 | |
| 2971 | /* W is the root of a window tree. FRAME_ROW is the index of a row in |
| 2972 | W's frame which has been made current (by swapping pointers between |
| 2973 | current and desired matrix). Perform analogous operations in the |
| 2974 | matrices of leaf windows in the window tree rooted at W. */ |
| 2975 | |
| 2976 | static void |
| 2977 | mirror_make_current (w, frame_row) |
| 2978 | struct window *w; |
| 2979 | int frame_row; |
| 2980 | { |
| 2981 | while (w) |
| 2982 | { |
| 2983 | if (!NILP (w->hchild)) |
| 2984 | mirror_make_current (XWINDOW (w->hchild), frame_row); |
| 2985 | else if (!NILP (w->vchild)) |
| 2986 | mirror_make_current (XWINDOW (w->vchild), frame_row); |
| 2987 | else |
| 2988 | { |
| 2989 | /* Row relative to window W. Don't use FRAME_TO_WINDOW_VPOS |
| 2990 | here because the checks performed in debug mode there |
| 2991 | will not allow the conversion. */ |
| 2992 | int row = frame_row - w->desired_matrix->matrix_y; |
| 2993 | |
| 2994 | /* If FRAME_ROW is within W, assign the desired row to the |
| 2995 | current row (exchanging glyph pointers). */ |
| 2996 | if (row >= 0 && row < w->desired_matrix->matrix_h) |
| 2997 | { |
| 2998 | struct glyph_row *current_row |
| 2999 | = MATRIX_ROW (w->current_matrix, row); |
| 3000 | struct glyph_row *desired_row |
| 3001 | = MATRIX_ROW (w->desired_matrix, row); |
| 3002 | |
| 3003 | if (desired_row->enabled_p) |
| 3004 | assign_row (current_row, desired_row); |
| 3005 | else |
| 3006 | swap_glyph_pointers (desired_row, current_row); |
| 3007 | current_row->enabled_p = 1; |
| 3008 | } |
| 3009 | } |
| 3010 | |
| 3011 | w = NILP (w->next) ? 0 : XWINDOW (w->next); |
| 3012 | } |
| 3013 | } |
| 3014 | |
| 3015 | |
| 3016 | /* Perform row dance after scrolling. We are working on the range of |
| 3017 | lines UNCHANGED_AT_TOP + 1 to UNCHANGED_AT_TOP + NLINES (not |
| 3018 | including) in MATRIX. COPY_FROM is a vector containing, for each |
| 3019 | row I in the range 0 <= I < NLINES, the index of the original line |
| 3020 | to move to I. This index is relative to the row range, i.e. 0 <= |
| 3021 | index < NLINES. RETAINED_P is a vector containing zero for each |
| 3022 | row 0 <= I < NLINES which is empty. |
| 3023 | |
| 3024 | This function is called from do_scrolling and do_direct_scrolling. */ |
| 3025 | |
| 3026 | void |
| 3027 | mirrored_line_dance (matrix, unchanged_at_top, nlines, copy_from, |
| 3028 | retained_p) |
| 3029 | struct glyph_matrix *matrix; |
| 3030 | int unchanged_at_top, nlines; |
| 3031 | int *copy_from; |
| 3032 | char *retained_p; |
| 3033 | { |
| 3034 | /* A copy of original rows. */ |
| 3035 | struct glyph_row *old_rows; |
| 3036 | |
| 3037 | /* Rows to assign to. */ |
| 3038 | struct glyph_row *new_rows = MATRIX_ROW (matrix, unchanged_at_top); |
| 3039 | |
| 3040 | int i; |
| 3041 | |
| 3042 | /* Make a copy of the original rows. */ |
| 3043 | old_rows = (struct glyph_row *) alloca (nlines * sizeof *old_rows); |
| 3044 | bcopy (new_rows, old_rows, nlines * sizeof *old_rows); |
| 3045 | |
| 3046 | /* Assign new rows, maybe clear lines. */ |
| 3047 | for (i = 0; i < nlines; ++i) |
| 3048 | { |
| 3049 | int enabled_before_p = new_rows[i].enabled_p; |
| 3050 | |
| 3051 | xassert (i + unchanged_at_top < matrix->nrows); |
| 3052 | xassert (unchanged_at_top + copy_from[i] < matrix->nrows); |
| 3053 | new_rows[i] = old_rows[copy_from[i]]; |
| 3054 | new_rows[i].enabled_p = enabled_before_p; |
| 3055 | |
| 3056 | /* RETAINED_P is zero for empty lines. */ |
| 3057 | if (!retained_p[copy_from[i]]) |
| 3058 | new_rows[i].enabled_p = 0; |
| 3059 | } |
| 3060 | |
| 3061 | /* Do the same for window matrices, if MATRIX is a frame matrix. */ |
| 3062 | if (frame_matrix_frame) |
| 3063 | mirror_line_dance (XWINDOW (frame_matrix_frame->root_window), |
| 3064 | unchanged_at_top, nlines, copy_from, retained_p); |
| 3065 | } |
| 3066 | |
| 3067 | |
| 3068 | /* Synchronize glyph pointers in the current matrix of window W with |
| 3069 | the current frame matrix. */ |
| 3070 | |
| 3071 | static void |
| 3072 | sync_window_with_frame_matrix_rows (w) |
| 3073 | struct window *w; |
| 3074 | { |
| 3075 | struct frame *f = XFRAME (w->frame); |
| 3076 | struct glyph_row *window_row, *window_row_end, *frame_row; |
| 3077 | int left, right, x, width; |
| 3078 | |
| 3079 | /* Preconditions: W must be a leaf window on a tty frame. */ |
| 3080 | xassert (NILP (w->hchild) && NILP (w->vchild)); |
| 3081 | xassert (!FRAME_WINDOW_P (f)); |
| 3082 | |
| 3083 | left = margin_glyphs_to_reserve (w, 1, w->left_margin_cols); |
| 3084 | right = margin_glyphs_to_reserve (w, 1, w->right_margin_cols); |
| 3085 | x = w->current_matrix->matrix_x; |
| 3086 | width = w->current_matrix->matrix_w; |
| 3087 | |
| 3088 | window_row = w->current_matrix->rows; |
| 3089 | window_row_end = window_row + w->current_matrix->nrows; |
| 3090 | frame_row = f->current_matrix->rows + WINDOW_TOP_EDGE_LINE (w); |
| 3091 | |
| 3092 | for (; window_row < window_row_end; ++window_row, ++frame_row) |
| 3093 | { |
| 3094 | window_row->glyphs[LEFT_MARGIN_AREA] |
| 3095 | = frame_row->glyphs[0] + x; |
| 3096 | window_row->glyphs[TEXT_AREA] |
| 3097 | = window_row->glyphs[LEFT_MARGIN_AREA] + left; |
| 3098 | window_row->glyphs[LAST_AREA] |
| 3099 | = window_row->glyphs[LEFT_MARGIN_AREA] + width; |
| 3100 | window_row->glyphs[RIGHT_MARGIN_AREA] |
| 3101 | = window_row->glyphs[LAST_AREA] - right; |
| 3102 | } |
| 3103 | } |
| 3104 | |
| 3105 | |
| 3106 | /* Return the window in the window tree rooted in W containing frame |
| 3107 | row ROW. Value is null if none is found. */ |
| 3108 | |
| 3109 | struct window * |
| 3110 | frame_row_to_window (w, row) |
| 3111 | struct window *w; |
| 3112 | int row; |
| 3113 | { |
| 3114 | struct window *found = NULL; |
| 3115 | |
| 3116 | while (w && !found) |
| 3117 | { |
| 3118 | if (!NILP (w->hchild)) |
| 3119 | found = frame_row_to_window (XWINDOW (w->hchild), row); |
| 3120 | else if (!NILP (w->vchild)) |
| 3121 | found = frame_row_to_window (XWINDOW (w->vchild), row); |
| 3122 | else if (row >= WINDOW_TOP_EDGE_LINE (w) |
| 3123 | && row < WINDOW_BOTTOM_EDGE_LINE (w)) |
| 3124 | found = w; |
| 3125 | |
| 3126 | w = NILP (w->next) ? 0 : XWINDOW (w->next); |
| 3127 | } |
| 3128 | |
| 3129 | return found; |
| 3130 | } |
| 3131 | |
| 3132 | |
| 3133 | /* Perform a line dance in the window tree rooted at W, after |
| 3134 | scrolling a frame matrix in mirrored_line_dance. |
| 3135 | |
| 3136 | We are working on the range of lines UNCHANGED_AT_TOP + 1 to |
| 3137 | UNCHANGED_AT_TOP + NLINES (not including) in W's frame matrix. |
| 3138 | COPY_FROM is a vector containing, for each row I in the range 0 <= |
| 3139 | I < NLINES, the index of the original line to move to I. This |
| 3140 | index is relative to the row range, i.e. 0 <= index < NLINES. |
| 3141 | RETAINED_P is a vector containing zero for each row 0 <= I < NLINES |
| 3142 | which is empty. */ |
| 3143 | |
| 3144 | static void |
| 3145 | mirror_line_dance (w, unchanged_at_top, nlines, copy_from, retained_p) |
| 3146 | struct window *w; |
| 3147 | int unchanged_at_top, nlines; |
| 3148 | int *copy_from; |
| 3149 | char *retained_p; |
| 3150 | { |
| 3151 | while (w) |
| 3152 | { |
| 3153 | if (!NILP (w->hchild)) |
| 3154 | mirror_line_dance (XWINDOW (w->hchild), unchanged_at_top, |
| 3155 | nlines, copy_from, retained_p); |
| 3156 | else if (!NILP (w->vchild)) |
| 3157 | mirror_line_dance (XWINDOW (w->vchild), unchanged_at_top, |
| 3158 | nlines, copy_from, retained_p); |
| 3159 | else |
| 3160 | { |
| 3161 | /* W is a leaf window, and we are working on its current |
| 3162 | matrix m. */ |
| 3163 | struct glyph_matrix *m = w->current_matrix; |
| 3164 | int i, sync_p = 0; |
| 3165 | struct glyph_row *old_rows; |
| 3166 | |
| 3167 | /* Make a copy of the original rows of matrix m. */ |
| 3168 | old_rows = (struct glyph_row *) alloca (m->nrows * sizeof *old_rows); |
| 3169 | bcopy (m->rows, old_rows, m->nrows * sizeof *old_rows); |
| 3170 | |
| 3171 | for (i = 0; i < nlines; ++i) |
| 3172 | { |
| 3173 | /* Frame relative line assigned to. */ |
| 3174 | int frame_to = i + unchanged_at_top; |
| 3175 | |
| 3176 | /* Frame relative line assigned. */ |
| 3177 | int frame_from = copy_from[i] + unchanged_at_top; |
| 3178 | |
| 3179 | /* Window relative line assigned to. */ |
| 3180 | int window_to = frame_to - m->matrix_y; |
| 3181 | |
| 3182 | /* Window relative line assigned. */ |
| 3183 | int window_from = frame_from - m->matrix_y; |
| 3184 | |
| 3185 | /* Is assigned line inside window? */ |
| 3186 | int from_inside_window_p |
| 3187 | = window_from >= 0 && window_from < m->matrix_h; |
| 3188 | |
| 3189 | /* Is assigned to line inside window? */ |
| 3190 | int to_inside_window_p |
| 3191 | = window_to >= 0 && window_to < m->matrix_h; |
| 3192 | |
| 3193 | if (from_inside_window_p && to_inside_window_p) |
| 3194 | { |
| 3195 | /* Enabled setting before assignment. */ |
| 3196 | int enabled_before_p; |
| 3197 | |
| 3198 | /* Do the assignment. The enabled_p flag is saved |
| 3199 | over the assignment because the old redisplay did |
| 3200 | that. */ |
| 3201 | enabled_before_p = m->rows[window_to].enabled_p; |
| 3202 | m->rows[window_to] = old_rows[window_from]; |
| 3203 | m->rows[window_to].enabled_p = enabled_before_p; |
| 3204 | |
| 3205 | /* If frame line is empty, window line is empty, too. */ |
| 3206 | if (!retained_p[copy_from[i]]) |
| 3207 | m->rows[window_to].enabled_p = 0; |
| 3208 | } |
| 3209 | else if (to_inside_window_p) |
| 3210 | { |
| 3211 | /* A copy between windows. This is an infrequent |
| 3212 | case not worth optimizing. */ |
| 3213 | struct frame *f = XFRAME (w->frame); |
| 3214 | struct window *root = XWINDOW (FRAME_ROOT_WINDOW (f)); |
| 3215 | struct window *w2; |
| 3216 | struct glyph_matrix *m2; |
| 3217 | int m2_from; |
| 3218 | |
| 3219 | w2 = frame_row_to_window (root, frame_from); |
| 3220 | /* ttn@surf.glug.org: when enabling menu bar using `emacs |
| 3221 | -nw', FROM_FRAME sometimes has no associated window. |
| 3222 | This check avoids a segfault if W2 is null. */ |
| 3223 | if (w2) |
| 3224 | { |
| 3225 | m2 = w2->current_matrix; |
| 3226 | m2_from = frame_from - m2->matrix_y; |
| 3227 | copy_row_except_pointers (m->rows + window_to, |
| 3228 | m2->rows + m2_from); |
| 3229 | |
| 3230 | /* If frame line is empty, window line is empty, too. */ |
| 3231 | if (!retained_p[copy_from[i]]) |
| 3232 | m->rows[window_to].enabled_p = 0; |
| 3233 | } |
| 3234 | sync_p = 1; |
| 3235 | } |
| 3236 | else if (from_inside_window_p) |
| 3237 | sync_p = 1; |
| 3238 | } |
| 3239 | |
| 3240 | /* If there was a copy between windows, make sure glyph |
| 3241 | pointers are in sync with the frame matrix. */ |
| 3242 | if (sync_p) |
| 3243 | sync_window_with_frame_matrix_rows (w); |
| 3244 | |
| 3245 | /* Check that no pointers are lost. */ |
| 3246 | CHECK_MATRIX (m); |
| 3247 | } |
| 3248 | |
| 3249 | /* Next window on same level. */ |
| 3250 | w = NILP (w->next) ? 0 : XWINDOW (w->next); |
| 3251 | } |
| 3252 | } |
| 3253 | |
| 3254 | |
| 3255 | #if GLYPH_DEBUG |
| 3256 | |
| 3257 | /* Check that window and frame matrices agree about their |
| 3258 | understanding where glyphs of the rows are to find. For each |
| 3259 | window in the window tree rooted at W, check that rows in the |
| 3260 | matrices of leaf window agree with their frame matrices about |
| 3261 | glyph pointers. */ |
| 3262 | |
| 3263 | void |
| 3264 | check_window_matrix_pointers (w) |
| 3265 | struct window *w; |
| 3266 | { |
| 3267 | while (w) |
| 3268 | { |
| 3269 | if (!NILP (w->hchild)) |
| 3270 | check_window_matrix_pointers (XWINDOW (w->hchild)); |
| 3271 | else if (!NILP (w->vchild)) |
| 3272 | check_window_matrix_pointers (XWINDOW (w->vchild)); |
| 3273 | else |
| 3274 | { |
| 3275 | struct frame *f = XFRAME (w->frame); |
| 3276 | check_matrix_pointers (w->desired_matrix, f->desired_matrix); |
| 3277 | check_matrix_pointers (w->current_matrix, f->current_matrix); |
| 3278 | } |
| 3279 | |
| 3280 | w = NILP (w->next) ? 0 : XWINDOW (w->next); |
| 3281 | } |
| 3282 | } |
| 3283 | |
| 3284 | |
| 3285 | /* Check that window rows are slices of frame rows. WINDOW_MATRIX is |
| 3286 | a window and FRAME_MATRIX is the corresponding frame matrix. For |
| 3287 | each row in WINDOW_MATRIX check that it's a slice of the |
| 3288 | corresponding frame row. If it isn't, abort. */ |
| 3289 | |
| 3290 | static void |
| 3291 | check_matrix_pointers (window_matrix, frame_matrix) |
| 3292 | struct glyph_matrix *window_matrix, *frame_matrix; |
| 3293 | { |
| 3294 | /* Row number in WINDOW_MATRIX. */ |
| 3295 | int i = 0; |
| 3296 | |
| 3297 | /* Row number corresponding to I in FRAME_MATRIX. */ |
| 3298 | int j = window_matrix->matrix_y; |
| 3299 | |
| 3300 | /* For all rows check that the row in the window matrix is a |
| 3301 | slice of the row in the frame matrix. If it isn't we didn't |
| 3302 | mirror an operation on the frame matrix correctly. */ |
| 3303 | while (i < window_matrix->nrows) |
| 3304 | { |
| 3305 | if (!glyph_row_slice_p (window_matrix->rows + i, |
| 3306 | frame_matrix->rows + j)) |
| 3307 | abort (); |
| 3308 | ++i, ++j; |
| 3309 | } |
| 3310 | } |
| 3311 | |
| 3312 | #endif /* GLYPH_DEBUG != 0 */ |
| 3313 | |
| 3314 | |
| 3315 | \f |
| 3316 | /********************************************************************** |
| 3317 | VPOS and HPOS translations |
| 3318 | **********************************************************************/ |
| 3319 | |
| 3320 | #if GLYPH_DEBUG |
| 3321 | |
| 3322 | /* Translate vertical position VPOS which is relative to window W to a |
| 3323 | vertical position relative to W's frame. */ |
| 3324 | |
| 3325 | static int |
| 3326 | window_to_frame_vpos (w, vpos) |
| 3327 | struct window *w; |
| 3328 | int vpos; |
| 3329 | { |
| 3330 | struct frame *f = XFRAME (w->frame); |
| 3331 | |
| 3332 | xassert (!FRAME_WINDOW_P (f)); |
| 3333 | xassert (vpos >= 0 && vpos <= w->desired_matrix->nrows); |
| 3334 | vpos += WINDOW_TOP_EDGE_LINE (w); |
| 3335 | xassert (vpos >= 0 && vpos <= FRAME_LINES (f)); |
| 3336 | return vpos; |
| 3337 | } |
| 3338 | |
| 3339 | |
| 3340 | /* Translate horizontal position HPOS which is relative to window W to |
| 3341 | a horizontal position relative to W's frame. */ |
| 3342 | |
| 3343 | static int |
| 3344 | window_to_frame_hpos (w, hpos) |
| 3345 | struct window *w; |
| 3346 | int hpos; |
| 3347 | { |
| 3348 | xassert (!FRAME_WINDOW_P (XFRAME (w->frame))); |
| 3349 | hpos += WINDOW_LEFT_EDGE_COL (w); |
| 3350 | return hpos; |
| 3351 | } |
| 3352 | |
| 3353 | #endif /* GLYPH_DEBUG */ |
| 3354 | |
| 3355 | |
| 3356 | \f |
| 3357 | /********************************************************************** |
| 3358 | Redrawing Frames |
| 3359 | **********************************************************************/ |
| 3360 | |
| 3361 | DEFUN ("redraw-frame", Fredraw_frame, Sredraw_frame, 1, 1, 0, |
| 3362 | doc: /* Clear frame FRAME and output again what is supposed to appear on it. */) |
| 3363 | (frame) |
| 3364 | Lisp_Object frame; |
| 3365 | { |
| 3366 | struct frame *f; |
| 3367 | |
| 3368 | CHECK_LIVE_FRAME (frame); |
| 3369 | f = XFRAME (frame); |
| 3370 | |
| 3371 | /* Ignore redraw requests, if frame has no glyphs yet. |
| 3372 | (Implementation note: It still has to be checked why we are |
| 3373 | called so early here). */ |
| 3374 | if (!glyphs_initialized_initially_p) |
| 3375 | return Qnil; |
| 3376 | |
| 3377 | update_begin (f); |
| 3378 | if (FRAME_MSDOS_P (f)) |
| 3379 | set_terminal_modes (); |
| 3380 | clear_frame (); |
| 3381 | clear_current_matrices (f); |
| 3382 | update_end (f); |
| 3383 | fflush (stdout); |
| 3384 | windows_or_buffers_changed++; |
| 3385 | /* Mark all windows as inaccurate, so that every window will have |
| 3386 | its redisplay done. */ |
| 3387 | mark_window_display_accurate (FRAME_ROOT_WINDOW (f), 0); |
| 3388 | set_window_update_flags (XWINDOW (FRAME_ROOT_WINDOW (f)), 1); |
| 3389 | f->garbaged = 0; |
| 3390 | return Qnil; |
| 3391 | } |
| 3392 | |
| 3393 | |
| 3394 | /* Redraw frame F. This is nothing more than a call to the Lisp |
| 3395 | function redraw-frame. */ |
| 3396 | |
| 3397 | void |
| 3398 | redraw_frame (f) |
| 3399 | struct frame *f; |
| 3400 | { |
| 3401 | Lisp_Object frame; |
| 3402 | XSETFRAME (frame, f); |
| 3403 | Fredraw_frame (frame); |
| 3404 | } |
| 3405 | |
| 3406 | |
| 3407 | DEFUN ("redraw-display", Fredraw_display, Sredraw_display, 0, 0, "", |
| 3408 | doc: /* Clear and redisplay all visible frames. */) |
| 3409 | () |
| 3410 | { |
| 3411 | Lisp_Object tail, frame; |
| 3412 | |
| 3413 | FOR_EACH_FRAME (tail, frame) |
| 3414 | if (FRAME_VISIBLE_P (XFRAME (frame))) |
| 3415 | Fredraw_frame (frame); |
| 3416 | |
| 3417 | return Qnil; |
| 3418 | } |
| 3419 | |
| 3420 | |
| 3421 | /* This is used when frame_garbaged is set. Call Fredraw_frame on all |
| 3422 | visible frames marked as garbaged. */ |
| 3423 | |
| 3424 | void |
| 3425 | redraw_garbaged_frames () |
| 3426 | { |
| 3427 | Lisp_Object tail, frame; |
| 3428 | |
| 3429 | FOR_EACH_FRAME (tail, frame) |
| 3430 | if (FRAME_VISIBLE_P (XFRAME (frame)) |
| 3431 | && FRAME_GARBAGED_P (XFRAME (frame))) |
| 3432 | Fredraw_frame (frame); |
| 3433 | } |
| 3434 | |
| 3435 | |
| 3436 | \f |
| 3437 | /*********************************************************************** |
| 3438 | Direct Operations |
| 3439 | ***********************************************************************/ |
| 3440 | |
| 3441 | /* Try to update display and current glyph matrix directly. |
| 3442 | |
| 3443 | This function is called after a character G has been inserted into |
| 3444 | current_buffer. It tries to update the current glyph matrix and |
| 3445 | perform appropriate screen output to reflect the insertion. If it |
| 3446 | succeeds, the global flag redisplay_performed_directly_p will be |
| 3447 | set to 1, and thereby prevent the more costly general redisplay |
| 3448 | from running (see redisplay_internal). |
| 3449 | |
| 3450 | This function is not called for `hairy' character insertions. |
| 3451 | In particular, it is not called when after or before change |
| 3452 | functions exist, like they are used by font-lock. See keyboard.c |
| 3453 | for details where this function is called. */ |
| 3454 | |
| 3455 | int |
| 3456 | direct_output_for_insert (g) |
| 3457 | int g; |
| 3458 | { |
| 3459 | register struct frame *f = SELECTED_FRAME (); |
| 3460 | struct window *w = XWINDOW (selected_window); |
| 3461 | struct it it, it2; |
| 3462 | struct glyph_row *glyph_row; |
| 3463 | struct glyph *glyphs, *glyph, *end; |
| 3464 | int n; |
| 3465 | /* Non-null means that redisplay of W is based on window matrices. */ |
| 3466 | int window_redisplay_p = FRAME_WINDOW_P (f); |
| 3467 | /* Non-null means we are in overwrite mode. */ |
| 3468 | int overwrite_p = !NILP (current_buffer->overwrite_mode); |
| 3469 | int added_width; |
| 3470 | struct text_pos pos; |
| 3471 | int delta, delta_bytes; |
| 3472 | |
| 3473 | /* Not done directly. */ |
| 3474 | redisplay_performed_directly_p = 0; |
| 3475 | |
| 3476 | /* Quickly give up for some common cases. */ |
| 3477 | if (cursor_in_echo_area |
| 3478 | /* Give up if fonts have changed. */ |
| 3479 | || fonts_changed_p |
| 3480 | /* Give up if face attributes have been changed. */ |
| 3481 | || face_change_count |
| 3482 | /* Give up if cursor position not really known. */ |
| 3483 | || !display_completed |
| 3484 | /* Give up if buffer appears in two places. */ |
| 3485 | || buffer_shared > 1 |
| 3486 | /* Give up if currently displaying a message instead of the |
| 3487 | minibuffer contents. */ |
| 3488 | || (EQ (selected_window, minibuf_window) |
| 3489 | && EQ (minibuf_window, echo_area_window)) |
| 3490 | /* Give up for hscrolled mini-buffer because display of the prompt |
| 3491 | is handled specially there (see display_line). */ |
| 3492 | || (MINI_WINDOW_P (w) && XFASTINT (w->hscroll)) |
| 3493 | /* Give up if overwriting in the middle of a line. */ |
| 3494 | || (overwrite_p |
| 3495 | && PT != ZV |
| 3496 | && FETCH_BYTE (PT) != '\n') |
| 3497 | /* Give up for tabs and line ends. */ |
| 3498 | || g == '\t' |
| 3499 | || g == '\n' |
| 3500 | || g == '\r' |
| 3501 | /* Give up if unable to display the cursor in the window. */ |
| 3502 | || w->cursor.vpos < 0 |
| 3503 | /* Give up if we are showing a message or just cleared the message |
| 3504 | because we might need to resize the echo area window. */ |
| 3505 | || !NILP (echo_area_buffer[0]) |
| 3506 | || !NILP (echo_area_buffer[1]) |
| 3507 | || (glyph_row = MATRIX_ROW (w->current_matrix, w->cursor.vpos), |
| 3508 | /* Can't do it in a continued line because continuation |
| 3509 | lines would change. */ |
| 3510 | (glyph_row->continued_p |
| 3511 | || glyph_row->exact_window_width_line_p |
| 3512 | /* Can't use this method if the line overlaps others or is |
| 3513 | overlapped by others because these other lines would |
| 3514 | have to be redisplayed. */ |
| 3515 | || glyph_row->overlapping_p |
| 3516 | || glyph_row->overlapped_p)) |
| 3517 | /* Can't do it for partial width windows on terminal frames |
| 3518 | because we can't clear to eol in such a window. */ |
| 3519 | || (!window_redisplay_p && !WINDOW_FULL_WIDTH_P (w))) |
| 3520 | return 0; |
| 3521 | |
| 3522 | /* If we can't insert glyphs, we can use this method only |
| 3523 | at the end of a line. */ |
| 3524 | if (!char_ins_del_ok) |
| 3525 | if (PT != ZV && FETCH_BYTE (PT_BYTE) != '\n') |
| 3526 | return 0; |
| 3527 | |
| 3528 | /* Set up a display iterator structure for W. Glyphs will be |
| 3529 | produced in scratch_glyph_row. Current position is W's cursor |
| 3530 | position. */ |
| 3531 | clear_glyph_row (&scratch_glyph_row); |
| 3532 | SET_TEXT_POS (pos, PT, PT_BYTE); |
| 3533 | DEC_TEXT_POS (pos, !NILP (current_buffer->enable_multibyte_characters)); |
| 3534 | init_iterator (&it, w, CHARPOS (pos), BYTEPOS (pos), &scratch_glyph_row, |
| 3535 | DEFAULT_FACE_ID); |
| 3536 | |
| 3537 | glyph_row = MATRIX_ROW (w->current_matrix, w->cursor.vpos); |
| 3538 | if (glyph_row->mouse_face_p) |
| 3539 | return 0; |
| 3540 | |
| 3541 | /* Give up if highlighting trailing whitespace and we have trailing |
| 3542 | whitespace in glyph_row. We would have to remove the trailing |
| 3543 | whitespace face in that case. */ |
| 3544 | if (!NILP (Vshow_trailing_whitespace) |
| 3545 | && glyph_row->used[TEXT_AREA]) |
| 3546 | { |
| 3547 | struct glyph *last; |
| 3548 | |
| 3549 | last = glyph_row->glyphs[TEXT_AREA] + glyph_row->used[TEXT_AREA] - 1; |
| 3550 | if (last->type == STRETCH_GLYPH |
| 3551 | || (last->type == CHAR_GLYPH |
| 3552 | && last->u.ch == ' ')) |
| 3553 | return 0; |
| 3554 | } |
| 3555 | |
| 3556 | /* Give up if there are overlay strings at pos. This would fail |
| 3557 | if the overlay string has newlines in it. */ |
| 3558 | if (STRINGP (it.string)) |
| 3559 | return 0; |
| 3560 | |
| 3561 | it.hpos = w->cursor.hpos; |
| 3562 | it.vpos = w->cursor.vpos; |
| 3563 | it.current_x = w->cursor.x + it.first_visible_x; |
| 3564 | it.current_y = w->cursor.y; |
| 3565 | it.end_charpos = PT; |
| 3566 | it.stop_charpos = min (PT, it.stop_charpos); |
| 3567 | it.stop_charpos = max (IT_CHARPOS (it), it.stop_charpos); |
| 3568 | |
| 3569 | /* More than one display element may be returned for PT - 1 if |
| 3570 | (i) it's a control character which is translated into `\003' or |
| 3571 | `^C', or (ii) it has a display table entry, or (iii) it's a |
| 3572 | combination of both. */ |
| 3573 | delta = delta_bytes = 0; |
| 3574 | while (get_next_display_element (&it)) |
| 3575 | { |
| 3576 | PRODUCE_GLYPHS (&it); |
| 3577 | |
| 3578 | /* Give up if glyph doesn't fit completely on the line. */ |
| 3579 | if (it.current_x >= it.last_visible_x) |
| 3580 | return 0; |
| 3581 | |
| 3582 | /* Give up if new glyph has different ascent or descent than |
| 3583 | the original row, or if it is not a character glyph. */ |
| 3584 | if (glyph_row->ascent != it.ascent |
| 3585 | || glyph_row->height != it.ascent + it.descent |
| 3586 | || glyph_row->phys_ascent != it.phys_ascent |
| 3587 | || glyph_row->phys_height != it.phys_ascent + it.phys_descent |
| 3588 | || it.what != IT_CHARACTER) |
| 3589 | return 0; |
| 3590 | |
| 3591 | delta += 1; |
| 3592 | delta_bytes += it.len; |
| 3593 | set_iterator_to_next (&it, 1); |
| 3594 | } |
| 3595 | |
| 3596 | /* Give up if we hit the right edge of the window. We would have |
| 3597 | to insert truncation or continuation glyphs. */ |
| 3598 | added_width = it.current_x - (w->cursor.x + it.first_visible_x); |
| 3599 | if (glyph_row->pixel_width + added_width >= it.last_visible_x) |
| 3600 | return 0; |
| 3601 | |
| 3602 | /* Give up if there is a \t following in the line. */ |
| 3603 | it2 = it; |
| 3604 | it2.end_charpos = ZV; |
| 3605 | it2.stop_charpos = min (it2.stop_charpos, ZV); |
| 3606 | while (get_next_display_element (&it2) |
| 3607 | && !ITERATOR_AT_END_OF_LINE_P (&it2)) |
| 3608 | { |
| 3609 | if (it2.c == '\t') |
| 3610 | return 0; |
| 3611 | set_iterator_to_next (&it2, 1); |
| 3612 | } |
| 3613 | |
| 3614 | /* Number of new glyphs produced. */ |
| 3615 | n = it.glyph_row->used[TEXT_AREA]; |
| 3616 | |
| 3617 | /* Start and end of glyphs in original row. */ |
| 3618 | glyphs = glyph_row->glyphs[TEXT_AREA] + w->cursor.hpos; |
| 3619 | end = glyph_row->glyphs[1 + TEXT_AREA]; |
| 3620 | |
| 3621 | /* Make room for new glyphs, then insert them. */ |
| 3622 | xassert (end - glyphs - n >= 0); |
| 3623 | safe_bcopy ((char *) glyphs, (char *) (glyphs + n), |
| 3624 | (end - glyphs - n) * sizeof (*end)); |
| 3625 | bcopy (it.glyph_row->glyphs[TEXT_AREA], glyphs, n * sizeof *glyphs); |
| 3626 | glyph_row->used[TEXT_AREA] = min (glyph_row->used[TEXT_AREA] + n, |
| 3627 | end - glyph_row->glyphs[TEXT_AREA]); |
| 3628 | |
| 3629 | /* Compute new line width. */ |
| 3630 | glyph = glyph_row->glyphs[TEXT_AREA]; |
| 3631 | end = glyph + glyph_row->used[TEXT_AREA]; |
| 3632 | glyph_row->pixel_width = glyph_row->x; |
| 3633 | while (glyph < end) |
| 3634 | { |
| 3635 | glyph_row->pixel_width += glyph->pixel_width; |
| 3636 | ++glyph; |
| 3637 | } |
| 3638 | |
| 3639 | /* Increment buffer positions for glyphs following the newly |
| 3640 | inserted ones. */ |
| 3641 | for (glyph = glyphs + n; glyph < end; ++glyph) |
| 3642 | if (glyph->charpos > 0 && BUFFERP (glyph->object)) |
| 3643 | glyph->charpos += delta; |
| 3644 | |
| 3645 | if (MATRIX_ROW_END_CHARPOS (glyph_row) > 0) |
| 3646 | { |
| 3647 | MATRIX_ROW_END_CHARPOS (glyph_row) += delta; |
| 3648 | MATRIX_ROW_END_BYTEPOS (glyph_row) += delta_bytes; |
| 3649 | } |
| 3650 | |
| 3651 | /* Adjust positions in lines following the one we are in. */ |
| 3652 | increment_matrix_positions (w->current_matrix, |
| 3653 | w->cursor.vpos + 1, |
| 3654 | w->current_matrix->nrows, |
| 3655 | delta, delta_bytes); |
| 3656 | |
| 3657 | glyph_row->contains_overlapping_glyphs_p |
| 3658 | |= it.glyph_row->contains_overlapping_glyphs_p; |
| 3659 | |
| 3660 | glyph_row->displays_text_p = 1; |
| 3661 | w->window_end_vpos = make_number (max (w->cursor.vpos, |
| 3662 | XFASTINT (w->window_end_vpos))); |
| 3663 | |
| 3664 | if (!NILP (Vshow_trailing_whitespace)) |
| 3665 | highlight_trailing_whitespace (it.f, glyph_row); |
| 3666 | |
| 3667 | /* Write glyphs. If at end of row, we can simply call write_glyphs. |
| 3668 | In the middle, we have to insert glyphs. Note that this is now |
| 3669 | implemented for X frames. The implementation uses updated_window |
| 3670 | and updated_row. */ |
| 3671 | updated_row = glyph_row; |
| 3672 | updated_area = TEXT_AREA; |
| 3673 | update_begin (f); |
| 3674 | if (rif) |
| 3675 | { |
| 3676 | rif->update_window_begin_hook (w); |
| 3677 | |
| 3678 | if (glyphs == end - n |
| 3679 | /* In front of a space added by append_space. */ |
| 3680 | || (glyphs == end - n - 1 |
| 3681 | && (end - n)->charpos <= 0)) |
| 3682 | rif->write_glyphs (glyphs, n); |
| 3683 | else |
| 3684 | rif->insert_glyphs (glyphs, n); |
| 3685 | } |
| 3686 | else |
| 3687 | { |
| 3688 | if (glyphs == end - n) |
| 3689 | write_glyphs (glyphs, n); |
| 3690 | else |
| 3691 | insert_glyphs (glyphs, n); |
| 3692 | } |
| 3693 | |
| 3694 | w->cursor.hpos += n; |
| 3695 | w->cursor.x = it.current_x - it.first_visible_x; |
| 3696 | xassert (w->cursor.hpos >= 0 |
| 3697 | && w->cursor.hpos < w->desired_matrix->matrix_w); |
| 3698 | |
| 3699 | /* How to set the cursor differs depending on whether we are |
| 3700 | using a frame matrix or a window matrix. Note that when |
| 3701 | a frame matrix is used, cursor_to expects frame coordinates, |
| 3702 | and the X and Y parameters are not used. */ |
| 3703 | if (window_redisplay_p) |
| 3704 | rif->cursor_to (w->cursor.vpos, w->cursor.hpos, |
| 3705 | w->cursor.y, w->cursor.x); |
| 3706 | else |
| 3707 | { |
| 3708 | int x, y; |
| 3709 | x = (WINDOW_TO_FRAME_HPOS (w, w->cursor.hpos) |
| 3710 | + (INTEGERP (w->left_margin_cols) |
| 3711 | ? XFASTINT (w->left_margin_cols) |
| 3712 | : 0)); |
| 3713 | y = WINDOW_TO_FRAME_VPOS (w, w->cursor.vpos); |
| 3714 | cursor_to (y, x); |
| 3715 | } |
| 3716 | |
| 3717 | #ifdef HAVE_WINDOW_SYSTEM |
| 3718 | update_window_fringes (w, 0); |
| 3719 | #endif |
| 3720 | |
| 3721 | if (rif) |
| 3722 | rif->update_window_end_hook (w, 1, 0); |
| 3723 | update_end (f); |
| 3724 | updated_row = NULL; |
| 3725 | fflush (stdout); |
| 3726 | |
| 3727 | TRACE ((stderr, "direct output for insert\n")); |
| 3728 | mark_window_display_accurate (it.window, 1); |
| 3729 | redisplay_performed_directly_p = 1; |
| 3730 | return 1; |
| 3731 | } |
| 3732 | |
| 3733 | |
| 3734 | /* Perform a direct display update for moving PT by N positions |
| 3735 | left or right. N < 0 means a movement backwards. This function |
| 3736 | is currently only called for N == 1 or N == -1. */ |
| 3737 | |
| 3738 | int |
| 3739 | direct_output_forward_char (n) |
| 3740 | int n; |
| 3741 | { |
| 3742 | struct frame *f = SELECTED_FRAME (); |
| 3743 | struct window *w = XWINDOW (selected_window); |
| 3744 | struct glyph_row *row; |
| 3745 | |
| 3746 | /* Give up if point moved out of or into a composition. */ |
| 3747 | if (check_point_in_composition (current_buffer, XINT (w->last_point), |
| 3748 | current_buffer, PT)) |
| 3749 | return 0; |
| 3750 | |
| 3751 | /* Give up if face attributes have been changed. */ |
| 3752 | if (face_change_count) |
| 3753 | return 0; |
| 3754 | |
| 3755 | /* Give up if current matrix is not up to date or we are |
| 3756 | displaying a message. */ |
| 3757 | if (!display_completed || cursor_in_echo_area) |
| 3758 | return 0; |
| 3759 | |
| 3760 | /* Give up if the buffer's direction is reversed. */ |
| 3761 | if (!NILP (XBUFFER (w->buffer)->direction_reversed)) |
| 3762 | return 0; |
| 3763 | |
| 3764 | /* Can't use direct output if highlighting a region. */ |
| 3765 | if (!NILP (Vtransient_mark_mode) && !NILP (current_buffer->mark_active)) |
| 3766 | return 0; |
| 3767 | |
| 3768 | /* Can't use direct output if highlighting trailing whitespace. */ |
| 3769 | if (!NILP (Vshow_trailing_whitespace)) |
| 3770 | return 0; |
| 3771 | |
| 3772 | /* Give up if we are showing a message or just cleared the message |
| 3773 | because we might need to resize the echo area window. */ |
| 3774 | if (!NILP (echo_area_buffer[0]) || !NILP (echo_area_buffer[1])) |
| 3775 | return 0; |
| 3776 | |
| 3777 | /* Give up if currently displaying a message instead of the |
| 3778 | minibuffer contents. */ |
| 3779 | if (XWINDOW (minibuf_window) == w |
| 3780 | && EQ (minibuf_window, echo_area_window)) |
| 3781 | return 0; |
| 3782 | |
| 3783 | /* Give up if we don't know where the cursor is. */ |
| 3784 | if (w->cursor.vpos < 0) |
| 3785 | return 0; |
| 3786 | |
| 3787 | row = MATRIX_ROW (w->current_matrix, w->cursor.vpos); |
| 3788 | |
| 3789 | /* Give up if PT is outside of the last known cursor row. */ |
| 3790 | if (PT <= MATRIX_ROW_START_CHARPOS (row) |
| 3791 | || PT >= MATRIX_ROW_END_CHARPOS (row)) |
| 3792 | return 0; |
| 3793 | |
| 3794 | set_cursor_from_row (w, row, w->current_matrix, 0, 0, 0, 0); |
| 3795 | |
| 3796 | w->last_cursor = w->cursor; |
| 3797 | XSETFASTINT (w->last_point, PT); |
| 3798 | |
| 3799 | xassert (w->cursor.hpos >= 0 |
| 3800 | && w->cursor.hpos < w->desired_matrix->matrix_w); |
| 3801 | |
| 3802 | if (FRAME_WINDOW_P (f)) |
| 3803 | rif->cursor_to (w->cursor.vpos, w->cursor.hpos, |
| 3804 | w->cursor.y, w->cursor.x); |
| 3805 | else |
| 3806 | { |
| 3807 | int x, y; |
| 3808 | x = (WINDOW_TO_FRAME_HPOS (w, w->cursor.hpos) |
| 3809 | + (INTEGERP (w->left_margin_cols) |
| 3810 | ? XFASTINT (w->left_margin_cols) |
| 3811 | : 0)); |
| 3812 | y = WINDOW_TO_FRAME_VPOS (w, w->cursor.vpos); |
| 3813 | cursor_to (y, x); |
| 3814 | } |
| 3815 | |
| 3816 | fflush (stdout); |
| 3817 | redisplay_performed_directly_p = 1; |
| 3818 | return 1; |
| 3819 | } |
| 3820 | |
| 3821 | |
| 3822 | \f |
| 3823 | /*********************************************************************** |
| 3824 | Frame Update |
| 3825 | ***********************************************************************/ |
| 3826 | |
| 3827 | /* Update frame F based on the data in desired matrices. |
| 3828 | |
| 3829 | If FORCE_P is non-zero, don't let redisplay be stopped by detecting |
| 3830 | pending input. If INHIBIT_HAIRY_ID_P is non-zero, don't try |
| 3831 | scrolling. |
| 3832 | |
| 3833 | Value is non-zero if redisplay was stopped due to pending input. */ |
| 3834 | |
| 3835 | int |
| 3836 | update_frame (f, force_p, inhibit_hairy_id_p) |
| 3837 | struct frame *f; |
| 3838 | int force_p; |
| 3839 | int inhibit_hairy_id_p; |
| 3840 | { |
| 3841 | /* 1 means display has been paused because of pending input. */ |
| 3842 | int paused_p; |
| 3843 | struct window *root_window = XWINDOW (f->root_window); |
| 3844 | |
| 3845 | #if PERIODIC_PREEMPTION_CHECKING |
| 3846 | if (!force_p && NUMBERP (Vredisplay_preemption_period)) |
| 3847 | { |
| 3848 | EMACS_TIME tm; |
| 3849 | double p = XFLOATINT (Vredisplay_preemption_period); |
| 3850 | int sec, usec; |
| 3851 | |
| 3852 | if (detect_input_pending_ignore_squeezables ()) |
| 3853 | { |
| 3854 | paused_p = 1; |
| 3855 | goto do_pause; |
| 3856 | } |
| 3857 | |
| 3858 | sec = (int) p; |
| 3859 | usec = (p - sec) * 1000000; |
| 3860 | |
| 3861 | EMACS_GET_TIME (tm); |
| 3862 | EMACS_SET_SECS_USECS (preemption_period, sec, usec); |
| 3863 | EMACS_ADD_TIME (preemption_next_check, tm, preemption_period); |
| 3864 | } |
| 3865 | #endif |
| 3866 | |
| 3867 | if (FRAME_WINDOW_P (f)) |
| 3868 | { |
| 3869 | /* We are working on window matrix basis. All windows whose |
| 3870 | flag must_be_updated_p is set have to be updated. */ |
| 3871 | |
| 3872 | /* Record that we are not working on frame matrices. */ |
| 3873 | set_frame_matrix_frame (NULL); |
| 3874 | |
| 3875 | /* Update all windows in the window tree of F, maybe stopping |
| 3876 | when pending input is detected. */ |
| 3877 | update_begin (f); |
| 3878 | |
| 3879 | /* Update the menu bar on X frames that don't have toolkit |
| 3880 | support. */ |
| 3881 | if (WINDOWP (f->menu_bar_window)) |
| 3882 | update_window (XWINDOW (f->menu_bar_window), 1); |
| 3883 | |
| 3884 | /* Update the tool-bar window, if present. */ |
| 3885 | if (WINDOWP (f->tool_bar_window)) |
| 3886 | { |
| 3887 | struct window *w = XWINDOW (f->tool_bar_window); |
| 3888 | |
| 3889 | /* Update tool-bar window. */ |
| 3890 | if (w->must_be_updated_p) |
| 3891 | { |
| 3892 | Lisp_Object tem; |
| 3893 | |
| 3894 | update_window (w, 1); |
| 3895 | w->must_be_updated_p = 0; |
| 3896 | |
| 3897 | /* Swap tool-bar strings. We swap because we want to |
| 3898 | reuse strings. */ |
| 3899 | tem = f->current_tool_bar_string; |
| 3900 | f->current_tool_bar_string = f->desired_tool_bar_string; |
| 3901 | f->desired_tool_bar_string = tem; |
| 3902 | } |
| 3903 | } |
| 3904 | |
| 3905 | |
| 3906 | /* Update windows. */ |
| 3907 | paused_p = update_window_tree (root_window, force_p); |
| 3908 | update_end (f); |
| 3909 | |
| 3910 | /* This flush is a performance bottleneck under X, |
| 3911 | and it doesn't seem to be necessary anyway (in general). |
| 3912 | It is necessary when resizing the window with the mouse, or |
| 3913 | at least the fringes are not redrawn in a timely manner. ++kfs */ |
| 3914 | if (f->force_flush_display_p) |
| 3915 | { |
| 3916 | rif->flush_display (f); |
| 3917 | f->force_flush_display_p = 0; |
| 3918 | } |
| 3919 | } |
| 3920 | else |
| 3921 | { |
| 3922 | /* We are working on frame matrix basis. Set the frame on whose |
| 3923 | frame matrix we operate. */ |
| 3924 | set_frame_matrix_frame (f); |
| 3925 | |
| 3926 | /* Build F's desired matrix from window matrices. */ |
| 3927 | build_frame_matrix (f); |
| 3928 | |
| 3929 | /* Update the display */ |
| 3930 | update_begin (f); |
| 3931 | paused_p = update_frame_1 (f, force_p, inhibit_hairy_id_p); |
| 3932 | update_end (f); |
| 3933 | |
| 3934 | if (termscript) |
| 3935 | fflush (termscript); |
| 3936 | fflush (stdout); |
| 3937 | |
| 3938 | /* Check window matrices for lost pointers. */ |
| 3939 | #if GLYPH_DEBUG |
| 3940 | check_window_matrix_pointers (root_window); |
| 3941 | add_frame_display_history (f, paused_p); |
| 3942 | #endif |
| 3943 | } |
| 3944 | |
| 3945 | do_pause: |
| 3946 | /* Reset flags indicating that a window should be updated. */ |
| 3947 | set_window_update_flags (root_window, 0); |
| 3948 | |
| 3949 | display_completed = !paused_p; |
| 3950 | return paused_p; |
| 3951 | } |
| 3952 | |
| 3953 | |
| 3954 | \f |
| 3955 | /************************************************************************ |
| 3956 | Window-based updates |
| 3957 | ************************************************************************/ |
| 3958 | |
| 3959 | /* Perform updates in window tree rooted at W. FORCE_P non-zero means |
| 3960 | don't stop updating when input is pending. */ |
| 3961 | |
| 3962 | static int |
| 3963 | update_window_tree (w, force_p) |
| 3964 | struct window *w; |
| 3965 | int force_p; |
| 3966 | { |
| 3967 | int paused_p = 0; |
| 3968 | |
| 3969 | while (w && !paused_p) |
| 3970 | { |
| 3971 | if (!NILP (w->hchild)) |
| 3972 | paused_p |= update_window_tree (XWINDOW (w->hchild), force_p); |
| 3973 | else if (!NILP (w->vchild)) |
| 3974 | paused_p |= update_window_tree (XWINDOW (w->vchild), force_p); |
| 3975 | else if (w->must_be_updated_p) |
| 3976 | paused_p |= update_window (w, force_p); |
| 3977 | |
| 3978 | w = NILP (w->next) ? 0 : XWINDOW (w->next); |
| 3979 | } |
| 3980 | |
| 3981 | return paused_p; |
| 3982 | } |
| 3983 | |
| 3984 | |
| 3985 | /* Update window W if its flag must_be_updated_p is non-zero. If |
| 3986 | FORCE_P is non-zero, don't stop updating if input is pending. */ |
| 3987 | |
| 3988 | void |
| 3989 | update_single_window (w, force_p) |
| 3990 | struct window *w; |
| 3991 | int force_p; |
| 3992 | { |
| 3993 | if (w->must_be_updated_p) |
| 3994 | { |
| 3995 | struct frame *f = XFRAME (WINDOW_FRAME (w)); |
| 3996 | |
| 3997 | /* Record that this is not a frame-based redisplay. */ |
| 3998 | set_frame_matrix_frame (NULL); |
| 3999 | |
| 4000 | #if PERIODIC_PREEMPTION_CHECKING |
| 4001 | if (!force_p && NUMBERP (Vredisplay_preemption_period)) |
| 4002 | { |
| 4003 | EMACS_TIME tm; |
| 4004 | double p = XFLOATINT (Vredisplay_preemption_period); |
| 4005 | int sec, usec; |
| 4006 | |
| 4007 | sec = (int) p; |
| 4008 | usec = (p - sec) * 1000000; |
| 4009 | |
| 4010 | EMACS_GET_TIME (tm); |
| 4011 | EMACS_SET_SECS_USECS (preemption_period, sec, usec); |
| 4012 | EMACS_ADD_TIME (preemption_next_check, tm, preemption_period); |
| 4013 | } |
| 4014 | #endif |
| 4015 | |
| 4016 | /* Update W. */ |
| 4017 | update_begin (f); |
| 4018 | update_window (w, force_p); |
| 4019 | update_end (f); |
| 4020 | |
| 4021 | /* Reset flag in W. */ |
| 4022 | w->must_be_updated_p = 0; |
| 4023 | } |
| 4024 | } |
| 4025 | |
| 4026 | #ifdef HAVE_WINDOW_SYSTEM |
| 4027 | |
| 4028 | /* Redraw lines from the current matrix of window W that are |
| 4029 | overlapped by other rows. YB is bottom-most y-position in W. */ |
| 4030 | |
| 4031 | static void |
| 4032 | redraw_overlapped_rows (w, yb) |
| 4033 | struct window *w; |
| 4034 | int yb; |
| 4035 | { |
| 4036 | int i; |
| 4037 | |
| 4038 | /* If rows overlapping others have been changed, the rows being |
| 4039 | overlapped have to be redrawn. This won't draw lines that have |
| 4040 | already been drawn in update_window_line because overlapped_p in |
| 4041 | desired rows is 0, so after row assignment overlapped_p in |
| 4042 | current rows is 0. */ |
| 4043 | for (i = 0; i < w->current_matrix->nrows; ++i) |
| 4044 | { |
| 4045 | struct glyph_row *row = w->current_matrix->rows + i; |
| 4046 | |
| 4047 | if (!row->enabled_p) |
| 4048 | break; |
| 4049 | else if (row->mode_line_p) |
| 4050 | continue; |
| 4051 | |
| 4052 | if (row->overlapped_p) |
| 4053 | { |
| 4054 | enum glyph_row_area area; |
| 4055 | |
| 4056 | for (area = LEFT_MARGIN_AREA; area < LAST_AREA; ++area) |
| 4057 | { |
| 4058 | updated_row = row; |
| 4059 | updated_area = area; |
| 4060 | rif->cursor_to (i, 0, row->y, area == TEXT_AREA ? row->x : 0); |
| 4061 | if (row->used[area]) |
| 4062 | rif->write_glyphs (row->glyphs[area], row->used[area]); |
| 4063 | rif->clear_end_of_line (-1); |
| 4064 | } |
| 4065 | |
| 4066 | row->overlapped_p = 0; |
| 4067 | } |
| 4068 | |
| 4069 | if (MATRIX_ROW_BOTTOM_Y (row) >= yb) |
| 4070 | break; |
| 4071 | } |
| 4072 | } |
| 4073 | |
| 4074 | |
| 4075 | /* Redraw lines from the current matrix of window W that overlap |
| 4076 | others. YB is bottom-most y-position in W. */ |
| 4077 | |
| 4078 | static void |
| 4079 | redraw_overlapping_rows (w, yb) |
| 4080 | struct window *w; |
| 4081 | int yb; |
| 4082 | { |
| 4083 | int i, bottom_y; |
| 4084 | struct glyph_row *row; |
| 4085 | |
| 4086 | for (i = 0; i < w->current_matrix->nrows; ++i) |
| 4087 | { |
| 4088 | row = w->current_matrix->rows + i; |
| 4089 | |
| 4090 | if (!row->enabled_p) |
| 4091 | break; |
| 4092 | else if (row->mode_line_p) |
| 4093 | continue; |
| 4094 | |
| 4095 | bottom_y = MATRIX_ROW_BOTTOM_Y (row); |
| 4096 | |
| 4097 | if (row->overlapping_p && i > 0 && bottom_y < yb) |
| 4098 | { |
| 4099 | int overlaps = 0; |
| 4100 | |
| 4101 | if (MATRIX_ROW_OVERLAPS_PRED_P (row) |
| 4102 | && !MATRIX_ROW (w->current_matrix, i - 1)->overlapped_p) |
| 4103 | overlaps |= OVERLAPS_PRED; |
| 4104 | if (MATRIX_ROW_OVERLAPS_SUCC_P (row) |
| 4105 | && !MATRIX_ROW (w->current_matrix, i + 1)->overlapped_p) |
| 4106 | overlaps |= OVERLAPS_SUCC; |
| 4107 | |
| 4108 | if (overlaps) |
| 4109 | { |
| 4110 | if (row->used[LEFT_MARGIN_AREA]) |
| 4111 | rif->fix_overlapping_area (w, row, LEFT_MARGIN_AREA, overlaps); |
| 4112 | |
| 4113 | if (row->used[TEXT_AREA]) |
| 4114 | rif->fix_overlapping_area (w, row, TEXT_AREA, overlaps); |
| 4115 | |
| 4116 | if (row->used[RIGHT_MARGIN_AREA]) |
| 4117 | rif->fix_overlapping_area (w, row, RIGHT_MARGIN_AREA, overlaps); |
| 4118 | |
| 4119 | /* Record in neighbour rows that ROW overwrites part of |
| 4120 | their display. */ |
| 4121 | if (overlaps & OVERLAPS_PRED) |
| 4122 | MATRIX_ROW (w->current_matrix, i - 1)->overlapped_p = 1; |
| 4123 | if (overlaps & OVERLAPS_SUCC) |
| 4124 | MATRIX_ROW (w->current_matrix, i + 1)->overlapped_p = 1; |
| 4125 | } |
| 4126 | } |
| 4127 | |
| 4128 | if (bottom_y >= yb) |
| 4129 | break; |
| 4130 | } |
| 4131 | } |
| 4132 | |
| 4133 | #endif /* HAVE_WINDOW_SYSTEM */ |
| 4134 | |
| 4135 | |
| 4136 | #ifdef GLYPH_DEBUG |
| 4137 | |
| 4138 | /* Check that no row in the current matrix of window W is enabled |
| 4139 | which is below what's displayed in the window. */ |
| 4140 | |
| 4141 | void |
| 4142 | check_current_matrix_flags (w) |
| 4143 | struct window *w; |
| 4144 | { |
| 4145 | int last_seen_p = 0; |
| 4146 | int i, yb = window_text_bottom_y (w); |
| 4147 | |
| 4148 | for (i = 0; i < w->current_matrix->nrows - 1; ++i) |
| 4149 | { |
| 4150 | struct glyph_row *row = MATRIX_ROW (w->current_matrix, i); |
| 4151 | if (!last_seen_p && MATRIX_ROW_BOTTOM_Y (row) >= yb) |
| 4152 | last_seen_p = 1; |
| 4153 | else if (last_seen_p && row->enabled_p) |
| 4154 | abort (); |
| 4155 | } |
| 4156 | } |
| 4157 | |
| 4158 | #endif /* GLYPH_DEBUG */ |
| 4159 | |
| 4160 | |
| 4161 | /* Update display of window W. FORCE_P non-zero means that we should |
| 4162 | not stop when detecting pending input. */ |
| 4163 | |
| 4164 | static int |
| 4165 | update_window (w, force_p) |
| 4166 | struct window *w; |
| 4167 | int force_p; |
| 4168 | { |
| 4169 | struct glyph_matrix *desired_matrix = w->desired_matrix; |
| 4170 | int paused_p; |
| 4171 | #if !PERIODIC_PREEMPTION_CHECKING |
| 4172 | int preempt_count = baud_rate / 2400 + 1; |
| 4173 | #endif |
| 4174 | extern int input_pending; |
| 4175 | extern Lisp_Object do_mouse_tracking; |
| 4176 | #if GLYPH_DEBUG |
| 4177 | /* Check that W's frame doesn't have glyph matrices. */ |
| 4178 | xassert (FRAME_WINDOW_P (XFRAME (WINDOW_FRAME (w)))); |
| 4179 | xassert (updating_frame != NULL); |
| 4180 | #endif |
| 4181 | |
| 4182 | /* Check pending input the first time so that we can quickly return. */ |
| 4183 | if (redisplay_dont_pause) |
| 4184 | force_p = 1; |
| 4185 | #if PERIODIC_PREEMPTION_CHECKING |
| 4186 | else if (NILP (Vredisplay_preemption_period)) |
| 4187 | force_p = 1; |
| 4188 | #else |
| 4189 | else if (!force_p) |
| 4190 | detect_input_pending_ignore_squeezables (); |
| 4191 | #endif |
| 4192 | |
| 4193 | /* If forced to complete the update, or if no input is pending, do |
| 4194 | the update. */ |
| 4195 | if (force_p || !input_pending || !NILP (do_mouse_tracking)) |
| 4196 | { |
| 4197 | struct glyph_row *row, *end; |
| 4198 | struct glyph_row *mode_line_row; |
| 4199 | struct glyph_row *header_line_row; |
| 4200 | int yb, changed_p = 0, mouse_face_overwritten_p = 0, n_updated; |
| 4201 | |
| 4202 | rif->update_window_begin_hook (w); |
| 4203 | yb = window_text_bottom_y (w); |
| 4204 | |
| 4205 | /* If window has a header line, update it before everything else. |
| 4206 | Adjust y-positions of other rows by the header line height. */ |
| 4207 | row = desired_matrix->rows; |
| 4208 | end = row + desired_matrix->nrows - 1; |
| 4209 | |
| 4210 | if (row->mode_line_p) |
| 4211 | { |
| 4212 | header_line_row = row; |
| 4213 | ++row; |
| 4214 | } |
| 4215 | else |
| 4216 | header_line_row = NULL; |
| 4217 | |
| 4218 | /* Update the mode line, if necessary. */ |
| 4219 | mode_line_row = MATRIX_MODE_LINE_ROW (desired_matrix); |
| 4220 | if (mode_line_row->mode_line_p && mode_line_row->enabled_p) |
| 4221 | { |
| 4222 | mode_line_row->y = yb; |
| 4223 | update_window_line (w, MATRIX_ROW_VPOS (mode_line_row, |
| 4224 | desired_matrix), |
| 4225 | &mouse_face_overwritten_p); |
| 4226 | } |
| 4227 | |
| 4228 | /* Find first enabled row. Optimizations in redisplay_internal |
| 4229 | may lead to an update with only one row enabled. There may |
| 4230 | be also completely empty matrices. */ |
| 4231 | while (row < end && !row->enabled_p) |
| 4232 | ++row; |
| 4233 | |
| 4234 | /* Try reusing part of the display by copying. */ |
| 4235 | if (row < end && !desired_matrix->no_scrolling_p) |
| 4236 | { |
| 4237 | int rc = scrolling_window (w, header_line_row != NULL); |
| 4238 | if (rc < 0) |
| 4239 | { |
| 4240 | /* All rows were found to be equal. */ |
| 4241 | paused_p = 0; |
| 4242 | goto set_cursor; |
| 4243 | } |
| 4244 | else if (rc > 0) |
| 4245 | { |
| 4246 | /* We've scrolled the display. */ |
| 4247 | force_p = 1; |
| 4248 | changed_p = 1; |
| 4249 | } |
| 4250 | } |
| 4251 | |
| 4252 | /* Update the rest of the lines. */ |
| 4253 | for (n_updated = 0; row < end && (force_p || !input_pending); ++row) |
| 4254 | if (row->enabled_p) |
| 4255 | { |
| 4256 | int vpos = MATRIX_ROW_VPOS (row, desired_matrix); |
| 4257 | int i; |
| 4258 | |
| 4259 | /* We'll have to play a little bit with when to |
| 4260 | detect_input_pending. If it's done too often, |
| 4261 | scrolling large windows with repeated scroll-up |
| 4262 | commands will too quickly pause redisplay. */ |
| 4263 | #if PERIODIC_PREEMPTION_CHECKING |
| 4264 | if (!force_p) |
| 4265 | { |
| 4266 | EMACS_TIME tm, dif; |
| 4267 | EMACS_GET_TIME (tm); |
| 4268 | EMACS_SUB_TIME (dif, preemption_next_check, tm); |
| 4269 | if (EMACS_TIME_NEG_P (dif)) |
| 4270 | { |
| 4271 | EMACS_ADD_TIME (preemption_next_check, tm, preemption_period); |
| 4272 | if (detect_input_pending_ignore_squeezables ()) |
| 4273 | break; |
| 4274 | } |
| 4275 | } |
| 4276 | #else |
| 4277 | if (!force_p && ++n_updated % preempt_count == 0) |
| 4278 | detect_input_pending_ignore_squeezables (); |
| 4279 | #endif |
| 4280 | changed_p |= update_window_line (w, vpos, |
| 4281 | &mouse_face_overwritten_p); |
| 4282 | |
| 4283 | /* Mark all rows below the last visible one in the current |
| 4284 | matrix as invalid. This is necessary because of |
| 4285 | variable line heights. Consider the case of three |
| 4286 | successive redisplays, where the first displays 5 |
| 4287 | lines, the second 3 lines, and the third 5 lines again. |
| 4288 | If the second redisplay wouldn't mark rows in the |
| 4289 | current matrix invalid, the third redisplay might be |
| 4290 | tempted to optimize redisplay based on lines displayed |
| 4291 | in the first redisplay. */ |
| 4292 | if (MATRIX_ROW_BOTTOM_Y (row) >= yb) |
| 4293 | for (i = vpos + 1; i < w->current_matrix->nrows - 1; ++i) |
| 4294 | MATRIX_ROW (w->current_matrix, i)->enabled_p = 0; |
| 4295 | } |
| 4296 | |
| 4297 | /* Was display preempted? */ |
| 4298 | paused_p = row < end; |
| 4299 | |
| 4300 | set_cursor: |
| 4301 | |
| 4302 | /* Update the header line after scrolling because a new header |
| 4303 | line would otherwise overwrite lines at the top of the window |
| 4304 | that can be scrolled. */ |
| 4305 | if (header_line_row && header_line_row->enabled_p) |
| 4306 | { |
| 4307 | header_line_row->y = 0; |
| 4308 | update_window_line (w, 0, &mouse_face_overwritten_p); |
| 4309 | } |
| 4310 | |
| 4311 | /* Fix the appearance of overlapping/overlapped rows. */ |
| 4312 | if (!paused_p && !w->pseudo_window_p) |
| 4313 | { |
| 4314 | #ifdef HAVE_WINDOW_SYSTEM |
| 4315 | if (changed_p && rif->fix_overlapping_area) |
| 4316 | { |
| 4317 | redraw_overlapped_rows (w, yb); |
| 4318 | redraw_overlapping_rows (w, yb); |
| 4319 | } |
| 4320 | #endif |
| 4321 | |
| 4322 | /* Make cursor visible at cursor position of W. */ |
| 4323 | set_window_cursor_after_update (w); |
| 4324 | |
| 4325 | #if 0 /* Check that current matrix invariants are satisfied. This is |
| 4326 | for debugging only. See the comment of check_matrix_invariants. */ |
| 4327 | IF_DEBUG (check_matrix_invariants (w)); |
| 4328 | #endif |
| 4329 | } |
| 4330 | |
| 4331 | #if GLYPH_DEBUG |
| 4332 | /* Remember the redisplay method used to display the matrix. */ |
| 4333 | strcpy (w->current_matrix->method, w->desired_matrix->method); |
| 4334 | #endif |
| 4335 | |
| 4336 | #ifdef HAVE_WINDOW_SYSTEM |
| 4337 | update_window_fringes (w, 0); |
| 4338 | #endif |
| 4339 | |
| 4340 | /* End the update of window W. Don't set the cursor if we |
| 4341 | paused updating the display because in this case, |
| 4342 | set_window_cursor_after_update hasn't been called, and |
| 4343 | output_cursor doesn't contain the cursor location. */ |
| 4344 | rif->update_window_end_hook (w, !paused_p, mouse_face_overwritten_p); |
| 4345 | } |
| 4346 | else |
| 4347 | paused_p = 1; |
| 4348 | |
| 4349 | #if GLYPH_DEBUG |
| 4350 | /* check_current_matrix_flags (w); */ |
| 4351 | add_window_display_history (w, w->current_matrix->method, paused_p); |
| 4352 | #endif |
| 4353 | |
| 4354 | clear_glyph_matrix (desired_matrix); |
| 4355 | |
| 4356 | return paused_p; |
| 4357 | } |
| 4358 | |
| 4359 | |
| 4360 | /* Update the display of area AREA in window W, row number VPOS. |
| 4361 | AREA can be either LEFT_MARGIN_AREA or RIGHT_MARGIN_AREA. */ |
| 4362 | |
| 4363 | static void |
| 4364 | update_marginal_area (w, area, vpos) |
| 4365 | struct window *w; |
| 4366 | int area, vpos; |
| 4367 | { |
| 4368 | struct glyph_row *desired_row = MATRIX_ROW (w->desired_matrix, vpos); |
| 4369 | |
| 4370 | /* Let functions in xterm.c know what area subsequent X positions |
| 4371 | will be relative to. */ |
| 4372 | updated_area = area; |
| 4373 | |
| 4374 | /* Set cursor to start of glyphs, write them, and clear to the end |
| 4375 | of the area. I don't think that something more sophisticated is |
| 4376 | necessary here, since marginal areas will not be the default. */ |
| 4377 | rif->cursor_to (vpos, 0, desired_row->y, 0); |
| 4378 | if (desired_row->used[area]) |
| 4379 | rif->write_glyphs (desired_row->glyphs[area], desired_row->used[area]); |
| 4380 | rif->clear_end_of_line (-1); |
| 4381 | } |
| 4382 | |
| 4383 | |
| 4384 | /* Update the display of the text area of row VPOS in window W. |
| 4385 | Value is non-zero if display has changed. */ |
| 4386 | |
| 4387 | static int |
| 4388 | update_text_area (w, vpos) |
| 4389 | struct window *w; |
| 4390 | int vpos; |
| 4391 | { |
| 4392 | struct glyph_row *current_row = MATRIX_ROW (w->current_matrix, vpos); |
| 4393 | struct glyph_row *desired_row = MATRIX_ROW (w->desired_matrix, vpos); |
| 4394 | int changed_p = 0; |
| 4395 | |
| 4396 | /* Let functions in xterm.c know what area subsequent X positions |
| 4397 | will be relative to. */ |
| 4398 | updated_area = TEXT_AREA; |
| 4399 | |
| 4400 | /* If rows are at different X or Y, or rows have different height, |
| 4401 | or the current row is marked invalid, write the entire line. */ |
| 4402 | if (!current_row->enabled_p |
| 4403 | || desired_row->y != current_row->y |
| 4404 | || desired_row->ascent != current_row->ascent |
| 4405 | || desired_row->phys_ascent != current_row->phys_ascent |
| 4406 | || desired_row->phys_height != current_row->phys_height |
| 4407 | || desired_row->visible_height != current_row->visible_height |
| 4408 | || current_row->overlapped_p |
| 4409 | || current_row->mouse_face_p |
| 4410 | || current_row->x != desired_row->x) |
| 4411 | { |
| 4412 | rif->cursor_to (vpos, 0, desired_row->y, desired_row->x); |
| 4413 | |
| 4414 | if (desired_row->used[TEXT_AREA]) |
| 4415 | rif->write_glyphs (desired_row->glyphs[TEXT_AREA], |
| 4416 | desired_row->used[TEXT_AREA]); |
| 4417 | |
| 4418 | /* Clear to end of window. */ |
| 4419 | rif->clear_end_of_line (-1); |
| 4420 | changed_p = 1; |
| 4421 | |
| 4422 | /* This erases the cursor. We do this here because |
| 4423 | notice_overwritten_cursor cannot easily check this, which |
| 4424 | might indicate that the whole functionality of |
| 4425 | notice_overwritten_cursor would better be implemented here. |
| 4426 | On the other hand, we need notice_overwritten_cursor as long |
| 4427 | as mouse highlighting is done asynchronously outside of |
| 4428 | redisplay. */ |
| 4429 | if (vpos == w->phys_cursor.vpos) |
| 4430 | w->phys_cursor_on_p = 0; |
| 4431 | } |
| 4432 | else |
| 4433 | { |
| 4434 | int stop, i, x; |
| 4435 | struct glyph *current_glyph = current_row->glyphs[TEXT_AREA]; |
| 4436 | struct glyph *desired_glyph = desired_row->glyphs[TEXT_AREA]; |
| 4437 | int overlapping_glyphs_p = current_row->contains_overlapping_glyphs_p; |
| 4438 | int desired_stop_pos = desired_row->used[TEXT_AREA]; |
| 4439 | |
| 4440 | /* If the desired row extends its face to the text area end, and |
| 4441 | unless the current row also does so at the same position, |
| 4442 | make sure we write at least one glyph, so that the face |
| 4443 | extension actually takes place. */ |
| 4444 | if (MATRIX_ROW_EXTENDS_FACE_P (desired_row) |
| 4445 | && (desired_stop_pos < current_row->used[TEXT_AREA] |
| 4446 | || (desired_stop_pos == current_row->used[TEXT_AREA] |
| 4447 | && !MATRIX_ROW_EXTENDS_FACE_P (current_row)))) |
| 4448 | --desired_stop_pos; |
| 4449 | |
| 4450 | stop = min (current_row->used[TEXT_AREA], desired_stop_pos); |
| 4451 | i = 0; |
| 4452 | x = desired_row->x; |
| 4453 | |
| 4454 | /* Loop over glyphs that current and desired row may have |
| 4455 | in common. */ |
| 4456 | while (i < stop) |
| 4457 | { |
| 4458 | int can_skip_p = 1; |
| 4459 | |
| 4460 | /* Skip over glyphs that both rows have in common. These |
| 4461 | don't have to be written. We can't skip if the last |
| 4462 | current glyph overlaps the glyph to its right. For |
| 4463 | example, consider a current row of `if ' with the `f' in |
| 4464 | Courier bold so that it overlaps the ` ' to its right. |
| 4465 | If the desired row is ` ', we would skip over the space |
| 4466 | after the `if' and there would remain a pixel from the |
| 4467 | `f' on the screen. */ |
| 4468 | if (overlapping_glyphs_p && i > 0) |
| 4469 | { |
| 4470 | struct glyph *glyph = ¤t_row->glyphs[TEXT_AREA][i - 1]; |
| 4471 | int left, right; |
| 4472 | |
| 4473 | rif->get_glyph_overhangs (glyph, XFRAME (w->frame), |
| 4474 | &left, &right); |
| 4475 | can_skip_p = right == 0; |
| 4476 | } |
| 4477 | |
| 4478 | if (can_skip_p) |
| 4479 | { |
| 4480 | while (i < stop |
| 4481 | && GLYPH_EQUAL_P (desired_glyph, current_glyph)) |
| 4482 | { |
| 4483 | x += desired_glyph->pixel_width; |
| 4484 | ++desired_glyph, ++current_glyph, ++i; |
| 4485 | } |
| 4486 | |
| 4487 | /* Consider the case that the current row contains "xxx |
| 4488 | ppp ggg" in italic Courier font, and the desired row |
| 4489 | is "xxx ggg". The character `p' has lbearing, `g' |
| 4490 | has not. The loop above will stop in front of the |
| 4491 | first `p' in the current row. If we would start |
| 4492 | writing glyphs there, we wouldn't erase the lbearing |
| 4493 | of the `p'. The rest of the lbearing problem is then |
| 4494 | taken care of by draw_glyphs. */ |
| 4495 | if (overlapping_glyphs_p |
| 4496 | && i > 0 |
| 4497 | && i < current_row->used[TEXT_AREA] |
| 4498 | && (current_row->used[TEXT_AREA] |
| 4499 | != desired_row->used[TEXT_AREA])) |
| 4500 | { |
| 4501 | int left, right; |
| 4502 | |
| 4503 | rif->get_glyph_overhangs (current_glyph, XFRAME (w->frame), |
| 4504 | &left, &right); |
| 4505 | while (left > 0 && i > 0) |
| 4506 | { |
| 4507 | --i, --desired_glyph, --current_glyph; |
| 4508 | x -= desired_glyph->pixel_width; |
| 4509 | left -= desired_glyph->pixel_width; |
| 4510 | } |
| 4511 | } |
| 4512 | } |
| 4513 | |
| 4514 | /* Try to avoid writing the entire rest of the desired row |
| 4515 | by looking for a resync point. This mainly prevents |
| 4516 | mode line flickering in the case the mode line is in |
| 4517 | fixed-pitch font, which it usually will be. */ |
| 4518 | if (i < desired_row->used[TEXT_AREA]) |
| 4519 | { |
| 4520 | int start_x = x, start_hpos = i; |
| 4521 | struct glyph *start = desired_glyph; |
| 4522 | int current_x = x; |
| 4523 | int skip_first_p = !can_skip_p; |
| 4524 | |
| 4525 | /* Find the next glyph that's equal again. */ |
| 4526 | while (i < stop |
| 4527 | && (skip_first_p |
| 4528 | || !GLYPH_EQUAL_P (desired_glyph, current_glyph)) |
| 4529 | && x == current_x) |
| 4530 | { |
| 4531 | x += desired_glyph->pixel_width; |
| 4532 | current_x += current_glyph->pixel_width; |
| 4533 | ++desired_glyph, ++current_glyph, ++i; |
| 4534 | skip_first_p = 0; |
| 4535 | } |
| 4536 | |
| 4537 | if (i == start_hpos || x != current_x) |
| 4538 | { |
| 4539 | i = start_hpos; |
| 4540 | x = start_x; |
| 4541 | desired_glyph = start; |
| 4542 | break; |
| 4543 | } |
| 4544 | |
| 4545 | rif->cursor_to (vpos, start_hpos, desired_row->y, start_x); |
| 4546 | rif->write_glyphs (start, i - start_hpos); |
| 4547 | changed_p = 1; |
| 4548 | } |
| 4549 | } |
| 4550 | |
| 4551 | /* Write the rest. */ |
| 4552 | if (i < desired_row->used[TEXT_AREA]) |
| 4553 | { |
| 4554 | rif->cursor_to (vpos, i, desired_row->y, x); |
| 4555 | rif->write_glyphs (desired_glyph, desired_row->used[TEXT_AREA] - i); |
| 4556 | changed_p = 1; |
| 4557 | } |
| 4558 | |
| 4559 | /* Maybe clear to end of line. */ |
| 4560 | if (MATRIX_ROW_EXTENDS_FACE_P (desired_row)) |
| 4561 | { |
| 4562 | /* If new row extends to the end of the text area, nothing |
| 4563 | has to be cleared, if and only if we did a write_glyphs |
| 4564 | above. This is made sure by setting desired_stop_pos |
| 4565 | appropriately above. */ |
| 4566 | xassert (i < desired_row->used[TEXT_AREA] |
| 4567 | || ((desired_row->used[TEXT_AREA] |
| 4568 | == current_row->used[TEXT_AREA]) |
| 4569 | && MATRIX_ROW_EXTENDS_FACE_P (current_row))); |
| 4570 | } |
| 4571 | else if (MATRIX_ROW_EXTENDS_FACE_P (current_row)) |
| 4572 | { |
| 4573 | /* If old row extends to the end of the text area, clear. */ |
| 4574 | if (i >= desired_row->used[TEXT_AREA]) |
| 4575 | rif->cursor_to (vpos, i, desired_row->y, |
| 4576 | desired_row->pixel_width); |
| 4577 | rif->clear_end_of_line (-1); |
| 4578 | changed_p = 1; |
| 4579 | } |
| 4580 | else if (desired_row->pixel_width < current_row->pixel_width) |
| 4581 | { |
| 4582 | /* Otherwise clear to the end of the old row. Everything |
| 4583 | after that position should be clear already. */ |
| 4584 | int x; |
| 4585 | |
| 4586 | if (i >= desired_row->used[TEXT_AREA]) |
| 4587 | rif->cursor_to (vpos, i, desired_row->y, |
| 4588 | desired_row->pixel_width); |
| 4589 | |
| 4590 | /* If cursor is displayed at the end of the line, make sure |
| 4591 | it's cleared. Nowadays we don't have a phys_cursor_glyph |
| 4592 | with which to erase the cursor (because this method |
| 4593 | doesn't work with lbearing/rbearing), so we must do it |
| 4594 | this way. */ |
| 4595 | if (vpos == w->phys_cursor.vpos |
| 4596 | && w->phys_cursor.hpos >= desired_row->used[TEXT_AREA]) |
| 4597 | { |
| 4598 | w->phys_cursor_on_p = 0; |
| 4599 | x = -1; |
| 4600 | } |
| 4601 | else |
| 4602 | x = current_row->pixel_width; |
| 4603 | rif->clear_end_of_line (x); |
| 4604 | changed_p = 1; |
| 4605 | } |
| 4606 | } |
| 4607 | |
| 4608 | return changed_p; |
| 4609 | } |
| 4610 | |
| 4611 | |
| 4612 | /* Update row VPOS in window W. Value is non-zero if display has been |
| 4613 | changed. */ |
| 4614 | |
| 4615 | static int |
| 4616 | update_window_line (w, vpos, mouse_face_overwritten_p) |
| 4617 | struct window *w; |
| 4618 | int vpos, *mouse_face_overwritten_p; |
| 4619 | { |
| 4620 | struct glyph_row *current_row = MATRIX_ROW (w->current_matrix, vpos); |
| 4621 | struct glyph_row *desired_row = MATRIX_ROW (w->desired_matrix, vpos); |
| 4622 | int changed_p = 0; |
| 4623 | |
| 4624 | /* Set the row being updated. This is important to let xterm.c |
| 4625 | know what line height values are in effect. */ |
| 4626 | updated_row = desired_row; |
| 4627 | |
| 4628 | /* A row can be completely invisible in case a desired matrix was |
| 4629 | built with a vscroll and then make_cursor_line_fully_visible shifts |
| 4630 | the matrix. Make sure to make such rows current anyway, since |
| 4631 | we need the correct y-position, for example, in the current matrix. */ |
| 4632 | if (desired_row->mode_line_p |
| 4633 | || desired_row->visible_height > 0) |
| 4634 | { |
| 4635 | xassert (desired_row->enabled_p); |
| 4636 | |
| 4637 | /* Update display of the left margin area, if there is one. */ |
| 4638 | if (!desired_row->full_width_p |
| 4639 | && !NILP (w->left_margin_cols)) |
| 4640 | { |
| 4641 | changed_p = 1; |
| 4642 | update_marginal_area (w, LEFT_MARGIN_AREA, vpos); |
| 4643 | } |
| 4644 | |
| 4645 | /* Update the display of the text area. */ |
| 4646 | if (update_text_area (w, vpos)) |
| 4647 | { |
| 4648 | changed_p = 1; |
| 4649 | if (current_row->mouse_face_p) |
| 4650 | *mouse_face_overwritten_p = 1; |
| 4651 | } |
| 4652 | |
| 4653 | /* Update display of the right margin area, if there is one. */ |
| 4654 | if (!desired_row->full_width_p |
| 4655 | && !NILP (w->right_margin_cols)) |
| 4656 | { |
| 4657 | changed_p = 1; |
| 4658 | update_marginal_area (w, RIGHT_MARGIN_AREA, vpos); |
| 4659 | } |
| 4660 | |
| 4661 | /* Draw truncation marks etc. */ |
| 4662 | if (!current_row->enabled_p |
| 4663 | || desired_row->y != current_row->y |
| 4664 | || desired_row->visible_height != current_row->visible_height |
| 4665 | || desired_row->cursor_in_fringe_p != current_row->cursor_in_fringe_p |
| 4666 | || desired_row->overlay_arrow_bitmap != current_row->overlay_arrow_bitmap |
| 4667 | || current_row->redraw_fringe_bitmaps_p |
| 4668 | || desired_row->mode_line_p != current_row->mode_line_p |
| 4669 | || desired_row->exact_window_width_line_p != current_row->exact_window_width_line_p |
| 4670 | || (MATRIX_ROW_CONTINUATION_LINE_P (desired_row) |
| 4671 | != MATRIX_ROW_CONTINUATION_LINE_P (current_row))) |
| 4672 | rif->after_update_window_line_hook (desired_row); |
| 4673 | } |
| 4674 | |
| 4675 | /* Update current_row from desired_row. */ |
| 4676 | make_current (w->desired_matrix, w->current_matrix, vpos); |
| 4677 | updated_row = NULL; |
| 4678 | return changed_p; |
| 4679 | } |
| 4680 | |
| 4681 | |
| 4682 | /* Set the cursor after an update of window W. This function may only |
| 4683 | be called from update_window. */ |
| 4684 | |
| 4685 | static void |
| 4686 | set_window_cursor_after_update (w) |
| 4687 | struct window *w; |
| 4688 | { |
| 4689 | struct frame *f = XFRAME (w->frame); |
| 4690 | int cx, cy, vpos, hpos; |
| 4691 | |
| 4692 | /* Not intended for frame matrix updates. */ |
| 4693 | xassert (FRAME_WINDOW_P (f)); |
| 4694 | |
| 4695 | if (cursor_in_echo_area |
| 4696 | && !NILP (echo_area_buffer[0]) |
| 4697 | /* If we are showing a message instead of the mini-buffer, |
| 4698 | show the cursor for the message instead. */ |
| 4699 | && XWINDOW (minibuf_window) == w |
| 4700 | && EQ (minibuf_window, echo_area_window) |
| 4701 | /* These cases apply only to the frame that contains |
| 4702 | the active mini-buffer window. */ |
| 4703 | && FRAME_HAS_MINIBUF_P (f) |
| 4704 | && EQ (FRAME_MINIBUF_WINDOW (f), echo_area_window)) |
| 4705 | { |
| 4706 | cx = cy = vpos = hpos = 0; |
| 4707 | |
| 4708 | if (cursor_in_echo_area >= 0) |
| 4709 | { |
| 4710 | /* If the mini-buffer is several lines high, find the last |
| 4711 | line that has any text on it. Note: either all lines |
| 4712 | are enabled or none. Otherwise we wouldn't be able to |
| 4713 | determine Y. */ |
| 4714 | struct glyph_row *row, *last_row; |
| 4715 | struct glyph *glyph; |
| 4716 | int yb = window_text_bottom_y (w); |
| 4717 | |
| 4718 | last_row = NULL; |
| 4719 | row = w->current_matrix->rows; |
| 4720 | while (row->enabled_p |
| 4721 | && (last_row == NULL |
| 4722 | || MATRIX_ROW_BOTTOM_Y (row) <= yb)) |
| 4723 | { |
| 4724 | if (row->used[TEXT_AREA] |
| 4725 | && row->glyphs[TEXT_AREA][0].charpos >= 0) |
| 4726 | last_row = row; |
| 4727 | ++row; |
| 4728 | } |
| 4729 | |
| 4730 | if (last_row) |
| 4731 | { |
| 4732 | struct glyph *start = last_row->glyphs[TEXT_AREA]; |
| 4733 | struct glyph *last = start + last_row->used[TEXT_AREA] - 1; |
| 4734 | |
| 4735 | while (last > start && last->charpos < 0) |
| 4736 | --last; |
| 4737 | |
| 4738 | for (glyph = start; glyph < last; ++glyph) |
| 4739 | { |
| 4740 | cx += glyph->pixel_width; |
| 4741 | ++hpos; |
| 4742 | } |
| 4743 | |
| 4744 | cy = last_row->y; |
| 4745 | vpos = MATRIX_ROW_VPOS (last_row, w->current_matrix); |
| 4746 | } |
| 4747 | } |
| 4748 | } |
| 4749 | else |
| 4750 | { |
| 4751 | cx = w->cursor.x; |
| 4752 | cy = w->cursor.y; |
| 4753 | hpos = w->cursor.hpos; |
| 4754 | vpos = w->cursor.vpos; |
| 4755 | } |
| 4756 | |
| 4757 | /* Window cursor can be out of sync for horizontally split windows. */ |
| 4758 | hpos = max (0, hpos); |
| 4759 | hpos = min (w->current_matrix->matrix_w - 1, hpos); |
| 4760 | vpos = max (0, vpos); |
| 4761 | vpos = min (w->current_matrix->nrows - 1, vpos); |
| 4762 | rif->cursor_to (vpos, hpos, cy, cx); |
| 4763 | } |
| 4764 | |
| 4765 | |
| 4766 | /* Set WINDOW->must_be_updated_p to ON_P for all windows in the window |
| 4767 | tree rooted at W. */ |
| 4768 | |
| 4769 | void |
| 4770 | set_window_update_flags (w, on_p) |
| 4771 | struct window *w; |
| 4772 | int on_p; |
| 4773 | { |
| 4774 | while (w) |
| 4775 | { |
| 4776 | if (!NILP (w->hchild)) |
| 4777 | set_window_update_flags (XWINDOW (w->hchild), on_p); |
| 4778 | else if (!NILP (w->vchild)) |
| 4779 | set_window_update_flags (XWINDOW (w->vchild), on_p); |
| 4780 | else |
| 4781 | w->must_be_updated_p = on_p; |
| 4782 | |
| 4783 | w = NILP (w->next) ? 0 : XWINDOW (w->next); |
| 4784 | } |
| 4785 | } |
| 4786 | |
| 4787 | |
| 4788 | \f |
| 4789 | /*********************************************************************** |
| 4790 | Window-Based Scrolling |
| 4791 | ***********************************************************************/ |
| 4792 | |
| 4793 | /* Structure describing rows in scrolling_window. */ |
| 4794 | |
| 4795 | struct row_entry |
| 4796 | { |
| 4797 | /* Number of occurrences of this row in desired and current matrix. */ |
| 4798 | int old_uses, new_uses; |
| 4799 | |
| 4800 | /* Vpos of row in new matrix. */ |
| 4801 | int new_line_number; |
| 4802 | |
| 4803 | /* Bucket index of this row_entry in the hash table row_table. */ |
| 4804 | int bucket; |
| 4805 | |
| 4806 | /* The row described by this entry. */ |
| 4807 | struct glyph_row *row; |
| 4808 | |
| 4809 | /* Hash collision chain. */ |
| 4810 | struct row_entry *next; |
| 4811 | }; |
| 4812 | |
| 4813 | /* A pool to allocate row_entry structures from, and the size of the |
| 4814 | pool. The pool is reallocated in scrolling_window when we find |
| 4815 | that we need a larger one. */ |
| 4816 | |
| 4817 | static struct row_entry *row_entry_pool; |
| 4818 | static int row_entry_pool_size; |
| 4819 | |
| 4820 | /* Index of next free entry in row_entry_pool. */ |
| 4821 | |
| 4822 | static int row_entry_idx; |
| 4823 | |
| 4824 | /* The hash table used during scrolling, and the table's size. This |
| 4825 | table is used to quickly identify equal rows in the desired and |
| 4826 | current matrix. */ |
| 4827 | |
| 4828 | static struct row_entry **row_table; |
| 4829 | static int row_table_size; |
| 4830 | |
| 4831 | /* Vectors of pointers to row_entry structures belonging to the |
| 4832 | current and desired matrix, and the size of the vectors. */ |
| 4833 | |
| 4834 | static struct row_entry **old_lines, **new_lines; |
| 4835 | static int old_lines_size, new_lines_size; |
| 4836 | |
| 4837 | /* A pool to allocate run structures from, and its size. */ |
| 4838 | |
| 4839 | static struct run *run_pool; |
| 4840 | static int runs_size; |
| 4841 | |
| 4842 | /* A vector of runs of lines found during scrolling. */ |
| 4843 | |
| 4844 | static struct run **runs; |
| 4845 | |
| 4846 | /* Add glyph row ROW to the scrolling hash table during the scrolling |
| 4847 | of window W. */ |
| 4848 | |
| 4849 | static INLINE struct row_entry * |
| 4850 | add_row_entry (w, row) |
| 4851 | struct window *w; |
| 4852 | struct glyph_row *row; |
| 4853 | { |
| 4854 | struct row_entry *entry; |
| 4855 | int i = row->hash % row_table_size; |
| 4856 | |
| 4857 | entry = row_table[i]; |
| 4858 | while (entry && !row_equal_p (w, entry->row, row, 1)) |
| 4859 | entry = entry->next; |
| 4860 | |
| 4861 | if (entry == NULL) |
| 4862 | { |
| 4863 | entry = row_entry_pool + row_entry_idx++; |
| 4864 | entry->row = row; |
| 4865 | entry->old_uses = entry->new_uses = 0; |
| 4866 | entry->new_line_number = 0; |
| 4867 | entry->bucket = i; |
| 4868 | entry->next = row_table[i]; |
| 4869 | row_table[i] = entry; |
| 4870 | } |
| 4871 | |
| 4872 | return entry; |
| 4873 | } |
| 4874 | |
| 4875 | |
| 4876 | /* Try to reuse part of the current display of W by scrolling lines. |
| 4877 | HEADER_LINE_P non-zero means W has a header line. |
| 4878 | |
| 4879 | The algorithm is taken from Communications of the ACM, Apr78 "A |
| 4880 | Technique for Isolating Differences Between Files." It should take |
| 4881 | O(N) time. |
| 4882 | |
| 4883 | A short outline of the steps of the algorithm |
| 4884 | |
| 4885 | 1. Skip lines equal at the start and end of both matrices. |
| 4886 | |
| 4887 | 2. Enter rows in the current and desired matrix into a symbol |
| 4888 | table, counting how often they appear in both matrices. |
| 4889 | |
| 4890 | 3. Rows that appear exactly once in both matrices serve as anchors, |
| 4891 | i.e. we assume that such lines are likely to have been moved. |
| 4892 | |
| 4893 | 4. Starting from anchor lines, extend regions to be scrolled both |
| 4894 | forward and backward. |
| 4895 | |
| 4896 | Value is |
| 4897 | |
| 4898 | -1 if all rows were found to be equal. |
| 4899 | 0 to indicate that we did not scroll the display, or |
| 4900 | 1 if we did scroll. */ |
| 4901 | |
| 4902 | static int |
| 4903 | scrolling_window (w, header_line_p) |
| 4904 | struct window *w; |
| 4905 | int header_line_p; |
| 4906 | { |
| 4907 | struct glyph_matrix *desired_matrix = w->desired_matrix; |
| 4908 | struct glyph_matrix *current_matrix = w->current_matrix; |
| 4909 | int yb = window_text_bottom_y (w); |
| 4910 | int i, j, first_old, first_new, last_old, last_new; |
| 4911 | int nruns, nbytes, n, run_idx; |
| 4912 | struct row_entry *entry; |
| 4913 | |
| 4914 | /* Skip over rows equal at the start. */ |
| 4915 | for (i = header_line_p ? 1 : 0; i < current_matrix->nrows - 1; ++i) |
| 4916 | { |
| 4917 | struct glyph_row *d = MATRIX_ROW (desired_matrix, i); |
| 4918 | struct glyph_row *c = MATRIX_ROW (current_matrix, i); |
| 4919 | |
| 4920 | if (c->enabled_p |
| 4921 | && d->enabled_p |
| 4922 | && !d->redraw_fringe_bitmaps_p |
| 4923 | && c->y == d->y |
| 4924 | && MATRIX_ROW_BOTTOM_Y (c) <= yb |
| 4925 | && MATRIX_ROW_BOTTOM_Y (d) <= yb |
| 4926 | && row_equal_p (w, c, d, 1)) |
| 4927 | { |
| 4928 | assign_row (c, d); |
| 4929 | d->enabled_p = 0; |
| 4930 | } |
| 4931 | else |
| 4932 | break; |
| 4933 | } |
| 4934 | |
| 4935 | /* Give up if some rows in the desired matrix are not enabled. */ |
| 4936 | if (!MATRIX_ROW (desired_matrix, i)->enabled_p) |
| 4937 | return -1; |
| 4938 | |
| 4939 | first_old = first_new = i; |
| 4940 | |
| 4941 | /* Set last_new to the index + 1 of the last enabled row in the |
| 4942 | desired matrix. */ |
| 4943 | i = first_new + 1; |
| 4944 | while (i < desired_matrix->nrows - 1 |
| 4945 | && MATRIX_ROW (desired_matrix, i)->enabled_p |
| 4946 | && MATRIX_ROW_BOTTOM_Y (MATRIX_ROW (desired_matrix, i)) <= yb) |
| 4947 | ++i; |
| 4948 | |
| 4949 | if (!MATRIX_ROW (desired_matrix, i)->enabled_p) |
| 4950 | return 0; |
| 4951 | |
| 4952 | last_new = i; |
| 4953 | |
| 4954 | /* Set last_old to the index + 1 of the last enabled row in the |
| 4955 | current matrix. We don't look at the enabled flag here because |
| 4956 | we plan to reuse part of the display even if other parts are |
| 4957 | disabled. */ |
| 4958 | i = first_old + 1; |
| 4959 | while (i < current_matrix->nrows - 1) |
| 4960 | { |
| 4961 | int bottom = MATRIX_ROW_BOTTOM_Y (MATRIX_ROW (current_matrix, i)); |
| 4962 | if (bottom <= yb) |
| 4963 | ++i; |
| 4964 | if (bottom >= yb) |
| 4965 | break; |
| 4966 | } |
| 4967 | |
| 4968 | last_old = i; |
| 4969 | |
| 4970 | /* Skip over rows equal at the bottom. */ |
| 4971 | i = last_new; |
| 4972 | j = last_old; |
| 4973 | while (i - 1 > first_new |
| 4974 | && j - 1 > first_old |
| 4975 | && MATRIX_ROW (current_matrix, i - 1)->enabled_p |
| 4976 | && (MATRIX_ROW (current_matrix, i - 1)->y |
| 4977 | == MATRIX_ROW (desired_matrix, j - 1)->y) |
| 4978 | && !MATRIX_ROW (desired_matrix, j - 1)->redraw_fringe_bitmaps_p |
| 4979 | && row_equal_p (w, |
| 4980 | MATRIX_ROW (desired_matrix, i - 1), |
| 4981 | MATRIX_ROW (current_matrix, j - 1), 1)) |
| 4982 | --i, --j; |
| 4983 | last_new = i; |
| 4984 | last_old = j; |
| 4985 | |
| 4986 | /* Nothing to do if all rows are equal. */ |
| 4987 | if (last_new == first_new) |
| 4988 | return 0; |
| 4989 | |
| 4990 | /* Reallocate vectors, tables etc. if necessary. */ |
| 4991 | |
| 4992 | if (current_matrix->nrows > old_lines_size) |
| 4993 | { |
| 4994 | old_lines_size = current_matrix->nrows; |
| 4995 | nbytes = old_lines_size * sizeof *old_lines; |
| 4996 | old_lines = (struct row_entry **) xrealloc (old_lines, nbytes); |
| 4997 | } |
| 4998 | |
| 4999 | if (desired_matrix->nrows > new_lines_size) |
| 5000 | { |
| 5001 | new_lines_size = desired_matrix->nrows; |
| 5002 | nbytes = new_lines_size * sizeof *new_lines; |
| 5003 | new_lines = (struct row_entry **) xrealloc (new_lines, nbytes); |
| 5004 | } |
| 5005 | |
| 5006 | n = desired_matrix->nrows + current_matrix->nrows; |
| 5007 | if (3 * n > row_table_size) |
| 5008 | { |
| 5009 | row_table_size = next_almost_prime (3 * n); |
| 5010 | nbytes = row_table_size * sizeof *row_table; |
| 5011 | row_table = (struct row_entry **) xrealloc (row_table, nbytes); |
| 5012 | bzero (row_table, nbytes); |
| 5013 | } |
| 5014 | |
| 5015 | if (n > row_entry_pool_size) |
| 5016 | { |
| 5017 | row_entry_pool_size = n; |
| 5018 | nbytes = row_entry_pool_size * sizeof *row_entry_pool; |
| 5019 | row_entry_pool = (struct row_entry *) xrealloc (row_entry_pool, nbytes); |
| 5020 | } |
| 5021 | |
| 5022 | if (desired_matrix->nrows > runs_size) |
| 5023 | { |
| 5024 | runs_size = desired_matrix->nrows; |
| 5025 | nbytes = runs_size * sizeof *runs; |
| 5026 | runs = (struct run **) xrealloc (runs, nbytes); |
| 5027 | nbytes = runs_size * sizeof *run_pool; |
| 5028 | run_pool = (struct run *) xrealloc (run_pool, nbytes); |
| 5029 | } |
| 5030 | |
| 5031 | nruns = run_idx = 0; |
| 5032 | row_entry_idx = 0; |
| 5033 | |
| 5034 | /* Add rows from the current and desired matrix to the hash table |
| 5035 | row_hash_table to be able to find equal ones quickly. */ |
| 5036 | |
| 5037 | for (i = first_old; i < last_old; ++i) |
| 5038 | { |
| 5039 | if (MATRIX_ROW (current_matrix, i)->enabled_p) |
| 5040 | { |
| 5041 | entry = add_row_entry (w, MATRIX_ROW (current_matrix, i)); |
| 5042 | old_lines[i] = entry; |
| 5043 | ++entry->old_uses; |
| 5044 | } |
| 5045 | else |
| 5046 | old_lines[i] = NULL; |
| 5047 | } |
| 5048 | |
| 5049 | for (i = first_new; i < last_new; ++i) |
| 5050 | { |
| 5051 | xassert (MATRIX_ROW_ENABLED_P (desired_matrix, i)); |
| 5052 | entry = add_row_entry (w, MATRIX_ROW (desired_matrix, i)); |
| 5053 | ++entry->new_uses; |
| 5054 | entry->new_line_number = i; |
| 5055 | new_lines[i] = entry; |
| 5056 | } |
| 5057 | |
| 5058 | /* Identify moves based on lines that are unique and equal |
| 5059 | in both matrices. */ |
| 5060 | for (i = first_old; i < last_old;) |
| 5061 | if (old_lines[i] |
| 5062 | && old_lines[i]->old_uses == 1 |
| 5063 | && old_lines[i]->new_uses == 1) |
| 5064 | { |
| 5065 | int j, k; |
| 5066 | int new_line = old_lines[i]->new_line_number; |
| 5067 | struct run *run = run_pool + run_idx++; |
| 5068 | |
| 5069 | /* Record move. */ |
| 5070 | run->current_vpos = i; |
| 5071 | run->current_y = MATRIX_ROW (current_matrix, i)->y; |
| 5072 | run->desired_vpos = new_line; |
| 5073 | run->desired_y = MATRIX_ROW (desired_matrix, new_line)->y; |
| 5074 | run->nrows = 1; |
| 5075 | run->height = MATRIX_ROW (current_matrix, i)->height; |
| 5076 | |
| 5077 | /* Extend backward. */ |
| 5078 | j = i - 1; |
| 5079 | k = new_line - 1; |
| 5080 | while (j > first_old |
| 5081 | && k > first_new |
| 5082 | && old_lines[j] == new_lines[k]) |
| 5083 | { |
| 5084 | int h = MATRIX_ROW (current_matrix, j)->height; |
| 5085 | --run->current_vpos; |
| 5086 | --run->desired_vpos; |
| 5087 | ++run->nrows; |
| 5088 | run->height += h; |
| 5089 | run->desired_y -= h; |
| 5090 | run->current_y -= h; |
| 5091 | --j, --k; |
| 5092 | } |
| 5093 | |
| 5094 | /* Extend forward. */ |
| 5095 | j = i + 1; |
| 5096 | k = new_line + 1; |
| 5097 | while (j < last_old |
| 5098 | && k < last_new |
| 5099 | && old_lines[j] == new_lines[k]) |
| 5100 | { |
| 5101 | int h = MATRIX_ROW (current_matrix, j)->height; |
| 5102 | ++run->nrows; |
| 5103 | run->height += h; |
| 5104 | ++j, ++k; |
| 5105 | } |
| 5106 | |
| 5107 | /* Insert run into list of all runs. Order runs by copied |
| 5108 | pixel lines. Note that we record runs that don't have to |
| 5109 | be copied because they are already in place. This is done |
| 5110 | because we can avoid calling update_window_line in this |
| 5111 | case. */ |
| 5112 | for (j = 0; j < nruns && runs[j]->height > run->height; ++j) |
| 5113 | ; |
| 5114 | for (k = nruns; k > j; --k) |
| 5115 | runs[k] = runs[k - 1]; |
| 5116 | runs[j] = run; |
| 5117 | ++nruns; |
| 5118 | |
| 5119 | i += run->nrows; |
| 5120 | } |
| 5121 | else |
| 5122 | ++i; |
| 5123 | |
| 5124 | /* Do the moves. Do it in a way that we don't overwrite something |
| 5125 | we want to copy later on. This is not solvable in general |
| 5126 | because there is only one display and we don't have a way to |
| 5127 | exchange areas on this display. Example: |
| 5128 | |
| 5129 | +-----------+ +-----------+ |
| 5130 | | A | | B | |
| 5131 | +-----------+ --> +-----------+ |
| 5132 | | B | | A | |
| 5133 | +-----------+ +-----------+ |
| 5134 | |
| 5135 | Instead, prefer bigger moves, and invalidate moves that would |
| 5136 | copy from where we copied to. */ |
| 5137 | |
| 5138 | for (i = 0; i < nruns; ++i) |
| 5139 | if (runs[i]->nrows > 0) |
| 5140 | { |
| 5141 | struct run *r = runs[i]; |
| 5142 | |
| 5143 | /* Copy on the display. */ |
| 5144 | if (r->current_y != r->desired_y) |
| 5145 | { |
| 5146 | rif->scroll_run_hook (w, r); |
| 5147 | |
| 5148 | /* Invalidate runs that copy from where we copied to. */ |
| 5149 | for (j = i + 1; j < nruns; ++j) |
| 5150 | { |
| 5151 | struct run *p = runs[j]; |
| 5152 | |
| 5153 | if ((p->current_y >= r->desired_y |
| 5154 | && p->current_y < r->desired_y + r->height) |
| 5155 | || (p->current_y + p->height >= r->desired_y |
| 5156 | && (p->current_y + p->height |
| 5157 | < r->desired_y + r->height))) |
| 5158 | p->nrows = 0; |
| 5159 | } |
| 5160 | } |
| 5161 | |
| 5162 | /* Assign matrix rows. */ |
| 5163 | for (j = 0; j < r->nrows; ++j) |
| 5164 | { |
| 5165 | struct glyph_row *from, *to; |
| 5166 | int to_overlapped_p; |
| 5167 | |
| 5168 | to = MATRIX_ROW (current_matrix, r->desired_vpos + j); |
| 5169 | from = MATRIX_ROW (desired_matrix, r->desired_vpos + j); |
| 5170 | to_overlapped_p = to->overlapped_p; |
| 5171 | if (!from->mode_line_p && !w->pseudo_window_p |
| 5172 | && (to->left_fringe_bitmap != from->left_fringe_bitmap |
| 5173 | || to->right_fringe_bitmap != from->right_fringe_bitmap |
| 5174 | || to->left_fringe_face_id != from->left_fringe_face_id |
| 5175 | || to->right_fringe_face_id != from->right_fringe_face_id |
| 5176 | || to->overlay_arrow_bitmap != from->overlay_arrow_bitmap)) |
| 5177 | from->redraw_fringe_bitmaps_p = 1; |
| 5178 | assign_row (to, from); |
| 5179 | to->enabled_p = 1, from->enabled_p = 0; |
| 5180 | to->overlapped_p = to_overlapped_p; |
| 5181 | } |
| 5182 | } |
| 5183 | |
| 5184 | /* Clear the hash table, for the next time. */ |
| 5185 | for (i = 0; i < row_entry_idx; ++i) |
| 5186 | row_table[row_entry_pool[i].bucket] = NULL; |
| 5187 | |
| 5188 | /* Value is > 0 to indicate that we scrolled the display. */ |
| 5189 | return nruns; |
| 5190 | } |
| 5191 | |
| 5192 | |
| 5193 | \f |
| 5194 | /************************************************************************ |
| 5195 | Frame-Based Updates |
| 5196 | ************************************************************************/ |
| 5197 | |
| 5198 | /* Update the desired frame matrix of frame F. |
| 5199 | |
| 5200 | FORCE_P non-zero means that the update should not be stopped by |
| 5201 | pending input. INHIBIT_HAIRY_ID_P non-zero means that scrolling |
| 5202 | should not be tried. |
| 5203 | |
| 5204 | Value is non-zero if update was stopped due to pending input. */ |
| 5205 | |
| 5206 | static int |
| 5207 | update_frame_1 (f, force_p, inhibit_id_p) |
| 5208 | struct frame *f; |
| 5209 | int force_p; |
| 5210 | int inhibit_id_p; |
| 5211 | { |
| 5212 | /* Frame matrices to work on. */ |
| 5213 | struct glyph_matrix *current_matrix = f->current_matrix; |
| 5214 | struct glyph_matrix *desired_matrix = f->desired_matrix; |
| 5215 | int i; |
| 5216 | int pause; |
| 5217 | int preempt_count = baud_rate / 2400 + 1; |
| 5218 | extern int input_pending; |
| 5219 | |
| 5220 | xassert (current_matrix && desired_matrix); |
| 5221 | |
| 5222 | if (baud_rate != FRAME_COST_BAUD_RATE (f)) |
| 5223 | calculate_costs (f); |
| 5224 | |
| 5225 | if (preempt_count <= 0) |
| 5226 | preempt_count = 1; |
| 5227 | |
| 5228 | if (redisplay_dont_pause) |
| 5229 | force_p = 1; |
| 5230 | #if PERIODIC_PREEMPTION_CHECKING |
| 5231 | else if (NILP (Vredisplay_preemption_period)) |
| 5232 | force_p = 1; |
| 5233 | #else |
| 5234 | else if (!force_p && detect_input_pending_ignore_squeezables ()) |
| 5235 | { |
| 5236 | pause = 1; |
| 5237 | goto do_pause; |
| 5238 | } |
| 5239 | #endif |
| 5240 | |
| 5241 | /* If we cannot insert/delete lines, it's no use trying it. */ |
| 5242 | if (!line_ins_del_ok) |
| 5243 | inhibit_id_p = 1; |
| 5244 | |
| 5245 | /* See if any of the desired lines are enabled; don't compute for |
| 5246 | i/d line if just want cursor motion. */ |
| 5247 | for (i = 0; i < desired_matrix->nrows; i++) |
| 5248 | if (MATRIX_ROW_ENABLED_P (desired_matrix, i)) |
| 5249 | break; |
| 5250 | |
| 5251 | /* Try doing i/d line, if not yet inhibited. */ |
| 5252 | if (!inhibit_id_p && i < desired_matrix->nrows) |
| 5253 | force_p |= scrolling (f); |
| 5254 | |
| 5255 | /* Update the individual lines as needed. Do bottom line first. */ |
| 5256 | if (MATRIX_ROW_ENABLED_P (desired_matrix, desired_matrix->nrows - 1)) |
| 5257 | update_frame_line (f, desired_matrix->nrows - 1); |
| 5258 | |
| 5259 | /* Now update the rest of the lines. */ |
| 5260 | for (i = 0; i < desired_matrix->nrows - 1 && (force_p || !input_pending); i++) |
| 5261 | { |
| 5262 | if (MATRIX_ROW_ENABLED_P (desired_matrix, i)) |
| 5263 | { |
| 5264 | if (FRAME_TERMCAP_P (f)) |
| 5265 | { |
| 5266 | /* Flush out every so many lines. |
| 5267 | Also flush out if likely to have more than 1k buffered |
| 5268 | otherwise. I'm told that some telnet connections get |
| 5269 | really screwed by more than 1k output at once. */ |
| 5270 | int outq = PENDING_OUTPUT_COUNT (stdout); |
| 5271 | if (outq > 900 |
| 5272 | || (outq > 20 && ((i - 1) % preempt_count == 0))) |
| 5273 | { |
| 5274 | fflush (stdout); |
| 5275 | if (preempt_count == 1) |
| 5276 | { |
| 5277 | #ifdef EMACS_OUTQSIZE |
| 5278 | if (EMACS_OUTQSIZE (0, &outq) < 0) |
| 5279 | /* Probably not a tty. Ignore the error and reset |
| 5280 | the outq count. */ |
| 5281 | outq = PENDING_OUTPUT_COUNT (stdout); |
| 5282 | #endif |
| 5283 | outq *= 10; |
| 5284 | if (baud_rate <= outq && baud_rate > 0) |
| 5285 | sleep (outq / baud_rate); |
| 5286 | } |
| 5287 | } |
| 5288 | } |
| 5289 | |
| 5290 | #if PERIODIC_PREEMPTION_CHECKING |
| 5291 | if (!force_p) |
| 5292 | { |
| 5293 | EMACS_TIME tm, dif; |
| 5294 | EMACS_GET_TIME (tm); |
| 5295 | EMACS_SUB_TIME (dif, preemption_next_check, tm); |
| 5296 | if (EMACS_TIME_NEG_P (dif)) |
| 5297 | { |
| 5298 | EMACS_ADD_TIME (preemption_next_check, tm, preemption_period); |
| 5299 | if (detect_input_pending_ignore_squeezables ()) |
| 5300 | break; |
| 5301 | } |
| 5302 | } |
| 5303 | #else |
| 5304 | if (!force_p && (i - 1) % preempt_count == 0) |
| 5305 | detect_input_pending_ignore_squeezables (); |
| 5306 | #endif |
| 5307 | |
| 5308 | update_frame_line (f, i); |
| 5309 | } |
| 5310 | } |
| 5311 | |
| 5312 | pause = (i < FRAME_LINES (f) - 1) ? i : 0; |
| 5313 | |
| 5314 | /* Now just clean up termcap drivers and set cursor, etc. */ |
| 5315 | if (!pause) |
| 5316 | { |
| 5317 | if ((cursor_in_echo_area |
| 5318 | /* If we are showing a message instead of the mini-buffer, |
| 5319 | show the cursor for the message instead of for the |
| 5320 | (now hidden) mini-buffer contents. */ |
| 5321 | || (EQ (minibuf_window, selected_window) |
| 5322 | && EQ (minibuf_window, echo_area_window) |
| 5323 | && !NILP (echo_area_buffer[0]))) |
| 5324 | /* These cases apply only to the frame that contains |
| 5325 | the active mini-buffer window. */ |
| 5326 | && FRAME_HAS_MINIBUF_P (f) |
| 5327 | && EQ (FRAME_MINIBUF_WINDOW (f), echo_area_window)) |
| 5328 | { |
| 5329 | int top = WINDOW_TOP_EDGE_LINE (XWINDOW (FRAME_MINIBUF_WINDOW (f))); |
| 5330 | int row, col; |
| 5331 | |
| 5332 | if (cursor_in_echo_area < 0) |
| 5333 | { |
| 5334 | /* Negative value of cursor_in_echo_area means put |
| 5335 | cursor at beginning of line. */ |
| 5336 | row = top; |
| 5337 | col = 0; |
| 5338 | } |
| 5339 | else |
| 5340 | { |
| 5341 | /* Positive value of cursor_in_echo_area means put |
| 5342 | cursor at the end of the prompt. If the mini-buffer |
| 5343 | is several lines high, find the last line that has |
| 5344 | any text on it. */ |
| 5345 | row = FRAME_LINES (f); |
| 5346 | do |
| 5347 | { |
| 5348 | --row; |
| 5349 | col = 0; |
| 5350 | |
| 5351 | if (MATRIX_ROW_ENABLED_P (current_matrix, row)) |
| 5352 | { |
| 5353 | /* Frame rows are filled up with spaces that |
| 5354 | must be ignored here. */ |
| 5355 | struct glyph_row *r = MATRIX_ROW (current_matrix, |
| 5356 | row); |
| 5357 | struct glyph *start = r->glyphs[TEXT_AREA]; |
| 5358 | struct glyph *last = start + r->used[TEXT_AREA]; |
| 5359 | |
| 5360 | while (last > start |
| 5361 | && (last - 1)->charpos < 0) |
| 5362 | --last; |
| 5363 | |
| 5364 | col = last - start; |
| 5365 | } |
| 5366 | } |
| 5367 | while (row > top && col == 0); |
| 5368 | |
| 5369 | /* Make sure COL is not out of range. */ |
| 5370 | if (col >= FRAME_CURSOR_X_LIMIT (f)) |
| 5371 | { |
| 5372 | /* If we have another row, advance cursor into it. */ |
| 5373 | if (row < FRAME_LINES (f) - 1) |
| 5374 | { |
| 5375 | col = FRAME_LEFT_SCROLL_BAR_COLS (f); |
| 5376 | row++; |
| 5377 | } |
| 5378 | /* Otherwise move it back in range. */ |
| 5379 | else |
| 5380 | col = FRAME_CURSOR_X_LIMIT (f) - 1; |
| 5381 | } |
| 5382 | } |
| 5383 | |
| 5384 | cursor_to (row, col); |
| 5385 | } |
| 5386 | else |
| 5387 | { |
| 5388 | /* We have only one cursor on terminal frames. Use it to |
| 5389 | display the cursor of the selected window. */ |
| 5390 | struct window *w = XWINDOW (FRAME_SELECTED_WINDOW (f)); |
| 5391 | if (w->cursor.vpos >= 0 |
| 5392 | /* The cursor vpos may be temporarily out of bounds |
| 5393 | in the following situation: There is one window, |
| 5394 | with the cursor in the lower half of it. The window |
| 5395 | is split, and a message causes a redisplay before |
| 5396 | a new cursor position has been computed. */ |
| 5397 | && w->cursor.vpos < WINDOW_TOTAL_LINES (w)) |
| 5398 | { |
| 5399 | int x = WINDOW_TO_FRAME_HPOS (w, w->cursor.hpos); |
| 5400 | int y = WINDOW_TO_FRAME_VPOS (w, w->cursor.vpos); |
| 5401 | |
| 5402 | if (INTEGERP (w->left_margin_cols)) |
| 5403 | x += XFASTINT (w->left_margin_cols); |
| 5404 | |
| 5405 | /* x = max (min (x, FRAME_TOTAL_COLS (f) - 1), 0); */ |
| 5406 | cursor_to (y, x); |
| 5407 | } |
| 5408 | } |
| 5409 | } |
| 5410 | |
| 5411 | do_pause: |
| 5412 | |
| 5413 | clear_desired_matrices (f); |
| 5414 | return pause; |
| 5415 | } |
| 5416 | |
| 5417 | |
| 5418 | /* Do line insertions/deletions on frame F for frame-based redisplay. */ |
| 5419 | |
| 5420 | int |
| 5421 | scrolling (frame) |
| 5422 | struct frame *frame; |
| 5423 | { |
| 5424 | int unchanged_at_top, unchanged_at_bottom; |
| 5425 | int window_size; |
| 5426 | int changed_lines; |
| 5427 | int *old_hash = (int *) alloca (FRAME_LINES (frame) * sizeof (int)); |
| 5428 | int *new_hash = (int *) alloca (FRAME_LINES (frame) * sizeof (int)); |
| 5429 | int *draw_cost = (int *) alloca (FRAME_LINES (frame) * sizeof (int)); |
| 5430 | int *old_draw_cost = (int *) alloca (FRAME_LINES (frame) * sizeof (int)); |
| 5431 | register int i; |
| 5432 | int free_at_end_vpos = FRAME_LINES (frame); |
| 5433 | struct glyph_matrix *current_matrix = frame->current_matrix; |
| 5434 | struct glyph_matrix *desired_matrix = frame->desired_matrix; |
| 5435 | |
| 5436 | if (!current_matrix) |
| 5437 | abort (); |
| 5438 | |
| 5439 | /* Compute hash codes of all the lines. Also calculate number of |
| 5440 | changed lines, number of unchanged lines at the beginning, and |
| 5441 | number of unchanged lines at the end. */ |
| 5442 | changed_lines = 0; |
| 5443 | unchanged_at_top = 0; |
| 5444 | unchanged_at_bottom = FRAME_LINES (frame); |
| 5445 | for (i = 0; i < FRAME_LINES (frame); i++) |
| 5446 | { |
| 5447 | /* Give up on this scrolling if some old lines are not enabled. */ |
| 5448 | if (!MATRIX_ROW_ENABLED_P (current_matrix, i)) |
| 5449 | return 0; |
| 5450 | old_hash[i] = line_hash_code (MATRIX_ROW (current_matrix, i)); |
| 5451 | if (! MATRIX_ROW_ENABLED_P (desired_matrix, i)) |
| 5452 | { |
| 5453 | /* This line cannot be redrawn, so don't let scrolling mess it. */ |
| 5454 | new_hash[i] = old_hash[i]; |
| 5455 | #define INFINITY 1000000 /* Taken from scroll.c */ |
| 5456 | draw_cost[i] = INFINITY; |
| 5457 | } |
| 5458 | else |
| 5459 | { |
| 5460 | new_hash[i] = line_hash_code (MATRIX_ROW (desired_matrix, i)); |
| 5461 | draw_cost[i] = line_draw_cost (desired_matrix, i); |
| 5462 | } |
| 5463 | |
| 5464 | if (old_hash[i] != new_hash[i]) |
| 5465 | { |
| 5466 | changed_lines++; |
| 5467 | unchanged_at_bottom = FRAME_LINES (frame) - i - 1; |
| 5468 | } |
| 5469 | else if (i == unchanged_at_top) |
| 5470 | unchanged_at_top++; |
| 5471 | old_draw_cost[i] = line_draw_cost (current_matrix, i); |
| 5472 | } |
| 5473 | |
| 5474 | /* If changed lines are few, don't allow preemption, don't scroll. */ |
| 5475 | if ((!scroll_region_ok && changed_lines < baud_rate / 2400) |
| 5476 | || unchanged_at_bottom == FRAME_LINES (frame)) |
| 5477 | return 1; |
| 5478 | |
| 5479 | window_size = (FRAME_LINES (frame) - unchanged_at_top |
| 5480 | - unchanged_at_bottom); |
| 5481 | |
| 5482 | if (scroll_region_ok) |
| 5483 | free_at_end_vpos -= unchanged_at_bottom; |
| 5484 | else if (memory_below_frame) |
| 5485 | free_at_end_vpos = -1; |
| 5486 | |
| 5487 | /* If large window, fast terminal and few lines in common between |
| 5488 | current frame and desired frame, don't bother with i/d calc. */ |
| 5489 | if (!scroll_region_ok && window_size >= 18 && baud_rate > 2400 |
| 5490 | && (window_size >= |
| 5491 | 10 * scrolling_max_lines_saved (unchanged_at_top, |
| 5492 | FRAME_LINES (frame) - unchanged_at_bottom, |
| 5493 | old_hash, new_hash, draw_cost))) |
| 5494 | return 0; |
| 5495 | |
| 5496 | if (window_size < 2) |
| 5497 | return 0; |
| 5498 | |
| 5499 | scrolling_1 (frame, window_size, unchanged_at_top, unchanged_at_bottom, |
| 5500 | draw_cost + unchanged_at_top - 1, |
| 5501 | old_draw_cost + unchanged_at_top - 1, |
| 5502 | old_hash + unchanged_at_top - 1, |
| 5503 | new_hash + unchanged_at_top - 1, |
| 5504 | free_at_end_vpos - unchanged_at_top); |
| 5505 | |
| 5506 | return 0; |
| 5507 | } |
| 5508 | |
| 5509 | |
| 5510 | /* Count the number of blanks at the start of the vector of glyphs R |
| 5511 | which is LEN glyphs long. */ |
| 5512 | |
| 5513 | static int |
| 5514 | count_blanks (r, len) |
| 5515 | struct glyph *r; |
| 5516 | int len; |
| 5517 | { |
| 5518 | int i; |
| 5519 | |
| 5520 | for (i = 0; i < len; ++i) |
| 5521 | if (!CHAR_GLYPH_SPACE_P (r[i])) |
| 5522 | break; |
| 5523 | |
| 5524 | return i; |
| 5525 | } |
| 5526 | |
| 5527 | |
| 5528 | /* Count the number of glyphs in common at the start of the glyph |
| 5529 | vectors STR1 and STR2. END1 is the end of STR1 and END2 is the end |
| 5530 | of STR2. Value is the number of equal glyphs equal at the start. */ |
| 5531 | |
| 5532 | static int |
| 5533 | count_match (str1, end1, str2, end2) |
| 5534 | struct glyph *str1, *end1, *str2, *end2; |
| 5535 | { |
| 5536 | struct glyph *p1 = str1; |
| 5537 | struct glyph *p2 = str2; |
| 5538 | |
| 5539 | while (p1 < end1 |
| 5540 | && p2 < end2 |
| 5541 | && GLYPH_CHAR_AND_FACE_EQUAL_P (p1, p2)) |
| 5542 | ++p1, ++p2; |
| 5543 | |
| 5544 | return p1 - str1; |
| 5545 | } |
| 5546 | |
| 5547 | |
| 5548 | /* Char insertion/deletion cost vector, from term.c */ |
| 5549 | |
| 5550 | extern int *char_ins_del_vector; |
| 5551 | #define char_ins_del_cost(f) (&char_ins_del_vector[FRAME_TOTAL_COLS((f))]) |
| 5552 | |
| 5553 | |
| 5554 | /* Perform a frame-based update on line VPOS in frame FRAME. */ |
| 5555 | |
| 5556 | static void |
| 5557 | update_frame_line (f, vpos) |
| 5558 | struct frame *f; |
| 5559 | int vpos; |
| 5560 | { |
| 5561 | struct glyph *obody, *nbody, *op1, *op2, *np1, *nend; |
| 5562 | int tem; |
| 5563 | int osp, nsp, begmatch, endmatch, olen, nlen; |
| 5564 | struct glyph_matrix *current_matrix = f->current_matrix; |
| 5565 | struct glyph_matrix *desired_matrix = f->desired_matrix; |
| 5566 | struct glyph_row *current_row = MATRIX_ROW (current_matrix, vpos); |
| 5567 | struct glyph_row *desired_row = MATRIX_ROW (desired_matrix, vpos); |
| 5568 | int must_write_whole_line_p; |
| 5569 | int write_spaces_p = must_write_spaces; |
| 5570 | int colored_spaces_p = (FACE_FROM_ID (f, DEFAULT_FACE_ID)->background |
| 5571 | != FACE_TTY_DEFAULT_BG_COLOR); |
| 5572 | |
| 5573 | if (colored_spaces_p) |
| 5574 | write_spaces_p = 1; |
| 5575 | |
| 5576 | /* Current row not enabled means it has unknown contents. We must |
| 5577 | write the whole desired line in that case. */ |
| 5578 | must_write_whole_line_p = !current_row->enabled_p; |
| 5579 | if (must_write_whole_line_p) |
| 5580 | { |
| 5581 | obody = 0; |
| 5582 | olen = 0; |
| 5583 | } |
| 5584 | else |
| 5585 | { |
| 5586 | obody = MATRIX_ROW_GLYPH_START (current_matrix, vpos); |
| 5587 | olen = current_row->used[TEXT_AREA]; |
| 5588 | |
| 5589 | /* Ignore trailing spaces, if we can. */ |
| 5590 | if (!write_spaces_p) |
| 5591 | while (olen > 0 && CHAR_GLYPH_SPACE_P (obody[olen-1])) |
| 5592 | olen--; |
| 5593 | } |
| 5594 | |
| 5595 | current_row->enabled_p = 1; |
| 5596 | current_row->used[TEXT_AREA] = desired_row->used[TEXT_AREA]; |
| 5597 | |
| 5598 | /* If desired line is empty, just clear the line. */ |
| 5599 | if (!desired_row->enabled_p) |
| 5600 | { |
| 5601 | nlen = 0; |
| 5602 | goto just_erase; |
| 5603 | } |
| 5604 | |
| 5605 | nbody = desired_row->glyphs[TEXT_AREA]; |
| 5606 | nlen = desired_row->used[TEXT_AREA]; |
| 5607 | nend = nbody + nlen; |
| 5608 | |
| 5609 | /* If display line has unknown contents, write the whole line. */ |
| 5610 | if (must_write_whole_line_p) |
| 5611 | { |
| 5612 | /* Ignore spaces at the end, if we can. */ |
| 5613 | if (!write_spaces_p) |
| 5614 | while (nlen > 0 && CHAR_GLYPH_SPACE_P (nbody[nlen - 1])) |
| 5615 | --nlen; |
| 5616 | |
| 5617 | /* Write the contents of the desired line. */ |
| 5618 | if (nlen) |
| 5619 | { |
| 5620 | cursor_to (vpos, 0); |
| 5621 | write_glyphs (nbody, nlen); |
| 5622 | } |
| 5623 | |
| 5624 | /* Don't call clear_end_of_line if we already wrote the whole |
| 5625 | line. The cursor will not be at the right margin in that |
| 5626 | case but in the line below. */ |
| 5627 | if (nlen < FRAME_TOTAL_COLS (f)) |
| 5628 | { |
| 5629 | cursor_to (vpos, nlen); |
| 5630 | clear_end_of_line (FRAME_TOTAL_COLS (f)); |
| 5631 | } |
| 5632 | else |
| 5633 | /* Make sure we are in the right row, otherwise cursor movement |
| 5634 | with cmgoto might use `ch' in the wrong row. */ |
| 5635 | cursor_to (vpos, 0); |
| 5636 | |
| 5637 | make_current (desired_matrix, current_matrix, vpos); |
| 5638 | return; |
| 5639 | } |
| 5640 | |
| 5641 | /* Pretend trailing spaces are not there at all, |
| 5642 | unless for one reason or another we must write all spaces. */ |
| 5643 | if (!write_spaces_p) |
| 5644 | while (nlen > 0 && CHAR_GLYPH_SPACE_P (nbody[nlen - 1])) |
| 5645 | nlen--; |
| 5646 | |
| 5647 | /* If there's no i/d char, quickly do the best we can without it. */ |
| 5648 | if (!char_ins_del_ok) |
| 5649 | { |
| 5650 | int i, j; |
| 5651 | |
| 5652 | /* Find the first glyph in desired row that doesn't agree with |
| 5653 | a glyph in the current row, and write the rest from there on. */ |
| 5654 | for (i = 0; i < nlen; i++) |
| 5655 | { |
| 5656 | if (i >= olen || !GLYPH_EQUAL_P (nbody + i, obody + i)) |
| 5657 | { |
| 5658 | /* Find the end of the run of different glyphs. */ |
| 5659 | j = i + 1; |
| 5660 | while (j < nlen |
| 5661 | && (j >= olen |
| 5662 | || !GLYPH_EQUAL_P (nbody + j, obody + j) |
| 5663 | || CHAR_GLYPH_PADDING_P (nbody[j]))) |
| 5664 | ++j; |
| 5665 | |
| 5666 | /* Output this run of non-matching chars. */ |
| 5667 | cursor_to (vpos, i); |
| 5668 | write_glyphs (nbody + i, j - i); |
| 5669 | i = j - 1; |
| 5670 | |
| 5671 | /* Now find the next non-match. */ |
| 5672 | } |
| 5673 | } |
| 5674 | |
| 5675 | /* Clear the rest of the line, or the non-clear part of it. */ |
| 5676 | if (olen > nlen) |
| 5677 | { |
| 5678 | cursor_to (vpos, nlen); |
| 5679 | clear_end_of_line (olen); |
| 5680 | } |
| 5681 | |
| 5682 | /* Make current row = desired row. */ |
| 5683 | make_current (desired_matrix, current_matrix, vpos); |
| 5684 | return; |
| 5685 | } |
| 5686 | |
| 5687 | /* Here when CHAR_INS_DEL_OK != 0, i.e. we can insert or delete |
| 5688 | characters in a row. */ |
| 5689 | |
| 5690 | if (!olen) |
| 5691 | { |
| 5692 | /* If current line is blank, skip over initial spaces, if |
| 5693 | possible, and write the rest. */ |
| 5694 | if (write_spaces_p) |
| 5695 | nsp = 0; |
| 5696 | else |
| 5697 | nsp = count_blanks (nbody, nlen); |
| 5698 | |
| 5699 | if (nlen > nsp) |
| 5700 | { |
| 5701 | cursor_to (vpos, nsp); |
| 5702 | write_glyphs (nbody + nsp, nlen - nsp); |
| 5703 | } |
| 5704 | |
| 5705 | /* Exchange contents between current_frame and new_frame. */ |
| 5706 | make_current (desired_matrix, current_matrix, vpos); |
| 5707 | return; |
| 5708 | } |
| 5709 | |
| 5710 | /* Compute number of leading blanks in old and new contents. */ |
| 5711 | osp = count_blanks (obody, olen); |
| 5712 | nsp = (colored_spaces_p ? 0 : count_blanks (nbody, nlen)); |
| 5713 | |
| 5714 | /* Compute number of matching chars starting with first non-blank. */ |
| 5715 | begmatch = count_match (obody + osp, obody + olen, |
| 5716 | nbody + nsp, nbody + nlen); |
| 5717 | |
| 5718 | /* Spaces in new match implicit space past the end of old. */ |
| 5719 | /* A bug causing this to be a no-op was fixed in 18.29. */ |
| 5720 | if (!write_spaces_p && osp + begmatch == olen) |
| 5721 | { |
| 5722 | np1 = nbody + nsp; |
| 5723 | while (np1 + begmatch < nend && CHAR_GLYPH_SPACE_P (np1[begmatch])) |
| 5724 | ++begmatch; |
| 5725 | } |
| 5726 | |
| 5727 | /* Avoid doing insert/delete char |
| 5728 | just cause number of leading spaces differs |
| 5729 | when the following text does not match. */ |
| 5730 | if (begmatch == 0 && osp != nsp) |
| 5731 | osp = nsp = min (osp, nsp); |
| 5732 | |
| 5733 | /* Find matching characters at end of line */ |
| 5734 | op1 = obody + olen; |
| 5735 | np1 = nbody + nlen; |
| 5736 | op2 = op1 + begmatch - min (olen - osp, nlen - nsp); |
| 5737 | while (op1 > op2 |
| 5738 | && GLYPH_EQUAL_P (op1 - 1, np1 - 1)) |
| 5739 | { |
| 5740 | op1--; |
| 5741 | np1--; |
| 5742 | } |
| 5743 | endmatch = obody + olen - op1; |
| 5744 | |
| 5745 | /* tem gets the distance to insert or delete. |
| 5746 | endmatch is how many characters we save by doing so. |
| 5747 | Is it worth it? */ |
| 5748 | |
| 5749 | tem = (nlen - nsp) - (olen - osp); |
| 5750 | if (endmatch && tem |
| 5751 | && (!char_ins_del_ok || endmatch <= char_ins_del_cost (f)[tem])) |
| 5752 | endmatch = 0; |
| 5753 | |
| 5754 | /* nsp - osp is the distance to insert or delete. |
| 5755 | If that is nonzero, begmatch is known to be nonzero also. |
| 5756 | begmatch + endmatch is how much we save by doing the ins/del. |
| 5757 | Is it worth it? */ |
| 5758 | |
| 5759 | if (nsp != osp |
| 5760 | && (!char_ins_del_ok |
| 5761 | || begmatch + endmatch <= char_ins_del_cost (f)[nsp - osp])) |
| 5762 | { |
| 5763 | begmatch = 0; |
| 5764 | endmatch = 0; |
| 5765 | osp = nsp = min (osp, nsp); |
| 5766 | } |
| 5767 | |
| 5768 | /* Now go through the line, inserting, writing and |
| 5769 | deleting as appropriate. */ |
| 5770 | |
| 5771 | if (osp > nsp) |
| 5772 | { |
| 5773 | cursor_to (vpos, nsp); |
| 5774 | delete_glyphs (osp - nsp); |
| 5775 | } |
| 5776 | else if (nsp > osp) |
| 5777 | { |
| 5778 | /* If going to delete chars later in line |
| 5779 | and insert earlier in the line, |
| 5780 | must delete first to avoid losing data in the insert */ |
| 5781 | if (endmatch && nlen < olen + nsp - osp) |
| 5782 | { |
| 5783 | cursor_to (vpos, nlen - endmatch + osp - nsp); |
| 5784 | delete_glyphs (olen + nsp - osp - nlen); |
| 5785 | olen = nlen - (nsp - osp); |
| 5786 | } |
| 5787 | cursor_to (vpos, osp); |
| 5788 | insert_glyphs (0, nsp - osp); |
| 5789 | } |
| 5790 | olen += nsp - osp; |
| 5791 | |
| 5792 | tem = nsp + begmatch + endmatch; |
| 5793 | if (nlen != tem || olen != tem) |
| 5794 | { |
| 5795 | if (!endmatch || nlen == olen) |
| 5796 | { |
| 5797 | /* If new text being written reaches right margin, there is |
| 5798 | no need to do clear-to-eol at the end of this function |
| 5799 | (and it would not be safe, since cursor is not going to |
| 5800 | be "at the margin" after the text is done). */ |
| 5801 | if (nlen == FRAME_TOTAL_COLS (f)) |
| 5802 | olen = 0; |
| 5803 | |
| 5804 | /* Function write_glyphs is prepared to do nothing |
| 5805 | if passed a length <= 0. Check it here to avoid |
| 5806 | unnecessary cursor movement. */ |
| 5807 | if (nlen - tem > 0) |
| 5808 | { |
| 5809 | cursor_to (vpos, nsp + begmatch); |
| 5810 | write_glyphs (nbody + nsp + begmatch, nlen - tem); |
| 5811 | } |
| 5812 | } |
| 5813 | else if (nlen > olen) |
| 5814 | { |
| 5815 | /* Here, we used to have the following simple code: |
| 5816 | ---------------------------------------- |
| 5817 | write_glyphs (nbody + nsp + begmatch, olen - tem); |
| 5818 | insert_glyphs (nbody + nsp + begmatch + olen - tem, nlen - olen); |
| 5819 | ---------------------------------------- |
| 5820 | but it doesn't work if nbody[nsp + begmatch + olen - tem] |
| 5821 | is a padding glyph. */ |
| 5822 | int out = olen - tem; /* Columns to be overwritten originally. */ |
| 5823 | int del; |
| 5824 | |
| 5825 | cursor_to (vpos, nsp + begmatch); |
| 5826 | |
| 5827 | /* Calculate columns we can actually overwrite. */ |
| 5828 | while (CHAR_GLYPH_PADDING_P (nbody[nsp + begmatch + out])) |
| 5829 | out--; |
| 5830 | write_glyphs (nbody + nsp + begmatch, out); |
| 5831 | |
| 5832 | /* If we left columns to be overwritten, we must delete them. */ |
| 5833 | del = olen - tem - out; |
| 5834 | if (del > 0) |
| 5835 | delete_glyphs (del); |
| 5836 | |
| 5837 | /* At last, we insert columns not yet written out. */ |
| 5838 | insert_glyphs (nbody + nsp + begmatch + out, nlen - olen + del); |
| 5839 | olen = nlen; |
| 5840 | } |
| 5841 | else if (olen > nlen) |
| 5842 | { |
| 5843 | cursor_to (vpos, nsp + begmatch); |
| 5844 | write_glyphs (nbody + nsp + begmatch, nlen - tem); |
| 5845 | delete_glyphs (olen - nlen); |
| 5846 | olen = nlen; |
| 5847 | } |
| 5848 | } |
| 5849 | |
| 5850 | just_erase: |
| 5851 | /* If any unerased characters remain after the new line, erase them. */ |
| 5852 | if (olen > nlen) |
| 5853 | { |
| 5854 | cursor_to (vpos, nlen); |
| 5855 | clear_end_of_line (olen); |
| 5856 | } |
| 5857 | |
| 5858 | /* Exchange contents between current_frame and new_frame. */ |
| 5859 | make_current (desired_matrix, current_matrix, vpos); |
| 5860 | } |
| 5861 | |
| 5862 | |
| 5863 | \f |
| 5864 | /*********************************************************************** |
| 5865 | X/Y Position -> Buffer Position |
| 5866 | ***********************************************************************/ |
| 5867 | |
| 5868 | /* Determine what's under window-relative pixel position (*X, *Y). |
| 5869 | Return the object (string or buffer) that's there. |
| 5870 | Return in *POS the position in that object. |
| 5871 | Adjust *X and *Y to character positions. */ |
| 5872 | |
| 5873 | Lisp_Object |
| 5874 | buffer_posn_from_coords (w, x, y, pos, object, dx, dy, width, height) |
| 5875 | struct window *w; |
| 5876 | int *x, *y; |
| 5877 | struct display_pos *pos; |
| 5878 | Lisp_Object *object; |
| 5879 | int *dx, *dy; |
| 5880 | int *width, *height; |
| 5881 | { |
| 5882 | struct it it; |
| 5883 | struct buffer *old_current_buffer = current_buffer; |
| 5884 | struct text_pos startp; |
| 5885 | Lisp_Object string; |
| 5886 | struct glyph_row *row; |
| 5887 | #ifdef HAVE_WINDOW_SYSTEM |
| 5888 | struct image *img = 0; |
| 5889 | #endif |
| 5890 | int x0, x1; |
| 5891 | |
| 5892 | current_buffer = XBUFFER (w->buffer); |
| 5893 | SET_TEXT_POS_FROM_MARKER (startp, w->start); |
| 5894 | CHARPOS (startp) = min (ZV, max (BEGV, CHARPOS (startp))); |
| 5895 | BYTEPOS (startp) = min (ZV_BYTE, max (BEGV_BYTE, BYTEPOS (startp))); |
| 5896 | start_display (&it, w, startp); |
| 5897 | |
| 5898 | x0 = *x - WINDOW_LEFT_MARGIN_WIDTH (w); |
| 5899 | move_it_to (&it, -1, x0 + it.first_visible_x, *y, -1, |
| 5900 | MOVE_TO_X | MOVE_TO_Y); |
| 5901 | |
| 5902 | current_buffer = old_current_buffer; |
| 5903 | |
| 5904 | *dx = x0 + it.first_visible_x - it.current_x; |
| 5905 | *dy = *y - it.current_y; |
| 5906 | |
| 5907 | string = w->buffer; |
| 5908 | if (STRINGP (it.string)) |
| 5909 | string = it.string; |
| 5910 | *pos = it.current; |
| 5911 | |
| 5912 | #ifdef HAVE_WINDOW_SYSTEM |
| 5913 | if (it.what == IT_IMAGE) |
| 5914 | { |
| 5915 | if ((img = IMAGE_FROM_ID (it.f, it.image_id)) != NULL |
| 5916 | && !NILP (img->spec)) |
| 5917 | *object = img->spec; |
| 5918 | } |
| 5919 | #endif |
| 5920 | |
| 5921 | if (it.vpos < w->current_matrix->nrows |
| 5922 | && (row = MATRIX_ROW (w->current_matrix, it.vpos), |
| 5923 | row->enabled_p)) |
| 5924 | { |
| 5925 | if (it.hpos < row->used[TEXT_AREA]) |
| 5926 | { |
| 5927 | struct glyph *glyph = row->glyphs[TEXT_AREA] + it.hpos; |
| 5928 | #ifdef HAVE_WINDOW_SYSTEM |
| 5929 | if (img) |
| 5930 | { |
| 5931 | *dy -= row->ascent - glyph->ascent; |
| 5932 | *dx += glyph->slice.x; |
| 5933 | *dy += glyph->slice.y; |
| 5934 | /* Image slices positions are still relative to the entire image */ |
| 5935 | *width = img->width; |
| 5936 | *height = img->height; |
| 5937 | } |
| 5938 | else |
| 5939 | #endif |
| 5940 | { |
| 5941 | *width = glyph->pixel_width; |
| 5942 | *height = glyph->ascent + glyph->descent; |
| 5943 | } |
| 5944 | } |
| 5945 | else |
| 5946 | { |
| 5947 | *width = 0; |
| 5948 | *height = row->height; |
| 5949 | } |
| 5950 | } |
| 5951 | else |
| 5952 | { |
| 5953 | *width = *height = 0; |
| 5954 | } |
| 5955 | |
| 5956 | /* Add extra (default width) columns if clicked after EOL. */ |
| 5957 | x1 = max(0, it.current_x + it.pixel_width - it.first_visible_x); |
| 5958 | if (x0 > x1) |
| 5959 | it.hpos += (x0 - x1) / WINDOW_FRAME_COLUMN_WIDTH (w); |
| 5960 | |
| 5961 | *x = it.hpos; |
| 5962 | *y = it.vpos; |
| 5963 | |
| 5964 | return string; |
| 5965 | } |
| 5966 | |
| 5967 | |
| 5968 | /* Value is the string under window-relative coordinates X/Y in the |
| 5969 | mode line or header line (PART says which) of window W, or nil if none. |
| 5970 | *CHARPOS is set to the position in the string returned. */ |
| 5971 | |
| 5972 | Lisp_Object |
| 5973 | mode_line_string (w, part, x, y, charpos, object, dx, dy, width, height) |
| 5974 | struct window *w; |
| 5975 | enum window_part part; |
| 5976 | int *x, *y; |
| 5977 | int *charpos; |
| 5978 | Lisp_Object *object; |
| 5979 | int *dx, *dy; |
| 5980 | int *width, *height; |
| 5981 | { |
| 5982 | struct glyph_row *row; |
| 5983 | struct glyph *glyph, *end; |
| 5984 | int x0, y0; |
| 5985 | Lisp_Object string = Qnil; |
| 5986 | |
| 5987 | if (part == ON_MODE_LINE) |
| 5988 | row = MATRIX_MODE_LINE_ROW (w->current_matrix); |
| 5989 | else |
| 5990 | row = MATRIX_HEADER_LINE_ROW (w->current_matrix); |
| 5991 | y0 = *y - row->y; |
| 5992 | *y = row - MATRIX_FIRST_TEXT_ROW (w->current_matrix); |
| 5993 | |
| 5994 | if (row->mode_line_p && row->enabled_p) |
| 5995 | { |
| 5996 | /* Find the glyph under X. If we find one with a string object, |
| 5997 | it's the one we were looking for. */ |
| 5998 | glyph = row->glyphs[TEXT_AREA]; |
| 5999 | end = glyph + row->used[TEXT_AREA]; |
| 6000 | for (x0 = *x; glyph < end && x0 >= glyph->pixel_width; ++glyph) |
| 6001 | x0 -= glyph->pixel_width; |
| 6002 | *x = glyph - row->glyphs[TEXT_AREA]; |
| 6003 | if (glyph < end) |
| 6004 | { |
| 6005 | string = glyph->object; |
| 6006 | *charpos = glyph->charpos; |
| 6007 | *width = glyph->pixel_width; |
| 6008 | *height = glyph->ascent + glyph->descent; |
| 6009 | #ifdef HAVE_WINDOW_SYSTEM |
| 6010 | if (glyph->type == IMAGE_GLYPH) |
| 6011 | { |
| 6012 | struct image *img; |
| 6013 | img = IMAGE_FROM_ID (WINDOW_XFRAME (w), glyph->u.img_id); |
| 6014 | if (img != NULL) |
| 6015 | *object = img->spec; |
| 6016 | y0 -= row->ascent - glyph->ascent; |
| 6017 | } |
| 6018 | #endif |
| 6019 | } |
| 6020 | else |
| 6021 | { |
| 6022 | /* Add extra (default width) columns if clicked after EOL. */ |
| 6023 | *x += x0 / WINDOW_FRAME_COLUMN_WIDTH (w); |
| 6024 | *width = 0; |
| 6025 | *height = row->height; |
| 6026 | } |
| 6027 | } |
| 6028 | else |
| 6029 | { |
| 6030 | *x = 0; |
| 6031 | x0 = 0; |
| 6032 | *width = *height = 0; |
| 6033 | } |
| 6034 | |
| 6035 | *dx = x0; |
| 6036 | *dy = y0; |
| 6037 | |
| 6038 | return string; |
| 6039 | } |
| 6040 | |
| 6041 | |
| 6042 | /* Value is the string under window-relative coordinates X/Y in either |
| 6043 | marginal area, or nil if none. *CHARPOS is set to the position in |
| 6044 | the string returned. */ |
| 6045 | |
| 6046 | Lisp_Object |
| 6047 | marginal_area_string (w, part, x, y, charpos, object, dx, dy, width, height) |
| 6048 | struct window *w; |
| 6049 | enum window_part part; |
| 6050 | int *x, *y; |
| 6051 | int *charpos; |
| 6052 | Lisp_Object *object; |
| 6053 | int *dx, *dy; |
| 6054 | int *width, *height; |
| 6055 | { |
| 6056 | struct glyph_row *row = w->current_matrix->rows; |
| 6057 | struct glyph *glyph, *end; |
| 6058 | int x0, y0, i, wy = *y; |
| 6059 | int area; |
| 6060 | Lisp_Object string = Qnil; |
| 6061 | |
| 6062 | if (part == ON_LEFT_MARGIN) |
| 6063 | area = LEFT_MARGIN_AREA; |
| 6064 | else if (part == ON_RIGHT_MARGIN) |
| 6065 | area = RIGHT_MARGIN_AREA; |
| 6066 | else |
| 6067 | abort (); |
| 6068 | |
| 6069 | for (i = 0; row->enabled_p && i < w->current_matrix->nrows; ++i, ++row) |
| 6070 | if (wy >= row->y && wy < MATRIX_ROW_BOTTOM_Y (row)) |
| 6071 | break; |
| 6072 | y0 = *y - row->y; |
| 6073 | *y = row - MATRIX_FIRST_TEXT_ROW (w->current_matrix); |
| 6074 | |
| 6075 | if (row->enabled_p) |
| 6076 | { |
| 6077 | /* Find the glyph under X. If we find one with a string object, |
| 6078 | it's the one we were looking for. */ |
| 6079 | if (area == RIGHT_MARGIN_AREA) |
| 6080 | x0 = ((WINDOW_HAS_FRINGES_OUTSIDE_MARGINS (w) |
| 6081 | ? WINDOW_LEFT_FRINGE_WIDTH (w) |
| 6082 | : WINDOW_TOTAL_FRINGE_WIDTH (w)) |
| 6083 | + window_box_width (w, LEFT_MARGIN_AREA) |
| 6084 | + window_box_width (w, TEXT_AREA)); |
| 6085 | else |
| 6086 | x0 = (WINDOW_HAS_FRINGES_OUTSIDE_MARGINS (w) |
| 6087 | ? WINDOW_LEFT_FRINGE_WIDTH (w) |
| 6088 | : 0); |
| 6089 | |
| 6090 | glyph = row->glyphs[area]; |
| 6091 | end = glyph + row->used[area]; |
| 6092 | for (x0 = *x - x0; glyph < end && x0 >= glyph->pixel_width; ++glyph) |
| 6093 | x0 -= glyph->pixel_width; |
| 6094 | *x = glyph - row->glyphs[area]; |
| 6095 | if (glyph < end) |
| 6096 | { |
| 6097 | string = glyph->object; |
| 6098 | *charpos = glyph->charpos; |
| 6099 | *width = glyph->pixel_width; |
| 6100 | *height = glyph->ascent + glyph->descent; |
| 6101 | #ifdef HAVE_WINDOW_SYSTEM |
| 6102 | if (glyph->type == IMAGE_GLYPH) |
| 6103 | { |
| 6104 | struct image *img; |
| 6105 | img = IMAGE_FROM_ID (WINDOW_XFRAME (w), glyph->u.img_id); |
| 6106 | if (img != NULL) |
| 6107 | *object = img->spec; |
| 6108 | y0 -= row->ascent - glyph->ascent; |
| 6109 | x0 += glyph->slice.x; |
| 6110 | y0 += glyph->slice.y; |
| 6111 | } |
| 6112 | #endif |
| 6113 | } |
| 6114 | else |
| 6115 | { |
| 6116 | /* Add extra (default width) columns if clicked after EOL. */ |
| 6117 | *x += x0 / WINDOW_FRAME_COLUMN_WIDTH (w); |
| 6118 | *width = 0; |
| 6119 | *height = row->height; |
| 6120 | } |
| 6121 | } |
| 6122 | else |
| 6123 | { |
| 6124 | x0 = 0; |
| 6125 | *x = 0; |
| 6126 | *width = *height = 0; |
| 6127 | } |
| 6128 | |
| 6129 | *dx = x0; |
| 6130 | *dy = y0; |
| 6131 | |
| 6132 | return string; |
| 6133 | } |
| 6134 | |
| 6135 | |
| 6136 | /*********************************************************************** |
| 6137 | Changing Frame Sizes |
| 6138 | ***********************************************************************/ |
| 6139 | |
| 6140 | #ifdef SIGWINCH |
| 6141 | |
| 6142 | SIGTYPE |
| 6143 | window_change_signal (signalnum) /* If we don't have an argument, */ |
| 6144 | int signalnum; /* some compilers complain in signal calls. */ |
| 6145 | { |
| 6146 | int width, height; |
| 6147 | #ifndef USE_CRT_DLL |
| 6148 | extern int errno; |
| 6149 | #endif |
| 6150 | int old_errno = errno; |
| 6151 | |
| 6152 | signal (SIGWINCH, window_change_signal); |
| 6153 | SIGNAL_THREAD_CHECK (signalnum); |
| 6154 | |
| 6155 | get_frame_size (&width, &height); |
| 6156 | |
| 6157 | /* The frame size change obviously applies to a termcap-controlled |
| 6158 | frame. Find such a frame in the list, and assume it's the only |
| 6159 | one (since the redisplay code always writes to stdout, not a |
| 6160 | FILE * specified in the frame structure). Record the new size, |
| 6161 | but don't reallocate the data structures now. Let that be done |
| 6162 | later outside of the signal handler. */ |
| 6163 | |
| 6164 | { |
| 6165 | Lisp_Object tail, frame; |
| 6166 | |
| 6167 | FOR_EACH_FRAME (tail, frame) |
| 6168 | { |
| 6169 | if (FRAME_TERMCAP_P (XFRAME (frame))) |
| 6170 | { |
| 6171 | change_frame_size (XFRAME (frame), height, width, 0, 1, 0); |
| 6172 | break; |
| 6173 | } |
| 6174 | } |
| 6175 | } |
| 6176 | |
| 6177 | errno = old_errno; |
| 6178 | } |
| 6179 | #endif /* SIGWINCH */ |
| 6180 | |
| 6181 | |
| 6182 | /* Do any change in frame size that was requested by a signal. SAFE |
| 6183 | non-zero means this function is called from a place where it is |
| 6184 | safe to change frame sizes while a redisplay is in progress. */ |
| 6185 | |
| 6186 | void |
| 6187 | do_pending_window_change (safe) |
| 6188 | int safe; |
| 6189 | { |
| 6190 | /* If window_change_signal should have run before, run it now. */ |
| 6191 | if (redisplaying_p && !safe) |
| 6192 | return; |
| 6193 | |
| 6194 | while (delayed_size_change) |
| 6195 | { |
| 6196 | Lisp_Object tail, frame; |
| 6197 | |
| 6198 | delayed_size_change = 0; |
| 6199 | |
| 6200 | FOR_EACH_FRAME (tail, frame) |
| 6201 | { |
| 6202 | struct frame *f = XFRAME (frame); |
| 6203 | |
| 6204 | if (f->new_text_lines != 0 || f->new_text_cols != 0) |
| 6205 | change_frame_size (f, f->new_text_lines, f->new_text_cols, |
| 6206 | 0, 0, safe); |
| 6207 | } |
| 6208 | } |
| 6209 | } |
| 6210 | |
| 6211 | |
| 6212 | /* Change the frame height and/or width. Values may be given as zero to |
| 6213 | indicate no change is to take place. |
| 6214 | |
| 6215 | If DELAY is non-zero, then assume we're being called from a signal |
| 6216 | handler, and queue the change for later - perhaps the next |
| 6217 | redisplay. Since this tries to resize windows, we can't call it |
| 6218 | from a signal handler. |
| 6219 | |
| 6220 | SAFE non-zero means this function is called from a place where it's |
| 6221 | safe to change frame sizes while a redisplay is in progress. */ |
| 6222 | |
| 6223 | void |
| 6224 | change_frame_size (f, newheight, newwidth, pretend, delay, safe) |
| 6225 | register struct frame *f; |
| 6226 | int newheight, newwidth, pretend, delay, safe; |
| 6227 | { |
| 6228 | Lisp_Object tail, frame; |
| 6229 | |
| 6230 | if (! FRAME_WINDOW_P (f)) |
| 6231 | { |
| 6232 | /* When using termcap, or on MS-DOS, all frames use |
| 6233 | the same screen, so a change in size affects all frames. */ |
| 6234 | FOR_EACH_FRAME (tail, frame) |
| 6235 | if (! FRAME_WINDOW_P (XFRAME (frame))) |
| 6236 | change_frame_size_1 (XFRAME (frame), newheight, newwidth, |
| 6237 | pretend, delay, safe); |
| 6238 | } |
| 6239 | else |
| 6240 | change_frame_size_1 (f, newheight, newwidth, pretend, delay, safe); |
| 6241 | } |
| 6242 | |
| 6243 | static void |
| 6244 | change_frame_size_1 (f, newheight, newwidth, pretend, delay, safe) |
| 6245 | register struct frame *f; |
| 6246 | int newheight, newwidth, pretend, delay, safe; |
| 6247 | { |
| 6248 | int new_frame_total_cols; |
| 6249 | int count = SPECPDL_INDEX (); |
| 6250 | |
| 6251 | /* If we can't deal with the change now, queue it for later. */ |
| 6252 | if (delay || (redisplaying_p && !safe)) |
| 6253 | { |
| 6254 | f->new_text_lines = newheight; |
| 6255 | f->new_text_cols = newwidth; |
| 6256 | delayed_size_change = 1; |
| 6257 | return; |
| 6258 | } |
| 6259 | |
| 6260 | /* This size-change overrides any pending one for this frame. */ |
| 6261 | f->new_text_lines = 0; |
| 6262 | f->new_text_cols = 0; |
| 6263 | |
| 6264 | /* If an argument is zero, set it to the current value. */ |
| 6265 | if (newheight == 0) |
| 6266 | newheight = FRAME_LINES (f); |
| 6267 | if (newwidth == 0) |
| 6268 | newwidth = FRAME_COLS (f); |
| 6269 | |
| 6270 | /* Compute width of windows in F. |
| 6271 | This is the width of the frame without vertical scroll bars. */ |
| 6272 | new_frame_total_cols = FRAME_TOTAL_COLS_ARG (f, newwidth); |
| 6273 | |
| 6274 | /* Round up to the smallest acceptable size. */ |
| 6275 | check_frame_size (f, &newheight, &newwidth); |
| 6276 | |
| 6277 | /* If we're not changing the frame size, quit now. */ |
| 6278 | if (newheight == FRAME_LINES (f) |
| 6279 | && new_frame_total_cols == FRAME_TOTAL_COLS (f)) |
| 6280 | return; |
| 6281 | |
| 6282 | BLOCK_INPUT; |
| 6283 | |
| 6284 | #ifdef MSDOS |
| 6285 | /* We only can set screen dimensions to certain values supported |
| 6286 | by our video hardware. Try to find the smallest size greater |
| 6287 | or equal to the requested dimensions. */ |
| 6288 | dos_set_window_size (&newheight, &newwidth); |
| 6289 | #endif |
| 6290 | |
| 6291 | if (newheight != FRAME_LINES (f)) |
| 6292 | { |
| 6293 | if (FRAME_HAS_MINIBUF_P (f) && !FRAME_MINIBUF_ONLY_P (f)) |
| 6294 | { |
| 6295 | /* Frame has both root and mini-buffer. */ |
| 6296 | XSETFASTINT (XWINDOW (FRAME_ROOT_WINDOW (f))->top_line, |
| 6297 | FRAME_TOP_MARGIN (f)); |
| 6298 | set_window_height (FRAME_ROOT_WINDOW (f), |
| 6299 | (newheight |
| 6300 | - 1 |
| 6301 | - FRAME_TOP_MARGIN (f)), |
| 6302 | 0); |
| 6303 | XSETFASTINT (XWINDOW (FRAME_MINIBUF_WINDOW (f))->top_line, |
| 6304 | newheight - 1); |
| 6305 | set_window_height (FRAME_MINIBUF_WINDOW (f), 1, 0); |
| 6306 | } |
| 6307 | else |
| 6308 | /* Frame has just one top-level window. */ |
| 6309 | set_window_height (FRAME_ROOT_WINDOW (f), |
| 6310 | newheight - FRAME_TOP_MARGIN (f), 0); |
| 6311 | |
| 6312 | if (FRAME_TERMCAP_P (f) && !pretend) |
| 6313 | FrameRows = newheight; |
| 6314 | } |
| 6315 | |
| 6316 | if (new_frame_total_cols != FRAME_TOTAL_COLS (f)) |
| 6317 | { |
| 6318 | set_window_width (FRAME_ROOT_WINDOW (f), new_frame_total_cols, 0); |
| 6319 | if (FRAME_HAS_MINIBUF_P (f)) |
| 6320 | set_window_width (FRAME_MINIBUF_WINDOW (f), new_frame_total_cols, 0); |
| 6321 | |
| 6322 | if (FRAME_TERMCAP_P (f) && !pretend) |
| 6323 | FrameCols = newwidth; |
| 6324 | |
| 6325 | if (WINDOWP (f->tool_bar_window)) |
| 6326 | XSETFASTINT (XWINDOW (f->tool_bar_window)->total_cols, newwidth); |
| 6327 | } |
| 6328 | |
| 6329 | FRAME_LINES (f) = newheight; |
| 6330 | SET_FRAME_COLS (f, newwidth); |
| 6331 | |
| 6332 | { |
| 6333 | struct window *w = XWINDOW (FRAME_SELECTED_WINDOW (f)); |
| 6334 | int text_area_x, text_area_y, text_area_width, text_area_height; |
| 6335 | |
| 6336 | window_box (w, TEXT_AREA, &text_area_x, &text_area_y, &text_area_width, |
| 6337 | &text_area_height); |
| 6338 | if (w->cursor.x >= text_area_x + text_area_width) |
| 6339 | w->cursor.hpos = w->cursor.x = 0; |
| 6340 | if (w->cursor.y >= text_area_y + text_area_height) |
| 6341 | w->cursor.vpos = w->cursor.y = 0; |
| 6342 | } |
| 6343 | |
| 6344 | adjust_glyphs (f); |
| 6345 | calculate_costs (f); |
| 6346 | SET_FRAME_GARBAGED (f); |
| 6347 | f->resized_p = 1; |
| 6348 | |
| 6349 | UNBLOCK_INPUT; |
| 6350 | |
| 6351 | record_unwind_protect (Fset_buffer, Fcurrent_buffer ()); |
| 6352 | |
| 6353 | /* This isn't quite a no-op: it runs window-configuration-change-hook. */ |
| 6354 | Fset_window_buffer (FRAME_SELECTED_WINDOW (f), |
| 6355 | XWINDOW (FRAME_SELECTED_WINDOW (f))->buffer, Qt); |
| 6356 | |
| 6357 | unbind_to (count, Qnil); |
| 6358 | } |
| 6359 | |
| 6360 | |
| 6361 | \f |
| 6362 | /*********************************************************************** |
| 6363 | Terminal Related Lisp Functions |
| 6364 | ***********************************************************************/ |
| 6365 | |
| 6366 | DEFUN ("open-termscript", Fopen_termscript, Sopen_termscript, |
| 6367 | 1, 1, "FOpen termscript file: ", |
| 6368 | doc: /* Start writing all terminal output to FILE as well as the terminal. |
| 6369 | FILE = nil means just close any termscript file currently open. */) |
| 6370 | (file) |
| 6371 | Lisp_Object file; |
| 6372 | { |
| 6373 | if (termscript != 0) fclose (termscript); |
| 6374 | termscript = 0; |
| 6375 | |
| 6376 | if (! NILP (file)) |
| 6377 | { |
| 6378 | file = Fexpand_file_name (file, Qnil); |
| 6379 | termscript = fopen (SDATA (file), "w"); |
| 6380 | if (termscript == 0) |
| 6381 | report_file_error ("Opening termscript", Fcons (file, Qnil)); |
| 6382 | } |
| 6383 | return Qnil; |
| 6384 | } |
| 6385 | |
| 6386 | |
| 6387 | DEFUN ("send-string-to-terminal", Fsend_string_to_terminal, |
| 6388 | Ssend_string_to_terminal, 1, 1, 0, |
| 6389 | doc: /* Send STRING to the terminal without alteration. |
| 6390 | Control characters in STRING will have terminal-dependent effects. */) |
| 6391 | (string) |
| 6392 | Lisp_Object string; |
| 6393 | { |
| 6394 | /* ??? Perhaps we should do something special for multibyte strings here. */ |
| 6395 | CHECK_STRING (string); |
| 6396 | fwrite (SDATA (string), 1, SBYTES (string), stdout); |
| 6397 | fflush (stdout); |
| 6398 | if (termscript) |
| 6399 | { |
| 6400 | fwrite (SDATA (string), 1, SBYTES (string), |
| 6401 | termscript); |
| 6402 | fflush (termscript); |
| 6403 | } |
| 6404 | return Qnil; |
| 6405 | } |
| 6406 | |
| 6407 | |
| 6408 | DEFUN ("ding", Fding, Sding, 0, 1, 0, |
| 6409 | doc: /* Beep, or flash the screen. |
| 6410 | Also, unless an argument is given, |
| 6411 | terminate any keyboard macro currently executing. */) |
| 6412 | (arg) |
| 6413 | Lisp_Object arg; |
| 6414 | { |
| 6415 | if (!NILP (arg)) |
| 6416 | { |
| 6417 | if (noninteractive) |
| 6418 | putchar (07); |
| 6419 | else |
| 6420 | ring_bell (); |
| 6421 | fflush (stdout); |
| 6422 | } |
| 6423 | else |
| 6424 | bitch_at_user (); |
| 6425 | |
| 6426 | return Qnil; |
| 6427 | } |
| 6428 | |
| 6429 | void |
| 6430 | bitch_at_user () |
| 6431 | { |
| 6432 | if (noninteractive) |
| 6433 | putchar (07); |
| 6434 | else if (!INTERACTIVE) /* Stop executing a keyboard macro. */ |
| 6435 | error ("Keyboard macro terminated by a command ringing the bell"); |
| 6436 | else |
| 6437 | ring_bell (); |
| 6438 | fflush (stdout); |
| 6439 | } |
| 6440 | |
| 6441 | |
| 6442 | \f |
| 6443 | /*********************************************************************** |
| 6444 | Sleeping, Waiting |
| 6445 | ***********************************************************************/ |
| 6446 | |
| 6447 | DEFUN ("sleep-for", Fsleep_for, Ssleep_for, 1, 2, 0, |
| 6448 | doc: /* Pause, without updating display, for SECONDS seconds. |
| 6449 | SECONDS may be a floating-point value, meaning that you can wait for a |
| 6450 | fraction of a second. Optional second arg MILLISECONDS specifies an |
| 6451 | additional wait period, in milliseconds; this may be useful if your |
| 6452 | Emacs was built without floating point support. |
| 6453 | \(Not all operating systems support waiting for a fraction of a second.) */) |
| 6454 | (seconds, milliseconds) |
| 6455 | Lisp_Object seconds, milliseconds; |
| 6456 | { |
| 6457 | int sec, usec; |
| 6458 | |
| 6459 | if (NILP (milliseconds)) |
| 6460 | XSETINT (milliseconds, 0); |
| 6461 | else |
| 6462 | CHECK_NUMBER (milliseconds); |
| 6463 | usec = XINT (milliseconds) * 1000; |
| 6464 | |
| 6465 | { |
| 6466 | double duration = extract_float (seconds); |
| 6467 | sec = (int) duration; |
| 6468 | usec += (duration - sec) * 1000000; |
| 6469 | } |
| 6470 | |
| 6471 | #ifndef EMACS_HAS_USECS |
| 6472 | if (sec == 0 && usec != 0) |
| 6473 | error ("Millisecond `sleep-for' not supported on %s", SYSTEM_TYPE); |
| 6474 | #endif |
| 6475 | |
| 6476 | /* Assure that 0 <= usec < 1000000. */ |
| 6477 | if (usec < 0) |
| 6478 | { |
| 6479 | /* We can't rely on the rounding being correct if usec is negative. */ |
| 6480 | if (-1000000 < usec) |
| 6481 | sec--, usec += 1000000; |
| 6482 | else |
| 6483 | sec -= -usec / 1000000, usec = 1000000 - (-usec % 1000000); |
| 6484 | } |
| 6485 | else |
| 6486 | sec += usec / 1000000, usec %= 1000000; |
| 6487 | |
| 6488 | if (sec < 0 || (sec == 0 && usec == 0)) |
| 6489 | return Qnil; |
| 6490 | |
| 6491 | wait_reading_process_output (sec, usec, 0, 0, Qnil, NULL, 0); |
| 6492 | |
| 6493 | return Qnil; |
| 6494 | } |
| 6495 | |
| 6496 | |
| 6497 | /* This is just like wait_reading_process_output, except that |
| 6498 | it does redisplay. |
| 6499 | |
| 6500 | TIMEOUT is number of seconds to wait (float or integer). |
| 6501 | READING is 1 if reading input. |
| 6502 | If DO_DISPLAY is >0 display process output while waiting. |
| 6503 | If DO_DISPLAY is >1 perform an initial redisplay before waiting. |
| 6504 | */ |
| 6505 | |
| 6506 | Lisp_Object |
| 6507 | sit_for (timeout, reading, do_display) |
| 6508 | Lisp_Object timeout; |
| 6509 | int reading, do_display; |
| 6510 | { |
| 6511 | int sec, usec; |
| 6512 | |
| 6513 | swallow_events (do_display); |
| 6514 | |
| 6515 | if ((detect_input_pending_run_timers (do_display)) |
| 6516 | || !NILP (Vexecuting_kbd_macro)) |
| 6517 | return Qnil; |
| 6518 | |
| 6519 | if (do_display >= 2) |
| 6520 | redisplay_preserve_echo_area (2); |
| 6521 | |
| 6522 | if (INTEGERP (timeout)) |
| 6523 | { |
| 6524 | sec = XINT (timeout); |
| 6525 | usec = 0; |
| 6526 | } |
| 6527 | else if (FLOATP (timeout)) |
| 6528 | { |
| 6529 | double seconds = XFLOAT_DATA (timeout); |
| 6530 | sec = (int) seconds; |
| 6531 | usec = (int) ((seconds - sec) * 1000000); |
| 6532 | } |
| 6533 | else |
| 6534 | wrong_type_argument (Qnumberp, timeout); |
| 6535 | |
| 6536 | if (sec == 0 && usec == 0) |
| 6537 | return Qt; |
| 6538 | |
| 6539 | #ifdef SIGIO |
| 6540 | gobble_input (0); |
| 6541 | #endif |
| 6542 | |
| 6543 | wait_reading_process_output (sec, usec, reading ? -1 : 1, do_display, |
| 6544 | Qnil, NULL, 0); |
| 6545 | |
| 6546 | return detect_input_pending () ? Qnil : Qt; |
| 6547 | } |
| 6548 | |
| 6549 | |
| 6550 | DEFUN ("redisplay", Fredisplay, Sredisplay, 0, 1, 0, |
| 6551 | doc: /* Perform redisplay if no input is available. |
| 6552 | If optional arg FORCE is non-nil or `redisplay-dont-pause' is non-nil, |
| 6553 | perform a full redisplay even if input is available. */) |
| 6554 | (force) |
| 6555 | Lisp_Object force; |
| 6556 | { |
| 6557 | int count; |
| 6558 | |
| 6559 | swallow_events (1); |
| 6560 | if ((detect_input_pending_run_timers (1) |
| 6561 | && NILP (force) && !redisplay_dont_pause) |
| 6562 | || !NILP (Vexecuting_kbd_macro)) |
| 6563 | return Qnil; |
| 6564 | |
| 6565 | count = SPECPDL_INDEX (); |
| 6566 | if (!NILP (force) && !redisplay_dont_pause) |
| 6567 | specbind (Qredisplay_dont_pause, Qt); |
| 6568 | redisplay_preserve_echo_area (2); |
| 6569 | unbind_to (count, Qnil); |
| 6570 | return Qt; |
| 6571 | } |
| 6572 | |
| 6573 | |
| 6574 | \f |
| 6575 | /*********************************************************************** |
| 6576 | Other Lisp Functions |
| 6577 | ***********************************************************************/ |
| 6578 | |
| 6579 | /* A vector of size >= 2 * NFRAMES + 3 * NBUFFERS + 1, containing the |
| 6580 | session's frames, frame names, buffers, buffer-read-only flags, and |
| 6581 | buffer-modified-flags. */ |
| 6582 | |
| 6583 | static Lisp_Object frame_and_buffer_state; |
| 6584 | |
| 6585 | |
| 6586 | DEFUN ("frame-or-buffer-changed-p", Fframe_or_buffer_changed_p, |
| 6587 | Sframe_or_buffer_changed_p, 0, 1, 0, |
| 6588 | doc: /* Return non-nil if the frame and buffer state appears to have changed. |
| 6589 | VARIABLE is a variable name whose value is either nil or a state vector |
| 6590 | that will be updated to contain all frames and buffers, |
| 6591 | aside from buffers whose names start with space, |
| 6592 | along with the buffers' read-only and modified flags. This allows a fast |
| 6593 | check to see whether buffer menus might need to be recomputed. |
| 6594 | If this function returns non-nil, it updates the internal vector to reflect |
| 6595 | the current state. |
| 6596 | |
| 6597 | If VARIABLE is nil, an internal variable is used. Users should not |
| 6598 | pass nil for VARIABLE. */) |
| 6599 | (variable) |
| 6600 | Lisp_Object variable; |
| 6601 | { |
| 6602 | Lisp_Object state, tail, frame, buf; |
| 6603 | Lisp_Object *vecp, *end; |
| 6604 | int n; |
| 6605 | |
| 6606 | if (! NILP (variable)) |
| 6607 | { |
| 6608 | CHECK_SYMBOL (variable); |
| 6609 | state = Fsymbol_value (variable); |
| 6610 | if (! VECTORP (state)) |
| 6611 | goto changed; |
| 6612 | } |
| 6613 | else |
| 6614 | state = frame_and_buffer_state; |
| 6615 | |
| 6616 | vecp = XVECTOR (state)->contents; |
| 6617 | end = vecp + XVECTOR (state)->size; |
| 6618 | |
| 6619 | FOR_EACH_FRAME (tail, frame) |
| 6620 | { |
| 6621 | if (vecp == end) |
| 6622 | goto changed; |
| 6623 | if (!EQ (*vecp++, frame)) |
| 6624 | goto changed; |
| 6625 | if (vecp == end) |
| 6626 | goto changed; |
| 6627 | if (!EQ (*vecp++, XFRAME (frame)->name)) |
| 6628 | goto changed; |
| 6629 | } |
| 6630 | /* Check that the buffer info matches. */ |
| 6631 | for (tail = Vbuffer_alist; CONSP (tail); tail = XCDR (tail)) |
| 6632 | { |
| 6633 | buf = XCDR (XCAR (tail)); |
| 6634 | /* Ignore buffers that aren't included in buffer lists. */ |
| 6635 | if (SREF (XBUFFER (buf)->name, 0) == ' ') |
| 6636 | continue; |
| 6637 | if (vecp == end) |
| 6638 | goto changed; |
| 6639 | if (!EQ (*vecp++, buf)) |
| 6640 | goto changed; |
| 6641 | if (vecp == end) |
| 6642 | goto changed; |
| 6643 | if (!EQ (*vecp++, XBUFFER (buf)->read_only)) |
| 6644 | goto changed; |
| 6645 | if (vecp == end) |
| 6646 | goto changed; |
| 6647 | if (!EQ (*vecp++, Fbuffer_modified_p (buf))) |
| 6648 | goto changed; |
| 6649 | } |
| 6650 | if (vecp == end) |
| 6651 | goto changed; |
| 6652 | /* Detect deletion of a buffer at the end of the list. */ |
| 6653 | if (EQ (*vecp, Qlambda)) |
| 6654 | return Qnil; |
| 6655 | |
| 6656 | /* Come here if we decide the data has changed. */ |
| 6657 | changed: |
| 6658 | /* Count the size we will need. |
| 6659 | Start with 1 so there is room for at least one lambda at the end. */ |
| 6660 | n = 1; |
| 6661 | FOR_EACH_FRAME (tail, frame) |
| 6662 | n += 2; |
| 6663 | for (tail = Vbuffer_alist; CONSP (tail); tail = XCDR (tail)) |
| 6664 | n += 3; |
| 6665 | /* Reallocate the vector if data has grown to need it, |
| 6666 | or if it has shrunk a lot. */ |
| 6667 | if (! VECTORP (state) |
| 6668 | || n > XVECTOR (state)->size |
| 6669 | || n + 20 < XVECTOR (state)->size / 2) |
| 6670 | /* Add 20 extra so we grow it less often. */ |
| 6671 | { |
| 6672 | state = Fmake_vector (make_number (n + 20), Qlambda); |
| 6673 | if (! NILP (variable)) |
| 6674 | Fset (variable, state); |
| 6675 | else |
| 6676 | frame_and_buffer_state = state; |
| 6677 | } |
| 6678 | |
| 6679 | /* Record the new data in the (possibly reallocated) vector. */ |
| 6680 | vecp = XVECTOR (state)->contents; |
| 6681 | FOR_EACH_FRAME (tail, frame) |
| 6682 | { |
| 6683 | *vecp++ = frame; |
| 6684 | *vecp++ = XFRAME (frame)->name; |
| 6685 | } |
| 6686 | for (tail = Vbuffer_alist; CONSP (tail); tail = XCDR (tail)) |
| 6687 | { |
| 6688 | buf = XCDR (XCAR (tail)); |
| 6689 | /* Ignore buffers that aren't included in buffer lists. */ |
| 6690 | if (SREF (XBUFFER (buf)->name, 0) == ' ') |
| 6691 | continue; |
| 6692 | *vecp++ = buf; |
| 6693 | *vecp++ = XBUFFER (buf)->read_only; |
| 6694 | *vecp++ = Fbuffer_modified_p (buf); |
| 6695 | } |
| 6696 | /* Fill up the vector with lambdas (always at least one). */ |
| 6697 | *vecp++ = Qlambda; |
| 6698 | while (vecp - XVECTOR (state)->contents |
| 6699 | < XVECTOR (state)->size) |
| 6700 | *vecp++ = Qlambda; |
| 6701 | /* Make sure we didn't overflow the vector. */ |
| 6702 | if (vecp - XVECTOR (state)->contents |
| 6703 | > XVECTOR (state)->size) |
| 6704 | abort (); |
| 6705 | return Qt; |
| 6706 | } |
| 6707 | |
| 6708 | |
| 6709 | \f |
| 6710 | /*********************************************************************** |
| 6711 | Initialization |
| 6712 | ***********************************************************************/ |
| 6713 | |
| 6714 | char *terminal_type; |
| 6715 | |
| 6716 | /* Initialization done when Emacs fork is started, before doing stty. |
| 6717 | Determine terminal type and set terminal_driver. Then invoke its |
| 6718 | decoding routine to set up variables in the terminal package. */ |
| 6719 | |
| 6720 | void |
| 6721 | init_display () |
| 6722 | { |
| 6723 | #ifdef HAVE_X_WINDOWS |
| 6724 | extern int display_arg; |
| 6725 | #endif |
| 6726 | |
| 6727 | /* Construct the space glyph. */ |
| 6728 | space_glyph.type = CHAR_GLYPH; |
| 6729 | SET_CHAR_GLYPH_FROM_GLYPH (space_glyph, ' '); |
| 6730 | space_glyph.charpos = -1; |
| 6731 | |
| 6732 | meta_key = 0; |
| 6733 | inverse_video = 0; |
| 6734 | cursor_in_echo_area = 0; |
| 6735 | terminal_type = (char *) 0; |
| 6736 | |
| 6737 | /* Now is the time to initialize this; it's used by init_sys_modes |
| 6738 | during startup. */ |
| 6739 | Vwindow_system = Qnil; |
| 6740 | |
| 6741 | /* If the user wants to use a window system, we shouldn't bother |
| 6742 | initializing the terminal. This is especially important when the |
| 6743 | terminal is so dumb that emacs gives up before and doesn't bother |
| 6744 | using the window system. |
| 6745 | |
| 6746 | If the DISPLAY environment variable is set and nonempty, |
| 6747 | try to use X, and die with an error message if that doesn't work. */ |
| 6748 | |
| 6749 | #ifdef HAVE_X_WINDOWS |
| 6750 | if (! inhibit_window_system && ! display_arg) |
| 6751 | { |
| 6752 | char *display; |
| 6753 | #ifdef VMS |
| 6754 | display = getenv ("DECW$DISPLAY"); |
| 6755 | #else |
| 6756 | display = getenv ("DISPLAY"); |
| 6757 | #endif |
| 6758 | |
| 6759 | display_arg = (display != 0 && *display != 0); |
| 6760 | |
| 6761 | if (display_arg && !x_display_ok (display)) |
| 6762 | { |
| 6763 | fprintf (stderr, "Display %s unavailable, simulating -nw\n", |
| 6764 | display); |
| 6765 | inhibit_window_system = 1; |
| 6766 | } |
| 6767 | } |
| 6768 | |
| 6769 | if (!inhibit_window_system && display_arg |
| 6770 | #ifndef CANNOT_DUMP |
| 6771 | && initialized |
| 6772 | #endif |
| 6773 | ) |
| 6774 | { |
| 6775 | Vwindow_system = intern ("x"); |
| 6776 | #ifdef HAVE_X11 |
| 6777 | Vwindow_system_version = make_number (11); |
| 6778 | #else |
| 6779 | Vwindow_system_version = make_number (10); |
| 6780 | #endif |
| 6781 | #if defined (GNU_LINUX) && defined (HAVE_LIBNCURSES) |
| 6782 | /* In some versions of ncurses, |
| 6783 | tputs crashes if we have not called tgetent. |
| 6784 | So call tgetent. */ |
| 6785 | { char b[2044]; tgetent (b, "xterm");} |
| 6786 | #endif |
| 6787 | adjust_frame_glyphs_initially (); |
| 6788 | return; |
| 6789 | } |
| 6790 | #endif /* HAVE_X_WINDOWS */ |
| 6791 | |
| 6792 | #ifdef HAVE_NTGUI |
| 6793 | if (!inhibit_window_system) |
| 6794 | { |
| 6795 | Vwindow_system = intern ("w32"); |
| 6796 | Vwindow_system_version = make_number (1); |
| 6797 | adjust_frame_glyphs_initially (); |
| 6798 | return; |
| 6799 | } |
| 6800 | #endif /* HAVE_NTGUI */ |
| 6801 | |
| 6802 | #ifdef MAC_OS |
| 6803 | if (!inhibit_window_system) |
| 6804 | { |
| 6805 | Vwindow_system = intern ("mac"); |
| 6806 | Vwindow_system_version = make_number (1); |
| 6807 | adjust_frame_glyphs_initially (); |
| 6808 | return; |
| 6809 | } |
| 6810 | #endif /* MAC_OS */ |
| 6811 | |
| 6812 | /* If no window system has been specified, try to use the terminal. */ |
| 6813 | if (! isatty (0)) |
| 6814 | { |
| 6815 | fatal ("standard input is not a tty"); |
| 6816 | exit (1); |
| 6817 | } |
| 6818 | |
| 6819 | /* Look at the TERM variable. */ |
| 6820 | terminal_type = (char *) getenv ("TERM"); |
| 6821 | if (!terminal_type) |
| 6822 | { |
| 6823 | #ifdef VMS |
| 6824 | fprintf (stderr, "Please specify your terminal type.\n\ |
| 6825 | For types defined in VMS, use set term /device=TYPE.\n\ |
| 6826 | For types not defined in VMS, use define emacs_term \"TYPE\".\n\ |
| 6827 | \(The quotation marks are necessary since terminal types are lower case.)\n"); |
| 6828 | #else /* not VMS */ |
| 6829 | |
| 6830 | #ifdef HAVE_WINDOW_SYSTEM |
| 6831 | if (inhibit_window_system) |
| 6832 | fprintf (stderr, "Please set the environment variable TERM; see `tset'.\n"); |
| 6833 | else |
| 6834 | #endif /* HAVE_WINDOW_SYSTEM */ |
| 6835 | fprintf (stderr, "Please set the environment variable DISPLAY or TERM (see `tset').\n"); |
| 6836 | #endif /* not VMS */ |
| 6837 | exit (1); |
| 6838 | } |
| 6839 | |
| 6840 | #ifdef VMS |
| 6841 | /* VMS DCL tends to up-case things, so down-case term type. |
| 6842 | Hardly any uppercase letters in terminal types; should be none. */ |
| 6843 | { |
| 6844 | char *new = (char *) xmalloc (strlen (terminal_type) + 1); |
| 6845 | char *p; |
| 6846 | |
| 6847 | strcpy (new, terminal_type); |
| 6848 | |
| 6849 | for (p = new; *p; p++) |
| 6850 | if (isupper (*p)) |
| 6851 | *p = tolower (*p); |
| 6852 | |
| 6853 | terminal_type = new; |
| 6854 | } |
| 6855 | #endif /* VMS */ |
| 6856 | |
| 6857 | term_init (terminal_type); |
| 6858 | |
| 6859 | { |
| 6860 | struct frame *sf = SELECTED_FRAME (); |
| 6861 | int width = FRAME_TOTAL_COLS (sf); |
| 6862 | int height = FRAME_LINES (sf); |
| 6863 | |
| 6864 | unsigned int total_glyphs = height * (width + 2) * sizeof (struct glyph); |
| 6865 | |
| 6866 | /* If these sizes are so big they cause overflow, just ignore the |
| 6867 | change. It's not clear what better we could do. */ |
| 6868 | if (total_glyphs / sizeof (struct glyph) / height != width + 2) |
| 6869 | fatal ("screen size %dx%d too big", width, height); |
| 6870 | } |
| 6871 | |
| 6872 | adjust_frame_glyphs_initially (); |
| 6873 | calculate_costs (XFRAME (selected_frame)); |
| 6874 | |
| 6875 | #ifdef SIGWINCH |
| 6876 | #ifndef CANNOT_DUMP |
| 6877 | if (initialized) |
| 6878 | #endif /* CANNOT_DUMP */ |
| 6879 | signal (SIGWINCH, window_change_signal); |
| 6880 | #endif /* SIGWINCH */ |
| 6881 | |
| 6882 | /* Set up faces of the initial terminal frame of a dumped Emacs. */ |
| 6883 | if (initialized |
| 6884 | && !noninteractive |
| 6885 | #ifdef MSDOS |
| 6886 | /* The MSDOS terminal turns on its ``window system'' relatively |
| 6887 | late into the startup, so we cannot do the frame faces' |
| 6888 | initialization just yet. It will be done later by pc-win.el |
| 6889 | and internal_terminal_init. */ |
| 6890 | && (strcmp (terminal_type, "internal") != 0 || inhibit_window_system) |
| 6891 | #endif |
| 6892 | && NILP (Vwindow_system)) |
| 6893 | { |
| 6894 | /* For the initial frame, we don't have any way of knowing what |
| 6895 | are the foreground and background colors of the terminal. */ |
| 6896 | struct frame *sf = SELECTED_FRAME(); |
| 6897 | |
| 6898 | FRAME_FOREGROUND_PIXEL (sf) = FACE_TTY_DEFAULT_FG_COLOR; |
| 6899 | FRAME_BACKGROUND_PIXEL (sf) = FACE_TTY_DEFAULT_BG_COLOR; |
| 6900 | call0 (intern ("tty-set-up-initial-frame-faces")); |
| 6901 | } |
| 6902 | } |
| 6903 | |
| 6904 | |
| 6905 | \f |
| 6906 | /*********************************************************************** |
| 6907 | Blinking cursor |
| 6908 | ***********************************************************************/ |
| 6909 | |
| 6910 | DEFUN ("internal-show-cursor", Finternal_show_cursor, |
| 6911 | Sinternal_show_cursor, 2, 2, 0, |
| 6912 | doc: /* Set the cursor-visibility flag of WINDOW to SHOW. |
| 6913 | WINDOW nil means use the selected window. SHOW non-nil means |
| 6914 | show a cursor in WINDOW in the next redisplay. SHOW nil means |
| 6915 | don't show a cursor. */) |
| 6916 | (window, show) |
| 6917 | Lisp_Object window, show; |
| 6918 | { |
| 6919 | /* Don't change cursor state while redisplaying. This could confuse |
| 6920 | output routines. */ |
| 6921 | if (!redisplaying_p) |
| 6922 | { |
| 6923 | if (NILP (window)) |
| 6924 | window = selected_window; |
| 6925 | else |
| 6926 | CHECK_WINDOW (window); |
| 6927 | |
| 6928 | XWINDOW (window)->cursor_off_p = NILP (show); |
| 6929 | } |
| 6930 | |
| 6931 | return Qnil; |
| 6932 | } |
| 6933 | |
| 6934 | |
| 6935 | DEFUN ("internal-show-cursor-p", Finternal_show_cursor_p, |
| 6936 | Sinternal_show_cursor_p, 0, 1, 0, |
| 6937 | doc: /* Value is non-nil if next redisplay will display a cursor in WINDOW. |
| 6938 | WINDOW nil or omitted means report on the selected window. */) |
| 6939 | (window) |
| 6940 | Lisp_Object window; |
| 6941 | { |
| 6942 | struct window *w; |
| 6943 | |
| 6944 | if (NILP (window)) |
| 6945 | window = selected_window; |
| 6946 | else |
| 6947 | CHECK_WINDOW (window); |
| 6948 | |
| 6949 | w = XWINDOW (window); |
| 6950 | return w->cursor_off_p ? Qnil : Qt; |
| 6951 | } |
| 6952 | |
| 6953 | \f |
| 6954 | /*********************************************************************** |
| 6955 | Initialization |
| 6956 | ***********************************************************************/ |
| 6957 | |
| 6958 | void |
| 6959 | syms_of_display () |
| 6960 | { |
| 6961 | defsubr (&Sredraw_frame); |
| 6962 | defsubr (&Sredraw_display); |
| 6963 | defsubr (&Sframe_or_buffer_changed_p); |
| 6964 | defsubr (&Sopen_termscript); |
| 6965 | defsubr (&Sding); |
| 6966 | defsubr (&Sredisplay); |
| 6967 | defsubr (&Ssleep_for); |
| 6968 | defsubr (&Ssend_string_to_terminal); |
| 6969 | defsubr (&Sinternal_show_cursor); |
| 6970 | defsubr (&Sinternal_show_cursor_p); |
| 6971 | |
| 6972 | #if GLYPH_DEBUG |
| 6973 | defsubr (&Sdump_redisplay_history); |
| 6974 | #endif |
| 6975 | |
| 6976 | frame_and_buffer_state = Fmake_vector (make_number (20), Qlambda); |
| 6977 | staticpro (&frame_and_buffer_state); |
| 6978 | |
| 6979 | Qdisplay_table = intern ("display-table"); |
| 6980 | staticpro (&Qdisplay_table); |
| 6981 | Qredisplay_dont_pause = intern ("redisplay-dont-pause"); |
| 6982 | staticpro (&Qredisplay_dont_pause); |
| 6983 | |
| 6984 | DEFVAR_INT ("baud-rate", &baud_rate, |
| 6985 | doc: /* *The output baud rate of the terminal. |
| 6986 | On most systems, changing this value will affect the amount of padding |
| 6987 | and the other strategic decisions made during redisplay. */); |
| 6988 | |
| 6989 | DEFVAR_BOOL ("inverse-video", &inverse_video, |
| 6990 | doc: /* *Non-nil means invert the entire frame display. |
| 6991 | This means everything is in inverse video which otherwise would not be. */); |
| 6992 | |
| 6993 | DEFVAR_BOOL ("visible-bell", &visible_bell, |
| 6994 | doc: /* *Non-nil means try to flash the frame to represent a bell. |
| 6995 | |
| 6996 | See also `ring-bell-function'. */); |
| 6997 | |
| 6998 | DEFVAR_BOOL ("no-redraw-on-reenter", &no_redraw_on_reenter, |
| 6999 | doc: /* *Non-nil means no need to redraw entire frame after suspending. |
| 7000 | A non-nil value is useful if the terminal can automatically preserve |
| 7001 | Emacs's frame display when you reenter Emacs. |
| 7002 | It is up to you to set this variable if your terminal can do that. */); |
| 7003 | |
| 7004 | DEFVAR_LISP ("window-system", &Vwindow_system, |
| 7005 | doc: /* Name of window system that Emacs is displaying through. |
| 7006 | The value is a symbol--for instance, `x' for X windows. |
| 7007 | The value is nil if Emacs is using a text-only terminal. */); |
| 7008 | |
| 7009 | DEFVAR_LISP ("window-system-version", &Vwindow_system_version, |
| 7010 | doc: /* The version number of the window system in use. |
| 7011 | For X windows, this is 10 or 11. */); |
| 7012 | |
| 7013 | DEFVAR_BOOL ("cursor-in-echo-area", &cursor_in_echo_area, |
| 7014 | doc: /* Non-nil means put cursor in minibuffer, at end of any message there. */); |
| 7015 | |
| 7016 | DEFVAR_LISP ("glyph-table", &Vglyph_table, |
| 7017 | doc: /* Table defining how to output a glyph code to the frame. |
| 7018 | If not nil, this is a vector indexed by glyph code to define the glyph. |
| 7019 | Each element can be: |
| 7020 | integer: a glyph code which this glyph is an alias for. |
| 7021 | string: output this glyph using that string (not impl. in X windows). |
| 7022 | nil: this glyph mod 524288 is the code of a character to output, |
| 7023 | and this glyph / 524288 is the face number (see `face-id') to use |
| 7024 | while outputting it. */); |
| 7025 | Vglyph_table = Qnil; |
| 7026 | |
| 7027 | DEFVAR_LISP ("standard-display-table", &Vstandard_display_table, |
| 7028 | doc: /* Display table to use for buffers that specify none. |
| 7029 | See `buffer-display-table' for more information. */); |
| 7030 | Vstandard_display_table = Qnil; |
| 7031 | |
| 7032 | DEFVAR_BOOL ("redisplay-dont-pause", &redisplay_dont_pause, |
| 7033 | doc: /* *Non-nil means update isn't paused when input is detected. */); |
| 7034 | redisplay_dont_pause = 0; |
| 7035 | |
| 7036 | #if PERIODIC_PREEMPTION_CHECKING |
| 7037 | DEFVAR_LISP ("redisplay-preemption-period", &Vredisplay_preemption_period, |
| 7038 | doc: /* *The period in seconds between checking for input during redisplay. |
| 7039 | If input is detected, redisplay is pre-empted, and the input is processed. |
| 7040 | If nil, never pre-empt redisplay. */); |
| 7041 | Vredisplay_preemption_period = make_float (0.10); |
| 7042 | #endif |
| 7043 | |
| 7044 | #ifdef CANNOT_DUMP |
| 7045 | if (noninteractive) |
| 7046 | #endif |
| 7047 | { |
| 7048 | Vwindow_system = Qnil; |
| 7049 | Vwindow_system_version = Qnil; |
| 7050 | } |
| 7051 | } |
| 7052 | |
| 7053 | /* arch-tag: 8d812b1f-04a2-4195-a9c4-381f8457a413 |
| 7054 | (do not change this comment) */ |