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root/cebix/BasiliskII/src/Unix/video_x.cpp
Revision: 1.31
Committed: 2000-11-30T16:09:03Z (24 years ago) by cebix
Branch: MAIN
Changes since 1.30: +2 -2 lines
Log Message:
fixed fbcopy_16_obo on big-endian systems

File Contents

# Content
1 /*
2 * video_x.cpp - Video/graphics emulation, X11 specific stuff
3 *
4 * Basilisk II (C) 1997-2000 Christian Bauer
5 *
6 * This program is free software; you can redistribute it and/or modify
7 * it under the terms of the GNU General Public License as published by
8 * the Free Software Foundation; either version 2 of the License, or
9 * (at your option) any later version.
10 *
11 * This program is distributed in the hope that it will be useful,
12 * but WITHOUT ANY WARRANTY; without even the implied warranty of
13 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
14 * GNU General Public License for more details.
15 *
16 * You should have received a copy of the GNU General Public License
17 * along with this program; if not, write to the Free Software
18 * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
19 */
20
21 /*
22 * NOTES:
23 * The Ctrl key works like a qualifier for special actions:
24 * Ctrl-Tab = suspend DGA mode
25 * Ctrl-Esc = emergency quit
26 * Ctrl-F1 = mount floppy
27 */
28
29 #include "sysdeps.h"
30
31 #include <X11/Xlib.h>
32 #include <X11/Xutil.h>
33 #include <X11/keysym.h>
34 #include <X11/extensions/XShm.h>
35 #include <sys/ipc.h>
36 #include <sys/shm.h>
37 #include <errno.h>
38
39 #ifdef HAVE_PTHREADS
40 # include <pthread.h>
41 #endif
42
43 #ifdef ENABLE_XF86_DGA
44 # include <X11/extensions/xf86dga.h>
45 #endif
46
47 #ifdef ENABLE_XF86_VIDMODE
48 # include <X11/extensions/xf86vmode.h>
49 #endif
50
51 #ifdef ENABLE_FBDEV_DGA
52 # include <sys/mman.h>
53 #endif
54
55 #ifdef ENABLE_VOSF
56 # include <unistd.h>
57 # include <signal.h>
58 # include <fcntl.h>
59 # include <sys/mman.h>
60 #endif
61
62 #include "cpu_emulation.h"
63 #include "main.h"
64 #include "adb.h"
65 #include "macos_util.h"
66 #include "prefs.h"
67 #include "user_strings.h"
68 #include "video.h"
69
70 #define DEBUG 0
71 #include "debug.h"
72
73
74 // Display types
75 enum {
76 DISPLAY_WINDOW, // X11 window, using MIT SHM extensions if possible
77 DISPLAY_DGA // DGA fullscreen display
78 };
79
80 // Constants
81 const char KEYCODE_FILE_NAME[] = DATADIR "/keycodes";
82 const char FBDEVICES_FILE_NAME[] = DATADIR "/fbdevices";
83
84
85 // Global variables
86 static int32 frame_skip; // Prefs items
87 static int16 mouse_wheel_mode = 1;
88 static int16 mouse_wheel_lines = 3;
89
90 static int display_type = DISPLAY_WINDOW; // See enum above
91 static bool local_X11; // Flag: X server running on local machine?
92 static uint8 *the_buffer; // Mac frame buffer
93
94 #ifdef HAVE_PTHREADS
95 static bool redraw_thread_active = false; // Flag: Redraw thread installed
96 static volatile bool redraw_thread_cancel = false; // Flag: Cancel Redraw thread
97 static pthread_t redraw_thread; // Redraw thread
98 #endif
99
100 static bool has_dga = false; // Flag: Video DGA capable
101 static bool has_vidmode = false; // Flag: VidMode extension available
102
103 static bool ctrl_down = false; // Flag: Ctrl key pressed
104 static bool caps_on = false; // Flag: Caps Lock on
105 static bool quit_full_screen = false; // Flag: DGA close requested from redraw thread
106 static bool emerg_quit = false; // Flag: Ctrl-Esc pressed, emergency quit requested from MacOS thread
107 static bool emul_suspended = false; // Flag: Emulator suspended
108
109 static bool classic_mode = false; // Flag: Classic Mac video mode
110
111 static bool use_keycodes = false; // Flag: Use keycodes rather than keysyms
112 static int keycode_table[256]; // X keycode -> Mac keycode translation table
113
114 // X11 variables
115 static int screen; // Screen number
116 static int xdepth; // Depth of X screen
117 static int depth; // Depth of Mac frame buffer
118 static Window rootwin, the_win; // Root window and our window
119 static XVisualInfo visualInfo;
120 static Visual *vis;
121 static Colormap cmap[2]; // Two colormaps (DGA) for 8-bit mode
122 static XColor black, white;
123 static unsigned long black_pixel, white_pixel;
124 static int eventmask;
125 static const int win_eventmask = KeyPressMask | KeyReleaseMask | ButtonPressMask | ButtonReleaseMask | PointerMotionMask | EnterWindowMask | ExposureMask | StructureNotifyMask;
126 static const int dga_eventmask = KeyPressMask | KeyReleaseMask | ButtonPressMask | ButtonReleaseMask | PointerMotionMask | StructureNotifyMask;
127 static Atom WM_DELETE_WINDOW = (Atom)0;
128
129 static XColor palette[256]; // Color palette for 8-bit mode
130 static bool palette_changed = false; // Flag: Palette changed, redraw thread must set new colors
131 #ifdef HAVE_PTHREADS
132 static pthread_mutex_t palette_lock = PTHREAD_MUTEX_INITIALIZER; // Mutex to protect palette
133 #define LOCK_PALETTE pthread_mutex_lock(&palette_lock)
134 #define UNLOCK_PALETTE pthread_mutex_unlock(&palette_lock)
135 #else
136 #define LOCK_PALETTE
137 #define UNLOCK_PALETTE
138 #endif
139
140 // Variables for window mode
141 static GC the_gc;
142 static XImage *img = NULL;
143 static XShmSegmentInfo shminfo;
144 static Cursor mac_cursor;
145 static uint8 *the_buffer_copy = NULL; // Copy of Mac frame buffer
146 static bool have_shm = false; // Flag: SHM extensions available
147 static bool updt_box[17][17]; // Flag for Update
148 static int nr_boxes;
149 static const int sm_uptd[] = {4,1,6,3,0,5,2,7};
150 static int sm_no_boxes[] = {1,8,32,64,128,300};
151
152 // Variables for XF86 DGA mode
153 static int current_dga_cmap; // Number (0 or 1) of currently installed DGA colormap
154 static Window suspend_win; // "Suspend" window
155 static void *fb_save = NULL; // Saved frame buffer for suspend
156 #ifdef HAVE_PTHREADS
157 static pthread_mutex_t frame_buffer_lock = PTHREAD_MUTEX_INITIALIZER; // Mutex to protect frame buffer
158 #define LOCK_FRAME_BUFFER pthread_mutex_lock(&frame_buffer_lock);
159 #define UNLOCK_FRAME_BUFFER pthread_mutex_unlock(&frame_buffer_lock);
160 #else
161 #define LOCK_FRAME_BUFFER
162 #define UNLOCK_FRAME_BUFFER
163 #endif
164
165 // Variables for fbdev DGA mode
166 const char FBDEVICE_FILE_NAME[] = "/dev/fb";
167 static int fbdev_fd;
168
169 #ifdef ENABLE_XF86_VIDMODE
170 // Variables for XF86 VidMode support
171 static XF86VidModeModeInfo **x_video_modes; // Array of all available modes
172 static int num_x_video_modes;
173 #endif
174
175 #ifdef ENABLE_VOSF
176 static bool use_vosf = true; // Flag: VOSF enabled
177 #else
178 static const bool use_vosf = false; // Flag: VOSF enabled
179 #endif
180
181 #ifdef ENABLE_VOSF
182 // Variables for Video on SEGV support (taken from the Win32 port)
183 static uint8 *the_host_buffer; // Host frame buffer in VOSF mode
184 static uint32 the_buffer_size; // Size of allocated the_buffer
185
186 struct ScreenPageInfo {
187 int top, bottom; // Mapping between this virtual page and Mac scanlines
188 };
189
190 struct ScreenInfo {
191 uint32 memBase; // Real start address
192 uint32 memStart; // Start address aligned to page boundary
193 uint32 memEnd; // Address of one-past-the-end of the screen
194 uint32 memLength; // Length of the memory addressed by the screen pages
195
196 uint32 pageSize; // Size of a page
197 int pageBits; // Shift count to get the page number
198 uint32 pageCount; // Number of pages allocated to the screen
199
200 uint8 * dirtyPages; // Table of flags set if page was altered
201 ScreenPageInfo * pageInfo; // Table of mappings page -> Mac scanlines
202 };
203
204 static ScreenInfo mainBuffer;
205
206 #define PFLAG_SET(page) mainBuffer.dirtyPages[page] = 1
207 #define PFLAG_CLEAR(page) mainBuffer.dirtyPages[page] = 0
208 #define PFLAG_ISSET(page) mainBuffer.dirtyPages[page]
209 #define PFLAG_ISCLEAR(page) (mainBuffer.dirtyPages[page] == 0)
210 #ifdef UNALIGNED_PROFITABLE
211 # define PFLAG_ISCLEAR_4(page) (*((uint32 *)(mainBuffer.dirtyPages + page)) == 0)
212 #else
213 # define PFLAG_ISCLEAR_4(page) \
214 (mainBuffer.dirtyPages[page ] == 0) \
215 && (mainBuffer.dirtyPages[page+1] == 0) \
216 && (mainBuffer.dirtyPages[page+2] == 0) \
217 && (mainBuffer.dirtyPages[page+3] == 0)
218 #endif
219 #define PFLAG_CLEAR_ALL memset(mainBuffer.dirtyPages, 0, mainBuffer.pageCount)
220 #define PFLAG_SET_ALL memset(mainBuffer.dirtyPages, 1, mainBuffer.pageCount)
221
222 static int zero_fd = -1;
223 static bool Screen_fault_handler_init();
224 static struct sigaction vosf_sa;
225
226 #ifdef HAVE_PTHREADS
227 static pthread_mutex_t vosf_lock = PTHREAD_MUTEX_INITIALIZER; // Mutex to protect frame buffer (dirtyPages in fact)
228 #define LOCK_VOSF pthread_mutex_lock(&vosf_lock);
229 #define UNLOCK_VOSF pthread_mutex_unlock(&vosf_lock);
230 #else
231 #define LOCK_VOSF
232 #define UNLOCK_VOSF
233 #endif
234
235 static int log_base_2(uint32 x)
236 {
237 uint32 mask = 0x80000000;
238 int l = 31;
239 while (l >= 0 && (x & mask) == 0) {
240 mask >>= 1;
241 l--;
242 }
243 return l;
244 }
245
246 #endif
247
248 // VideoRefresh function
249 void VideoRefreshInit(void);
250 static void (*video_refresh)(void);
251
252 // Prototypes
253 static void *redraw_func(void *arg);
254 static int event2keycode(XKeyEvent &ev);
255
256
257 // From main_unix.cpp
258 extern char *x_display_name;
259 extern Display *x_display;
260
261 // From sys_unix.cpp
262 extern void SysMountFirstFloppy(void);
263
264 #ifdef ENABLE_VOSF
265 # include "video_vosf.h"
266 #endif
267
268
269 /*
270 * Initialization
271 */
272
273 // Set VideoMonitor according to video mode
274 void set_video_monitor(int width, int height, int bytes_per_row, bool native_byte_order)
275 {
276 #if !REAL_ADDRESSING && !DIRECT_ADDRESSING
277 int layout = FLAYOUT_DIRECT;
278 switch (depth) {
279 case 1:
280 layout = FLAYOUT_DIRECT;
281 break;
282 case 8:
283 layout = FLAYOUT_DIRECT;
284 break;
285 case 15:
286 layout = FLAYOUT_HOST_555;
287 break;
288 case 16:
289 layout = FLAYOUT_HOST_565;
290 break;
291 case 24:
292 case 32:
293 layout = FLAYOUT_HOST_888;
294 break;
295 }
296 if (native_byte_order)
297 MacFrameLayout = layout;
298 else
299 MacFrameLayout = FLAYOUT_DIRECT;
300 #endif
301 switch (depth) {
302 case 1:
303 VideoMonitor.mode = VMODE_1BIT;
304 break;
305 case 8:
306 VideoMonitor.mode = VMODE_8BIT;
307 break;
308 case 15:
309 VideoMonitor.mode = VMODE_16BIT;
310 break;
311 case 16:
312 VideoMonitor.mode = VMODE_16BIT;
313 break;
314 case 24:
315 case 32:
316 VideoMonitor.mode = VMODE_32BIT;
317 break;
318 }
319 VideoMonitor.x = width;
320 VideoMonitor.y = height;
321 VideoMonitor.bytes_per_row = bytes_per_row;
322 }
323
324 // Set window name and class
325 static void set_window_name(Window w, int name)
326 {
327 const char *str = GetString(name);
328 XStoreName(x_display, w, str);
329 XSetIconName(x_display, w, str);
330
331 XClassHint *hints;
332 hints = XAllocClassHint();
333 if (hints) {
334 hints->res_name = "BasiliskII";
335 hints->res_class = "BasiliskII";
336 XSetClassHint(x_display, w, hints);
337 XFree((char *)hints);
338 }
339 }
340
341 // Set window input focus flag
342 static void set_window_focus(Window w)
343 {
344 XWMHints *hints = XAllocWMHints();
345 if (hints) {
346 hints->input = True;
347 hints->initial_state = NormalState;
348 hints->flags = InputHint | StateHint;
349 XSetWMHints(x_display, w, hints);
350 XFree((char *)hints);
351 }
352 }
353
354 // Set WM_DELETE_WINDOW protocol on window (preventing it from being destroyed by the WM when clicking on the "close" widget)
355 static void set_window_delete_protocol(Window w)
356 {
357 WM_DELETE_WINDOW = XInternAtom(x_display, "WM_DELETE_WINDOW", false);
358 XSetWMProtocols(x_display, w, &WM_DELETE_WINDOW, 1);
359 }
360
361 // Wait until window is mapped/unmapped
362 void wait_mapped(Window w)
363 {
364 XEvent e;
365 do {
366 XMaskEvent(x_display, StructureNotifyMask, &e);
367 } while ((e.type != MapNotify) || (e.xmap.event != w));
368 }
369
370 void wait_unmapped(Window w)
371 {
372 XEvent e;
373 do {
374 XMaskEvent(x_display, StructureNotifyMask, &e);
375 } while ((e.type != UnmapNotify) || (e.xmap.event != w));
376 }
377
378 // Trap SHM errors
379 static bool shm_error = false;
380 static int (*old_error_handler)(Display *, XErrorEvent *);
381
382 static int error_handler(Display *d, XErrorEvent *e)
383 {
384 if (e->error_code == BadAccess) {
385 shm_error = true;
386 return 0;
387 } else
388 return old_error_handler(d, e);
389 }
390
391 // Init window mode
392 static bool init_window(int width, int height)
393 {
394 int aligned_width = (width + 15) & ~15;
395 int aligned_height = (height + 15) & ~15;
396
397 // Set absolute mouse mode
398 ADBSetRelMouseMode(false);
399
400 // Read frame skip prefs
401 frame_skip = PrefsFindInt32("frameskip");
402
403 // Create window
404 XSetWindowAttributes wattr;
405 wattr.event_mask = eventmask = win_eventmask;
406 wattr.background_pixel = black_pixel;
407 wattr.colormap = cmap[0];
408
409 the_win = XCreateWindow(x_display, rootwin, 0, 0, width, height, 0, xdepth,
410 InputOutput, vis, CWEventMask | CWBackPixel | (depth == 8 ? CWColormap : 0), &wattr);
411
412 // Set window name/class
413 set_window_name(the_win, STR_WINDOW_TITLE);
414
415 // Indicate that we want keyboard input
416 set_window_focus(the_win);
417
418 // Set delete protocol property
419 set_window_delete_protocol(the_win);
420
421 // Make window unresizable
422 {
423 XSizeHints *hints = XAllocSizeHints();
424 if (hints) {
425 hints->min_width = width;
426 hints->max_width = width;
427 hints->min_height = height;
428 hints->max_height = height;
429 hints->flags = PMinSize | PMaxSize;
430 XSetWMNormalHints(x_display, the_win, hints);
431 XFree((char *)hints);
432 }
433 }
434
435 // Show window
436 XMapWindow(x_display, the_win);
437 wait_mapped(the_win);
438
439 // Try to create and attach SHM image
440 have_shm = false;
441 if (depth != 1 && local_X11 && XShmQueryExtension(x_display)) {
442
443 // Create SHM image ("height + 2" for safety)
444 img = XShmCreateImage(x_display, vis, depth, depth == 1 ? XYBitmap : ZPixmap, 0, &shminfo, width, height);
445 shminfo.shmid = shmget(IPC_PRIVATE, (aligned_height + 2) * img->bytes_per_line, IPC_CREAT | 0777);
446 the_buffer_copy = (uint8 *)shmat(shminfo.shmid, 0, 0);
447 shminfo.shmaddr = img->data = (char *)the_buffer_copy;
448 shminfo.readOnly = False;
449
450 // Try to attach SHM image, catching errors
451 shm_error = false;
452 old_error_handler = XSetErrorHandler(error_handler);
453 XShmAttach(x_display, &shminfo);
454 XSync(x_display, false);
455 XSetErrorHandler(old_error_handler);
456 if (shm_error) {
457 shmdt(shminfo.shmaddr);
458 XDestroyImage(img);
459 shminfo.shmid = -1;
460 } else {
461 have_shm = true;
462 shmctl(shminfo.shmid, IPC_RMID, 0);
463 }
464 }
465
466 // Create normal X image if SHM doesn't work ("height + 2" for safety)
467 if (!have_shm) {
468 int bytes_per_row = aligned_width;
469 switch (depth) {
470 case 1:
471 bytes_per_row /= 8;
472 break;
473 case 15:
474 case 16:
475 bytes_per_row *= 2;
476 break;
477 case 24:
478 case 32:
479 bytes_per_row *= 4;
480 break;
481 }
482 the_buffer_copy = (uint8 *)malloc((aligned_height + 2) * bytes_per_row);
483 img = XCreateImage(x_display, vis, depth, depth == 1 ? XYBitmap : ZPixmap, 0, (char *)the_buffer_copy, aligned_width, aligned_height, 32, bytes_per_row);
484 }
485
486 // 1-Bit mode is big-endian
487 if (depth == 1) {
488 img->byte_order = MSBFirst;
489 img->bitmap_bit_order = MSBFirst;
490 }
491
492 #ifdef ENABLE_VOSF
493 // Allocate a page-aligned chunk of memory for frame buffer
494 the_buffer_size = align_on_page_boundary((aligned_height + 2) * img->bytes_per_line);
495 the_host_buffer = the_buffer_copy;
496
497 the_buffer_copy = (uint8 *)allocate_framebuffer(the_buffer_size);
498 memset(the_buffer_copy, 0, the_buffer_size);
499
500 the_buffer = (uint8 *)allocate_framebuffer(the_buffer_size);
501 memset(the_buffer, 0, the_buffer_size);
502 #else
503 // Allocate memory for frame buffer
504 the_buffer = (uint8 *)malloc((aligned_height + 2) * img->bytes_per_line);
505 #endif
506
507 // Create GC
508 the_gc = XCreateGC(x_display, the_win, 0, 0);
509 XSetState(x_display, the_gc, black_pixel, white_pixel, GXcopy, AllPlanes);
510
511 // Create no_cursor
512 mac_cursor = XCreatePixmapCursor(x_display,
513 XCreatePixmap(x_display, the_win, 1, 1, 1),
514 XCreatePixmap(x_display, the_win, 1, 1, 1),
515 &black, &white, 0, 0);
516 XDefineCursor(x_display, the_win, mac_cursor);
517
518 // Set VideoMonitor
519 bool native_byte_order;
520 #ifdef WORDS_BIGENDIAN
521 native_byte_order = (XImageByteOrder(x_display) == MSBFirst);
522 #else
523 native_byte_order = (XImageByteOrder(x_display) == LSBFirst);
524 #endif
525 #ifdef ENABLE_VOSF
526 do_update_framebuffer = GET_FBCOPY_FUNC(depth, native_byte_order, DISPLAY_WINDOW);
527 #endif
528 set_video_monitor(width, height, img->bytes_per_line, native_byte_order);
529
530 #if REAL_ADDRESSING || DIRECT_ADDRESSING
531 VideoMonitor.mac_frame_base = Host2MacAddr(the_buffer);
532 #else
533 VideoMonitor.mac_frame_base = MacFrameBaseMac;
534 #endif
535 return true;
536 }
537
538 // Init fbdev DGA display
539 static bool init_fbdev_dga(char *in_fb_name)
540 {
541 #ifdef ENABLE_FBDEV_DGA
542 // Find the maximum depth available
543 int ndepths, max_depth(0);
544 int *depths = XListDepths(x_display, screen, &ndepths);
545 if (depths == NULL) {
546 printf("FATAL: Could not determine the maximal depth available\n");
547 return false;
548 } else {
549 while (ndepths-- > 0) {
550 if (depths[ndepths] > max_depth)
551 max_depth = depths[ndepths];
552 }
553 }
554
555 // Get fbdevices file path from preferences
556 const char *fbd_path = PrefsFindString("fbdevicefile");
557
558 // Open fbdevices file
559 FILE *fp = fopen(fbd_path ? fbd_path : FBDEVICES_FILE_NAME, "r");
560 if (fp == NULL) {
561 char str[256];
562 sprintf(str, GetString(STR_NO_FBDEVICE_FILE_ERR), fbd_path ? fbd_path : FBDEVICES_FILE_NAME, strerror(errno));
563 ErrorAlert(str);
564 return false;
565 }
566
567 int fb_depth; // supported depth
568 uint32 fb_offset; // offset used for mmap(2)
569 char fb_name[20];
570 char line[256];
571 bool device_found = false;
572 while (fgets(line, 255, fp)) {
573 // Read line
574 int len = strlen(line);
575 if (len == 0)
576 continue;
577 line[len - 1] = '\0';
578
579 // Comments begin with "#" or ";"
580 if ((line[0] == '#') || (line[0] == ';') || (line[0] == '\0'))
581 continue;
582
583 if ((sscanf(line, "%19s %d %x", &fb_name, &fb_depth, &fb_offset) == 3)
584 && (strcmp(fb_name, in_fb_name) == 0) && (fb_depth == max_depth)) {
585 device_found = true;
586 break;
587 }
588 }
589
590 // fbdevices file completely read
591 fclose(fp);
592
593 // Frame buffer name not found ? Then, display warning
594 if (!device_found) {
595 char str[256];
596 sprintf(str, GetString(STR_FBDEV_NAME_ERR), in_fb_name, max_depth);
597 ErrorAlert(str);
598 return false;
599 }
600
601 int width = DisplayWidth(x_display, screen);
602 int height = DisplayHeight(x_display, screen);
603 depth = fb_depth; // max_depth
604
605 // Set relative mouse mode
606 ADBSetRelMouseMode(false);
607
608 // Create window
609 XSetWindowAttributes wattr;
610 wattr.event_mask = eventmask = dga_eventmask;
611 wattr.background_pixel = white_pixel;
612 wattr.override_redirect = True;
613 wattr.colormap = cmap[0];
614
615 the_win = XCreateWindow(x_display, rootwin,
616 0, 0, width, height,
617 0, xdepth, InputOutput, vis,
618 CWEventMask | CWBackPixel | CWOverrideRedirect | (depth == 8 ? CWColormap : 0),
619 &wattr);
620
621 // Set window name/class
622 set_window_name(the_win, STR_WINDOW_TITLE);
623
624 // Indicate that we want keyboard input
625 set_window_focus(the_win);
626
627 // Show window
628 XMapRaised(x_display, the_win);
629 wait_mapped(the_win);
630
631 // Grab mouse and keyboard
632 XGrabKeyboard(x_display, the_win, True,
633 GrabModeAsync, GrabModeAsync, CurrentTime);
634 XGrabPointer(x_display, the_win, True,
635 PointerMotionMask | ButtonPressMask | ButtonReleaseMask,
636 GrabModeAsync, GrabModeAsync, the_win, None, CurrentTime);
637
638 // Set VideoMonitor
639 int bytes_per_row = width;
640 switch (depth) {
641 case 1:
642 bytes_per_row = ((width | 7) & ~7) >> 3;
643 break;
644 case 15:
645 case 16:
646 bytes_per_row *= 2;
647 break;
648 case 24:
649 case 32:
650 bytes_per_row *= 4;
651 break;
652 }
653
654 if ((the_buffer = (uint8 *) mmap(NULL, height * bytes_per_row, PROT_READ | PROT_WRITE, MAP_PRIVATE, fbdev_fd, fb_offset)) == MAP_FAILED) {
655 if ((the_buffer = (uint8 *) mmap(NULL, height * bytes_per_row, PROT_READ | PROT_WRITE, MAP_SHARED, fbdev_fd, fb_offset)) == MAP_FAILED) {
656 char str[256];
657 sprintf(str, GetString(STR_FBDEV_MMAP_ERR), strerror(errno));
658 ErrorAlert(str);
659 return false;
660 }
661 }
662
663 #if ENABLE_VOSF
664 #if REAL_ADDRESSING || DIRECT_ADDRESSING
665 // If the blit function is null, i.e. just a copy of the buffer,
666 // we first try to avoid the allocation of a temporary frame buffer
667 use_vosf = true;
668 do_update_framebuffer = GET_FBCOPY_FUNC(depth, true, DISPLAY_DGA);
669 if (do_update_framebuffer == FBCOPY_FUNC(fbcopy_raw))
670 use_vosf = false;
671
672 if (use_vosf) {
673 the_host_buffer = the_buffer;
674 the_buffer_size = align_on_page_boundary((height + 2) * bytes_per_row);
675 the_buffer_copy = (uint8 *)malloc(the_buffer_size);
676 memset(the_buffer_copy, 0, the_buffer_size);
677 the_buffer = (uint8 *)allocate_framebuffer(the_buffer_size);
678 memset(the_buffer, 0, the_buffer_size);
679 }
680 #else
681 use_vosf = false;
682 #endif
683 #endif
684
685 set_video_monitor(width, height, bytes_per_row, true);
686 #if REAL_ADDRESSING || DIRECT_ADDRESSING
687 VideoMonitor.mac_frame_base = Host2MacAddr(the_buffer);
688 #else
689 VideoMonitor.mac_frame_base = MacFrameBaseMac;
690 #endif
691 return true;
692 #else
693 ErrorAlert("Basilisk II has been compiled with fbdev DGA support disabled.");
694 return false;
695 #endif
696 }
697
698 // Init XF86 DGA display
699 static bool init_xf86_dga(int width, int height)
700 {
701 #ifdef ENABLE_XF86_DGA
702 // Set relative mouse mode
703 ADBSetRelMouseMode(true);
704
705 #ifdef ENABLE_XF86_VIDMODE
706 // Switch to best mode
707 if (has_vidmode) {
708 int best = 0;
709 for (int i=1; i<num_x_video_modes; i++) {
710 if (x_video_modes[i]->hdisplay >= width && x_video_modes[i]->vdisplay >= height &&
711 x_video_modes[i]->hdisplay <= x_video_modes[best]->hdisplay && x_video_modes[i]->vdisplay <= x_video_modes[best]->vdisplay) {
712 best = i;
713 }
714 }
715 XF86VidModeSwitchToMode(x_display, screen, x_video_modes[best]);
716 XF86VidModeSetViewPort(x_display, screen, 0, 0);
717 XSync(x_display, false);
718 }
719 #endif
720
721 // Create window
722 XSetWindowAttributes wattr;
723 wattr.event_mask = eventmask = dga_eventmask;
724 wattr.override_redirect = True;
725
726 the_win = XCreateWindow(x_display, rootwin, 0, 0, width, height, 0, xdepth,
727 InputOutput, vis, CWEventMask | CWOverrideRedirect, &wattr);
728
729 // Set window name/class
730 set_window_name(the_win, STR_WINDOW_TITLE);
731
732 // Indicate that we want keyboard input
733 set_window_focus(the_win);
734
735 // Show window
736 XMapRaised(x_display, the_win);
737 wait_mapped(the_win);
738
739 // Establish direct screen connection
740 XMoveResizeWindow(x_display, the_win, 0, 0, width, height);
741 XWarpPointer(x_display, None, rootwin, 0, 0, 0, 0, 0, 0);
742 XGrabKeyboard(x_display, rootwin, True, GrabModeAsync, GrabModeAsync, CurrentTime);
743 XGrabPointer(x_display, rootwin, True, PointerMotionMask | ButtonPressMask | ButtonReleaseMask, GrabModeAsync, GrabModeAsync, None, None, CurrentTime);
744
745 int v_width, v_bank, v_size;
746 XF86DGAGetVideo(x_display, screen, (char **)&the_buffer, &v_width, &v_bank, &v_size);
747 XF86DGADirectVideo(x_display, screen, XF86DGADirectGraphics | XF86DGADirectKeyb | XF86DGADirectMouse);
748 XF86DGASetViewPort(x_display, screen, 0, 0);
749 XF86DGASetVidPage(x_display, screen, 0);
750
751 // Set colormap
752 if (depth == 8) {
753 XSetWindowColormap(x_display, the_win, cmap[current_dga_cmap = 0]);
754 XF86DGAInstallColormap(x_display, screen, cmap[current_dga_cmap]);
755 }
756 XSync(x_display, false);
757
758 // Set VideoMonitor
759 int bytes_per_row = (v_width + 7) & ~7;
760 switch (depth) {
761 case 1:
762 bytes_per_row /= 8;
763 break;
764 case 15:
765 case 16:
766 bytes_per_row *= 2;
767 break;
768 case 24:
769 case 32:
770 bytes_per_row *= 4;
771 break;
772 }
773
774 #if REAL_ADDRESSING || DIRECT_ADDRESSING
775 // If the blit function is null, i.e. just a copy of the buffer,
776 // we first try to avoid the allocation of a temporary frame buffer
777 use_vosf = true;
778 do_update_framebuffer = GET_FBCOPY_FUNC(depth, true, DISPLAY_DGA);
779 if (do_update_framebuffer == FBCOPY_FUNC(fbcopy_raw))
780 use_vosf = false;
781
782 if (use_vosf) {
783 the_host_buffer = the_buffer;
784 the_buffer_size = align_on_page_boundary((height + 2) * bytes_per_row);
785 the_buffer_copy = (uint8 *)malloc(the_buffer_size);
786 memset(the_buffer_copy, 0, the_buffer_size);
787 the_buffer = (uint8 *)allocate_framebuffer(the_buffer_size);
788 memset(the_buffer, 0, the_buffer_size);
789 }
790 #elif defined(ENABLE_VOSF)
791 // The UAE memory handlers will already handle color conversion, if needed.
792 use_vosf = false;
793 #endif
794
795 set_video_monitor(width, height, bytes_per_row, true);
796 #if REAL_ADDRESSING || DIRECT_ADDRESSING
797 VideoMonitor.mac_frame_base = Host2MacAddr(the_buffer);
798 // MacFrameLayout = FLAYOUT_DIRECT;
799 #else
800 VideoMonitor.mac_frame_base = MacFrameBaseMac;
801 #endif
802 return true;
803 #else
804 ErrorAlert("Basilisk II has been compiled with XF86 DGA support disabled.");
805 return false;
806 #endif
807 }
808
809 // Init keycode translation table
810 static void keycode_init(void)
811 {
812 bool use_kc = PrefsFindBool("keycodes");
813 if (use_kc) {
814
815 // Get keycode file path from preferences
816 const char *kc_path = PrefsFindString("keycodefile");
817
818 // Open keycode table
819 FILE *f = fopen(kc_path ? kc_path : KEYCODE_FILE_NAME, "r");
820 if (f == NULL) {
821 char str[256];
822 sprintf(str, GetString(STR_KEYCODE_FILE_WARN), kc_path ? kc_path : KEYCODE_FILE_NAME, strerror(errno));
823 WarningAlert(str);
824 return;
825 }
826
827 // Default translation table
828 for (int i=0; i<256; i++)
829 keycode_table[i] = -1;
830
831 // Search for server vendor string, then read keycodes
832 const char *vendor = ServerVendor(x_display);
833 bool vendor_found = false;
834 char line[256];
835 while (fgets(line, 255, f)) {
836 // Read line
837 int len = strlen(line);
838 if (len == 0)
839 continue;
840 line[len-1] = 0;
841
842 // Comments begin with "#" or ";"
843 if (line[0] == '#' || line[0] == ';' || line[0] == 0)
844 continue;
845
846 if (vendor_found) {
847 // Read keycode
848 int x_code, mac_code;
849 if (sscanf(line, "%d %d", &x_code, &mac_code) == 2)
850 keycode_table[x_code & 0xff] = mac_code;
851 else
852 break;
853 } else {
854 // Search for vendor string
855 if (strstr(vendor, line) == vendor)
856 vendor_found = true;
857 }
858 }
859
860 // Keycode file completely read
861 fclose(f);
862 use_keycodes = vendor_found;
863
864 // Vendor not found? Then display warning
865 if (!vendor_found) {
866 char str[256];
867 sprintf(str, GetString(STR_KEYCODE_VENDOR_WARN), vendor, kc_path ? kc_path : KEYCODE_FILE_NAME);
868 WarningAlert(str);
869 return;
870 }
871 }
872 }
873
874 bool VideoInitBuffer()
875 {
876 #ifdef ENABLE_VOSF
877 if (use_vosf) {
878 const uint32 page_size = getpagesize();
879 const uint32 page_mask = page_size - 1;
880
881 mainBuffer.memBase = (uint32) the_buffer;
882 // Align the frame buffer on page boundary
883 mainBuffer.memStart = (uint32)((((unsigned long) the_buffer) + page_mask) & ~page_mask);
884 mainBuffer.memLength = the_buffer_size;
885 mainBuffer.memEnd = mainBuffer.memStart + mainBuffer.memLength;
886
887 mainBuffer.pageSize = page_size;
888 mainBuffer.pageCount = (mainBuffer.memLength + page_mask)/mainBuffer.pageSize;
889 mainBuffer.pageBits = log_base_2(mainBuffer.pageSize);
890
891 if (mainBuffer.dirtyPages != 0)
892 free(mainBuffer.dirtyPages);
893
894 mainBuffer.dirtyPages = (uint8 *) malloc(mainBuffer.pageCount);
895
896 if (mainBuffer.pageInfo != 0)
897 free(mainBuffer.pageInfo);
898
899 mainBuffer.pageInfo = (ScreenPageInfo *) malloc(mainBuffer.pageCount * sizeof(ScreenPageInfo));
900
901 if ((mainBuffer.dirtyPages == 0) || (mainBuffer.pageInfo == 0))
902 return false;
903
904 PFLAG_CLEAR_ALL;
905
906 uint32 a = 0;
907 for (int i = 0; i < mainBuffer.pageCount; i++) {
908 int y1 = a / VideoMonitor.bytes_per_row;
909 if (y1 >= VideoMonitor.y)
910 y1 = VideoMonitor.y - 1;
911
912 int y2 = (a + mainBuffer.pageSize) / VideoMonitor.bytes_per_row;
913 if (y2 >= VideoMonitor.y)
914 y2 = VideoMonitor.y - 1;
915
916 mainBuffer.pageInfo[i].top = y1;
917 mainBuffer.pageInfo[i].bottom = y2;
918
919 a += mainBuffer.pageSize;
920 if (a > mainBuffer.memLength)
921 a = mainBuffer.memLength;
922 }
923
924 // We can now write-protect the frame buffer
925 if (mprotect((caddr_t)mainBuffer.memStart, mainBuffer.memLength, PROT_READ) != 0)
926 return false;
927 }
928 #endif
929 return true;
930 }
931
932 bool VideoInit(bool classic)
933 {
934 #ifdef ENABLE_VOSF
935 // Open /dev/zero
936 zero_fd = open("/dev/zero", O_RDWR);
937 if (zero_fd < 0) {
938 char str[256];
939 sprintf(str, GetString(STR_NO_DEV_ZERO_ERR), strerror(errno));
940 ErrorAlert(str);
941 return false;
942 }
943
944 // Zero the mainBuffer structure
945 mainBuffer.dirtyPages = 0;
946 mainBuffer.pageInfo = 0;
947 #endif
948
949 // Check if X server runs on local machine
950 local_X11 = (strncmp(XDisplayName(x_display_name), ":", 1) == 0)
951 || (strncmp(XDisplayName(x_display_name), "unix:", 5) == 0);
952
953 // Init keycode translation
954 keycode_init();
955
956 // Read prefs
957 mouse_wheel_mode = PrefsFindInt16("mousewheelmode");
958 mouse_wheel_lines = PrefsFindInt16("mousewheellines");
959
960 // Find screen and root window
961 screen = XDefaultScreen(x_display);
962 rootwin = XRootWindow(x_display, screen);
963
964 // Get screen depth
965 xdepth = DefaultDepth(x_display, screen);
966
967 #ifdef ENABLE_FBDEV_DGA
968 // Frame buffer name
969 char fb_name[20];
970
971 // Could do fbdev dga ?
972 if ((fbdev_fd = open(FBDEVICE_FILE_NAME, O_RDWR)) != -1)
973 has_dga = true;
974 else
975 has_dga = false;
976 #endif
977
978 #ifdef ENABLE_XF86_DGA
979 // DGA available?
980 int dga_event_base, dga_error_base;
981 if (local_X11 && XF86DGAQueryExtension(x_display, &dga_event_base, &dga_error_base)) {
982 int dga_flags = 0;
983 XF86DGAQueryDirectVideo(x_display, screen, &dga_flags);
984 has_dga = dga_flags & XF86DGADirectPresent;
985 } else
986 has_dga = false;
987 #endif
988
989 #ifdef ENABLE_XF86_VIDMODE
990 // VidMode available?
991 int vm_event_base, vm_error_base;
992 has_vidmode = XF86VidModeQueryExtension(x_display, &vm_event_base, &vm_error_base);
993 if (has_vidmode)
994 XF86VidModeGetAllModeLines(x_display, screen, &num_x_video_modes, &x_video_modes);
995 #endif
996
997 // Find black and white colors
998 XParseColor(x_display, DefaultColormap(x_display, screen), "rgb:00/00/00", &black);
999 XAllocColor(x_display, DefaultColormap(x_display, screen), &black);
1000 XParseColor(x_display, DefaultColormap(x_display, screen), "rgb:ff/ff/ff", &white);
1001 XAllocColor(x_display, DefaultColormap(x_display, screen), &white);
1002 black_pixel = BlackPixel(x_display, screen);
1003 white_pixel = WhitePixel(x_display, screen);
1004
1005 // Get appropriate visual
1006 int color_class;
1007 switch (xdepth) {
1008 case 1:
1009 color_class = StaticGray;
1010 break;
1011 case 8:
1012 color_class = PseudoColor;
1013 break;
1014 case 15:
1015 case 16:
1016 case 24:
1017 case 32:
1018 color_class = TrueColor;
1019 break;
1020 default:
1021 ErrorAlert(GetString(STR_UNSUPP_DEPTH_ERR));
1022 return false;
1023 }
1024 if (!XMatchVisualInfo(x_display, screen, xdepth, color_class, &visualInfo)) {
1025 ErrorAlert(GetString(STR_NO_XVISUAL_ERR));
1026 return false;
1027 }
1028 if (visualInfo.depth != xdepth) {
1029 ErrorAlert(GetString(STR_NO_XVISUAL_ERR));
1030 return false;
1031 }
1032 vis = visualInfo.visual;
1033
1034 // Mac screen depth is always 1 bit in Classic mode, but follows X depth otherwise
1035 classic_mode = classic;
1036 if (classic)
1037 depth = 1;
1038 else
1039 depth = xdepth;
1040
1041 // Create color maps for 8 bit mode
1042 if (depth == 8) {
1043 cmap[0] = XCreateColormap(x_display, rootwin, vis, AllocAll);
1044 cmap[1] = XCreateColormap(x_display, rootwin, vis, AllocAll);
1045 XInstallColormap(x_display, cmap[0]);
1046 XInstallColormap(x_display, cmap[1]);
1047 }
1048
1049 // Get screen mode from preferences
1050 const char *mode_str;
1051 if (classic)
1052 mode_str = "win/512/342";
1053 else
1054 mode_str = PrefsFindString("screen");
1055
1056 // Determine type and mode
1057 int width = 512, height = 384;
1058 display_type = DISPLAY_WINDOW;
1059 if (mode_str) {
1060 if (sscanf(mode_str, "win/%d/%d", &width, &height) == 2)
1061 display_type = DISPLAY_WINDOW;
1062 #ifdef ENABLE_FBDEV_DGA
1063 else if (has_dga && sscanf(mode_str, "dga/%19s", fb_name) == 1) {
1064 #else
1065 else if (has_dga && sscanf(mode_str, "dga/%d/%d", &width, &height) == 2) {
1066 #endif
1067 display_type = DISPLAY_DGA;
1068 if (width > DisplayWidth(x_display, screen))
1069 width = DisplayWidth(x_display, screen);
1070 if (height > DisplayHeight(x_display, screen))
1071 height = DisplayHeight(x_display, screen);
1072 }
1073 if (width <= 0)
1074 width = DisplayWidth(x_display, screen);
1075 if (height <= 0)
1076 height = DisplayHeight(x_display, screen);
1077 }
1078
1079 // Initialize according to display type
1080 switch (display_type) {
1081 case DISPLAY_WINDOW:
1082 if (!init_window(width, height))
1083 return false;
1084 break;
1085 case DISPLAY_DGA:
1086 #ifdef ENABLE_FBDEV_DGA
1087 if (!init_fbdev_dga(fb_name))
1088 #else
1089 if (!init_xf86_dga(width, height))
1090 #endif
1091 return false;
1092 break;
1093 }
1094
1095 // Lock down frame buffer
1096 LOCK_FRAME_BUFFER;
1097
1098 #if !REAL_ADDRESSING && !DIRECT_ADDRESSING
1099 // Set variables for UAE memory mapping
1100 MacFrameBaseHost = the_buffer;
1101 MacFrameSize = VideoMonitor.bytes_per_row * VideoMonitor.y;
1102
1103 // No special frame buffer in Classic mode (frame buffer is in Mac RAM)
1104 if (classic)
1105 MacFrameLayout = FLAYOUT_NONE;
1106 #endif
1107
1108 #ifdef ENABLE_VOSF
1109 if (use_vosf) {
1110 // Initialize the mainBuffer structure
1111 if (!VideoInitBuffer()) {
1112 // TODO: STR_VOSF_INIT_ERR ?
1113 ErrorAlert("Could not initialize Video on SEGV signals");
1114 return false;
1115 }
1116
1117 // Initialize the handler for SIGSEGV
1118 if (!Screen_fault_handler_init()) {
1119 // TODO: STR_VOSF_INIT_ERR ?
1120 ErrorAlert("Could not initialize Video on SEGV signals");
1121 return false;
1122 }
1123 }
1124 #endif
1125
1126 // Initialize VideoRefresh function
1127 VideoRefreshInit();
1128
1129 XSync(x_display, false);
1130
1131 #ifdef HAVE_PTHREADS
1132 // Start redraw/input thread
1133 redraw_thread_active = (pthread_create(&redraw_thread, NULL, redraw_func, NULL) == 0);
1134 if (!redraw_thread_active) {
1135 printf("FATAL: cannot create redraw thread\n");
1136 return false;
1137 }
1138 #endif
1139 return true;
1140 }
1141
1142
1143 /*
1144 * Deinitialization
1145 */
1146
1147 void VideoExit(void)
1148 {
1149 #ifdef HAVE_PTHREADS
1150 // Stop redraw thread
1151 if (redraw_thread_active) {
1152 redraw_thread_cancel = true;
1153 #ifdef HAVE_PTHREAD_CANCEL
1154 pthread_cancel(redraw_thread);
1155 #endif
1156 pthread_join(redraw_thread, NULL);
1157 redraw_thread_active = false;
1158 }
1159 #endif
1160
1161 // Unlock frame buffer
1162 UNLOCK_FRAME_BUFFER;
1163
1164 // Close window and server connection
1165 if (x_display != NULL) {
1166 XSync(x_display, false);
1167
1168 #ifdef ENABLE_XF86_DGA
1169 if (display_type == DISPLAY_DGA) {
1170 XF86DGADirectVideo(x_display, screen, 0);
1171 XUngrabPointer(x_display, CurrentTime);
1172 XUngrabKeyboard(x_display, CurrentTime);
1173 }
1174 #endif
1175
1176 #ifdef ENABLE_XF86_VIDMODE
1177 if (has_vidmode && display_type == DISPLAY_DGA)
1178 XF86VidModeSwitchToMode(x_display, screen, x_video_modes[0]);
1179 #endif
1180
1181 #ifdef ENABLE_FBDEV_DGA
1182 if (display_type == DISPLAY_DGA) {
1183 XUngrabPointer(x_display, CurrentTime);
1184 XUngrabKeyboard(x_display, CurrentTime);
1185 close(fbdev_fd);
1186 }
1187 #endif
1188
1189 XFlush(x_display);
1190 XSync(x_display, false);
1191 if (depth == 8) {
1192 XFreeColormap(x_display, cmap[0]);
1193 XFreeColormap(x_display, cmap[1]);
1194 }
1195
1196 if (!use_vosf) {
1197 if (the_buffer) {
1198 free(the_buffer);
1199 the_buffer = NULL;
1200 }
1201
1202 if (!have_shm && the_buffer_copy) {
1203 free(the_buffer_copy);
1204 the_buffer_copy = NULL;
1205 }
1206 }
1207 #ifdef ENABLE_VOSF
1208 else {
1209 if (the_buffer != (uint8 *)MAP_FAILED) {
1210 munmap((caddr_t)the_buffer, the_buffer_size);
1211 the_buffer = 0;
1212 }
1213
1214 if (the_buffer_copy != (uint8 *)MAP_FAILED) {
1215 munmap((caddr_t)the_buffer_copy, the_buffer_size);
1216 the_buffer_copy = 0;
1217 }
1218 }
1219 #endif
1220 }
1221
1222 #ifdef ENABLE_VOSF
1223 if (use_vosf) {
1224 // Clear mainBuffer data
1225 if (mainBuffer.pageInfo) {
1226 free(mainBuffer.pageInfo);
1227 mainBuffer.pageInfo = 0;
1228 }
1229
1230 if (mainBuffer.dirtyPages) {
1231 free(mainBuffer.dirtyPages);
1232 mainBuffer.dirtyPages = 0;
1233 }
1234 }
1235
1236 // Close /dev/zero
1237 if (zero_fd > 0)
1238 close(zero_fd);
1239 #endif
1240 }
1241
1242
1243 /*
1244 * Close down full-screen mode (if bringing up error alerts is unsafe while in full-screen mode)
1245 */
1246
1247 void VideoQuitFullScreen(void)
1248 {
1249 D(bug("VideoQuitFullScreen()\n"));
1250 if (display_type == DISPLAY_DGA)
1251 quit_full_screen = true;
1252 }
1253
1254
1255 /*
1256 * Mac VBL interrupt
1257 */
1258
1259 void VideoInterrupt(void)
1260 {
1261 // Emergency quit requested? Then quit
1262 if (emerg_quit)
1263 QuitEmulator();
1264
1265 // Temporarily give up frame buffer lock (this is the point where
1266 // we are suspended when the user presses Ctrl-Tab)
1267 UNLOCK_FRAME_BUFFER;
1268 LOCK_FRAME_BUFFER;
1269 }
1270
1271
1272 /*
1273 * Set palette
1274 */
1275
1276 void video_set_palette(uint8 *pal)
1277 {
1278 LOCK_PALETTE;
1279
1280 // Convert colors to XColor array
1281 for (int i=0; i<256; i++) {
1282 palette[i].pixel = i;
1283 palette[i].red = pal[i*3] * 0x0101;
1284 palette[i].green = pal[i*3+1] * 0x0101;
1285 palette[i].blue = pal[i*3+2] * 0x0101;
1286 palette[i].flags = DoRed | DoGreen | DoBlue;
1287 }
1288
1289 // Tell redraw thread to change palette
1290 palette_changed = true;
1291
1292 UNLOCK_PALETTE;
1293 }
1294
1295
1296 /*
1297 * Suspend/resume emulator
1298 */
1299
1300 #if defined(ENABLE_XF86_DGA) || defined(ENABLE_FBDEV_DGA)
1301 static void suspend_emul(void)
1302 {
1303 if (display_type == DISPLAY_DGA) {
1304 // Release ctrl key
1305 ADBKeyUp(0x36);
1306 ctrl_down = false;
1307
1308 // Lock frame buffer (this will stop the MacOS thread)
1309 LOCK_FRAME_BUFFER;
1310
1311 // Save frame buffer
1312 fb_save = malloc(VideoMonitor.y * VideoMonitor.bytes_per_row);
1313 if (fb_save)
1314 memcpy(fb_save, the_buffer, VideoMonitor.y * VideoMonitor.bytes_per_row);
1315
1316 // Close full screen display
1317 #ifdef ENABLE_XF86_DGA
1318 XF86DGADirectVideo(x_display, screen, 0);
1319 #endif
1320 XUngrabPointer(x_display, CurrentTime);
1321 XUngrabKeyboard(x_display, CurrentTime);
1322 XUnmapWindow(x_display, the_win);
1323 wait_unmapped(the_win);
1324
1325 // Open "suspend" window
1326 XSetWindowAttributes wattr;
1327 wattr.event_mask = KeyPressMask;
1328 wattr.background_pixel = black_pixel;
1329
1330 suspend_win = XCreateWindow(x_display, rootwin, 0, 0, 512, 1, 0, xdepth,
1331 InputOutput, vis, CWEventMask | CWBackPixel, &wattr);
1332 set_window_name(suspend_win, STR_SUSPEND_WINDOW_TITLE);
1333 set_window_focus(suspend_win);
1334 XMapWindow(x_display, suspend_win);
1335 emul_suspended = true;
1336 }
1337 }
1338
1339 static void resume_emul(void)
1340 {
1341 // Close "suspend" window
1342 XDestroyWindow(x_display, suspend_win);
1343 XSync(x_display, false);
1344
1345 // Reopen full screen display
1346 XMapRaised(x_display, the_win);
1347 wait_mapped(the_win);
1348 XWarpPointer(x_display, None, rootwin, 0, 0, 0, 0, 0, 0);
1349 XGrabKeyboard(x_display, rootwin, 1, GrabModeAsync, GrabModeAsync, CurrentTime);
1350 XGrabPointer(x_display, rootwin, 1, PointerMotionMask | ButtonPressMask | ButtonReleaseMask, GrabModeAsync, GrabModeAsync, None, None, CurrentTime);
1351 #ifdef ENABLE_XF86_DGA
1352 XF86DGADirectVideo(x_display, screen, XF86DGADirectGraphics | XF86DGADirectKeyb | XF86DGADirectMouse);
1353 XF86DGASetViewPort(x_display, screen, 0, 0);
1354 #endif
1355 XSync(x_display, false);
1356
1357 // the_buffer already contains the data to restore. i.e. since a temporary
1358 // frame buffer is used when VOSF is actually used, fb_save is therefore
1359 // not necessary.
1360 #ifdef ENABLE_VOSF
1361 if (use_vosf) {
1362 LOCK_VOSF;
1363 PFLAG_SET_ALL;
1364 UNLOCK_VOSF;
1365 memset(the_buffer_copy, 0, VideoMonitor.bytes_per_row * VideoMonitor.y);
1366 }
1367 #endif
1368
1369 // Restore frame buffer
1370 if (fb_save) {
1371 #ifdef ENABLE_VOSF
1372 // Don't copy fb_save to the temporary frame buffer in VOSF mode
1373 if (!use_vosf)
1374 #endif
1375 memcpy(the_buffer, fb_save, VideoMonitor.y * VideoMonitor.bytes_per_row);
1376 free(fb_save);
1377 fb_save = NULL;
1378 }
1379
1380 #ifdef ENABLE_XF86_DGA
1381 if (depth == 8)
1382 XF86DGAInstallColormap(x_display, screen, cmap[current_dga_cmap]);
1383 #endif
1384
1385 // Unlock frame buffer (and continue MacOS thread)
1386 UNLOCK_FRAME_BUFFER;
1387 emul_suspended = false;
1388 }
1389 #endif
1390
1391
1392 /*
1393 * Translate key event to Mac keycode
1394 */
1395
1396 static int kc_decode(KeySym ks)
1397 {
1398 switch (ks) {
1399 case XK_A: case XK_a: return 0x00;
1400 case XK_B: case XK_b: return 0x0b;
1401 case XK_C: case XK_c: return 0x08;
1402 case XK_D: case XK_d: return 0x02;
1403 case XK_E: case XK_e: return 0x0e;
1404 case XK_F: case XK_f: return 0x03;
1405 case XK_G: case XK_g: return 0x05;
1406 case XK_H: case XK_h: return 0x04;
1407 case XK_I: case XK_i: return 0x22;
1408 case XK_J: case XK_j: return 0x26;
1409 case XK_K: case XK_k: return 0x28;
1410 case XK_L: case XK_l: return 0x25;
1411 case XK_M: case XK_m: return 0x2e;
1412 case XK_N: case XK_n: return 0x2d;
1413 case XK_O: case XK_o: return 0x1f;
1414 case XK_P: case XK_p: return 0x23;
1415 case XK_Q: case XK_q: return 0x0c;
1416 case XK_R: case XK_r: return 0x0f;
1417 case XK_S: case XK_s: return 0x01;
1418 case XK_T: case XK_t: return 0x11;
1419 case XK_U: case XK_u: return 0x20;
1420 case XK_V: case XK_v: return 0x09;
1421 case XK_W: case XK_w: return 0x0d;
1422 case XK_X: case XK_x: return 0x07;
1423 case XK_Y: case XK_y: return 0x10;
1424 case XK_Z: case XK_z: return 0x06;
1425
1426 case XK_1: case XK_exclam: return 0x12;
1427 case XK_2: case XK_at: return 0x13;
1428 case XK_3: case XK_numbersign: return 0x14;
1429 case XK_4: case XK_dollar: return 0x15;
1430 case XK_5: case XK_percent: return 0x17;
1431 case XK_6: return 0x16;
1432 case XK_7: return 0x1a;
1433 case XK_8: return 0x1c;
1434 case XK_9: return 0x19;
1435 case XK_0: return 0x1d;
1436
1437 case XK_grave: case XK_asciitilde: return 0x0a;
1438 case XK_minus: case XK_underscore: return 0x1b;
1439 case XK_equal: case XK_plus: return 0x18;
1440 case XK_bracketleft: case XK_braceleft: return 0x21;
1441 case XK_bracketright: case XK_braceright: return 0x1e;
1442 case XK_backslash: case XK_bar: return 0x2a;
1443 case XK_semicolon: case XK_colon: return 0x29;
1444 case XK_apostrophe: case XK_quotedbl: return 0x27;
1445 case XK_comma: case XK_less: return 0x2b;
1446 case XK_period: case XK_greater: return 0x2f;
1447 case XK_slash: case XK_question: return 0x2c;
1448
1449 #if defined(ENABLE_XF86_DGA) || defined(ENABLE_FBDEV_DGA)
1450 case XK_Tab: if (ctrl_down) {suspend_emul(); return -1;} else return 0x30;
1451 #else
1452 case XK_Tab: return 0x30;
1453 #endif
1454 case XK_Return: return 0x24;
1455 case XK_space: return 0x31;
1456 case XK_BackSpace: return 0x33;
1457
1458 case XK_Delete: return 0x75;
1459 case XK_Insert: return 0x72;
1460 case XK_Home: case XK_Help: return 0x73;
1461 case XK_End: return 0x77;
1462 #ifdef __hpux
1463 case XK_Prior: return 0x74;
1464 case XK_Next: return 0x79;
1465 #else
1466 case XK_Page_Up: return 0x74;
1467 case XK_Page_Down: return 0x79;
1468 #endif
1469
1470 case XK_Control_L: return 0x36;
1471 case XK_Control_R: return 0x36;
1472 case XK_Shift_L: return 0x38;
1473 case XK_Shift_R: return 0x38;
1474 case XK_Alt_L: return 0x37;
1475 case XK_Alt_R: return 0x37;
1476 case XK_Meta_L: return 0x3a;
1477 case XK_Meta_R: return 0x3a;
1478 case XK_Menu: return 0x32;
1479 case XK_Caps_Lock: return 0x39;
1480 case XK_Num_Lock: return 0x47;
1481
1482 case XK_Up: return 0x3e;
1483 case XK_Down: return 0x3d;
1484 case XK_Left: return 0x3b;
1485 case XK_Right: return 0x3c;
1486
1487 case XK_Escape: if (ctrl_down) {quit_full_screen = true; emerg_quit = true; return -1;} else return 0x35;
1488
1489 case XK_F1: if (ctrl_down) {SysMountFirstFloppy(); return -1;} else return 0x7a;
1490 case XK_F2: return 0x78;
1491 case XK_F3: return 0x63;
1492 case XK_F4: return 0x76;
1493 case XK_F5: return 0x60;
1494 case XK_F6: return 0x61;
1495 case XK_F7: return 0x62;
1496 case XK_F8: return 0x64;
1497 case XK_F9: return 0x65;
1498 case XK_F10: return 0x6d;
1499 case XK_F11: return 0x67;
1500 case XK_F12: return 0x6f;
1501
1502 case XK_Print: return 0x69;
1503 case XK_Scroll_Lock: return 0x6b;
1504 case XK_Pause: return 0x71;
1505
1506 #if defined(XK_KP_Prior) && defined(XK_KP_Left) && defined(XK_KP_Insert) && defined (XK_KP_End)
1507 case XK_KP_0: case XK_KP_Insert: return 0x52;
1508 case XK_KP_1: case XK_KP_End: return 0x53;
1509 case XK_KP_2: case XK_KP_Down: return 0x54;
1510 case XK_KP_3: case XK_KP_Next: return 0x55;
1511 case XK_KP_4: case XK_KP_Left: return 0x56;
1512 case XK_KP_5: case XK_KP_Begin: return 0x57;
1513 case XK_KP_6: case XK_KP_Right: return 0x58;
1514 case XK_KP_7: case XK_KP_Home: return 0x59;
1515 case XK_KP_8: case XK_KP_Up: return 0x5b;
1516 case XK_KP_9: case XK_KP_Prior: return 0x5c;
1517 case XK_KP_Decimal: case XK_KP_Delete: return 0x41;
1518 #else
1519 case XK_KP_0: return 0x52;
1520 case XK_KP_1: return 0x53;
1521 case XK_KP_2: return 0x54;
1522 case XK_KP_3: return 0x55;
1523 case XK_KP_4: return 0x56;
1524 case XK_KP_5: return 0x57;
1525 case XK_KP_6: return 0x58;
1526 case XK_KP_7: return 0x59;
1527 case XK_KP_8: return 0x5b;
1528 case XK_KP_9: return 0x5c;
1529 case XK_KP_Decimal: return 0x41;
1530 #endif
1531 case XK_KP_Add: return 0x45;
1532 case XK_KP_Subtract: return 0x4e;
1533 case XK_KP_Multiply: return 0x43;
1534 case XK_KP_Divide: return 0x4b;
1535 case XK_KP_Enter: return 0x4c;
1536 case XK_KP_Equal: return 0x51;
1537 }
1538 return -1;
1539 }
1540
1541 static int event2keycode(XKeyEvent &ev)
1542 {
1543 KeySym ks;
1544 int as;
1545 int i = 0;
1546
1547 do {
1548 ks = XLookupKeysym(&ev, i++);
1549 as = kc_decode(ks);
1550 if (as != -1)
1551 return as;
1552 } while (ks != NoSymbol);
1553
1554 return -1;
1555 }
1556
1557
1558 /*
1559 * X event handling
1560 */
1561
1562 static void handle_events(void)
1563 {
1564 while (XPending(x_display)) {
1565 XEvent event;
1566 XNextEvent(x_display, &event);
1567
1568 switch (event.type) {
1569 // Mouse button
1570 case ButtonPress: {
1571 unsigned int button = event.xbutton.button;
1572 if (button < 4)
1573 ADBMouseDown(button - 1);
1574 else if (button < 6) { // Wheel mouse
1575 if (mouse_wheel_mode == 0) {
1576 int key = (button == 5) ? 0x79 : 0x74; // Page up/down
1577 ADBKeyDown(key);
1578 ADBKeyUp(key);
1579 } else {
1580 int key = (button == 5) ? 0x3d : 0x3e; // Cursor up/down
1581 for(int i=0; i<mouse_wheel_lines; i++) {
1582 ADBKeyDown(key);
1583 ADBKeyUp(key);
1584 }
1585 }
1586 }
1587 break;
1588 }
1589 case ButtonRelease: {
1590 unsigned int button = event.xbutton.button;
1591 if (button < 4)
1592 ADBMouseUp(button - 1);
1593 break;
1594 }
1595
1596 // Mouse moved
1597 case EnterNotify:
1598 case MotionNotify:
1599 ADBMouseMoved(event.xmotion.x, event.xmotion.y);
1600 break;
1601
1602 // Keyboard
1603 case KeyPress: {
1604 int code;
1605 if (use_keycodes) {
1606 event2keycode(event.xkey); // This is called to process the hotkeys
1607 code = keycode_table[event.xkey.keycode & 0xff];
1608 } else
1609 code = event2keycode(event.xkey);
1610 if (code != -1) {
1611 if (!emul_suspended) {
1612 if (code == 0x39) { // Caps Lock pressed
1613 if (caps_on) {
1614 ADBKeyUp(code);
1615 caps_on = false;
1616 } else {
1617 ADBKeyDown(code);
1618 caps_on = true;
1619 }
1620 } else
1621 ADBKeyDown(code);
1622 if (code == 0x36)
1623 ctrl_down = true;
1624 } else {
1625 #if defined(ENABLE_XF86_DGA) || defined(ENABLE_FBDEV_DGA)
1626 if (code == 0x31)
1627 resume_emul(); // Space wakes us up
1628 #endif
1629 }
1630 }
1631 break;
1632 }
1633 case KeyRelease: {
1634 int code;
1635 if (use_keycodes) {
1636 event2keycode(event.xkey); // This is called to process the hotkeys
1637 code = keycode_table[event.xkey.keycode & 0xff];
1638 } else
1639 code = event2keycode(event.xkey);
1640 if (code != -1 && code != 0x39) { // Don't propagate Caps Lock releases
1641 ADBKeyUp(code);
1642 if (code == 0x36)
1643 ctrl_down = false;
1644 }
1645 break;
1646 }
1647
1648 // Hidden parts exposed, force complete refresh of window
1649 case Expose:
1650 if (display_type == DISPLAY_WINDOW) {
1651 #ifdef ENABLE_VOSF
1652 if (use_vosf) { // VOSF refresh
1653 LOCK_VOSF;
1654 PFLAG_SET_ALL;
1655 UNLOCK_VOSF;
1656 memset(the_buffer_copy, 0, VideoMonitor.bytes_per_row * VideoMonitor.y);
1657 }
1658 else
1659 #endif
1660 if (frame_skip == 0) { // Dynamic refresh
1661 int x1, y1;
1662 for (y1=0; y1<16; y1++)
1663 for (x1=0; x1<16; x1++)
1664 updt_box[x1][y1] = true;
1665 nr_boxes = 16 * 16;
1666 } else // Static refresh
1667 memset(the_buffer_copy, 0, VideoMonitor.bytes_per_row * VideoMonitor.y);
1668 }
1669 break;
1670
1671 // Window "close" widget clicked
1672 case ClientMessage:
1673 if (event.xclient.format == 32 && event.xclient.data.l[0] == WM_DELETE_WINDOW) {
1674 ADBKeyDown(0x7f); // Power key
1675 ADBKeyUp(0x7f);
1676 }
1677 break;
1678 }
1679 }
1680 }
1681
1682
1683 /*
1684 * Window display update
1685 */
1686
1687 // Dynamic display update (variable frame rate for each box)
1688 static void update_display_dynamic(int ticker)
1689 {
1690 int y1, y2, y2s, y2a, i, x1, xm, xmo, ymo, yo, yi, yil, xi;
1691 int xil = 0;
1692 int rxm = 0, rxmo = 0;
1693 int bytes_per_row = VideoMonitor.bytes_per_row;
1694 int bytes_per_pixel = VideoMonitor.bytes_per_row / VideoMonitor.x;
1695 int rx = VideoMonitor.bytes_per_row / 16;
1696 int ry = VideoMonitor.y / 16;
1697 int max_box;
1698
1699 y2s = sm_uptd[ticker % 8];
1700 y2a = 8;
1701 for (i = 0; i < 6; i++)
1702 if (ticker % (2 << i))
1703 break;
1704 max_box = sm_no_boxes[i];
1705
1706 if (y2a) {
1707 for (y1=0; y1<16; y1++) {
1708 for (y2=y2s; y2 < ry; y2 += y2a) {
1709 i = ((y1 * ry) + y2) * bytes_per_row;
1710 for (x1=0; x1<16; x1++, i += rx) {
1711 if (updt_box[x1][y1] == false) {
1712 if (memcmp(&the_buffer_copy[i], &the_buffer[i], rx)) {
1713 updt_box[x1][y1] = true;
1714 nr_boxes++;
1715 }
1716 }
1717 }
1718 }
1719 }
1720 }
1721
1722 if ((nr_boxes <= max_box) && (nr_boxes)) {
1723 for (y1=0; y1<16; y1++) {
1724 for (x1=0; x1<16; x1++) {
1725 if (updt_box[x1][y1] == true) {
1726 if (rxm == 0)
1727 xm = x1;
1728 rxm += rx;
1729 updt_box[x1][y1] = false;
1730 }
1731 if (((updt_box[x1+1][y1] == false) || (x1 == 15)) && (rxm)) {
1732 if ((rxmo != rxm) || (xmo != xm) || (yo != y1 - 1)) {
1733 if (rxmo) {
1734 xi = xmo * rx;
1735 yi = ymo * ry;
1736 xil = rxmo;
1737 yil = (yo - ymo +1) * ry;
1738 }
1739 rxmo = rxm;
1740 xmo = xm;
1741 ymo = y1;
1742 }
1743 rxm = 0;
1744 yo = y1;
1745 }
1746 if (xil) {
1747 i = (yi * bytes_per_row) + xi;
1748 for (y2=0; y2 < yil; y2++, i += bytes_per_row)
1749 memcpy(&the_buffer_copy[i], &the_buffer[i], xil);
1750 if (depth == 1) {
1751 if (have_shm)
1752 XShmPutImage(x_display, the_win, the_gc, img, xi * 8, yi, xi * 8, yi, xil * 8, yil, 0);
1753 else
1754 XPutImage(x_display, the_win, the_gc, img, xi * 8, yi, xi * 8, yi, xil * 8, yil);
1755 } else {
1756 if (have_shm)
1757 XShmPutImage(x_display, the_win, the_gc, img, xi / bytes_per_pixel, yi, xi / bytes_per_pixel, yi, xil / bytes_per_pixel, yil, 0);
1758 else
1759 XPutImage(x_display, the_win, the_gc, img, xi / bytes_per_pixel, yi, xi / bytes_per_pixel, yi, xil / bytes_per_pixel, yil);
1760 }
1761 xil = 0;
1762 }
1763 if ((x1 == 15) && (y1 == 15) && (rxmo)) {
1764 x1--;
1765 xi = xmo * rx;
1766 yi = ymo * ry;
1767 xil = rxmo;
1768 yil = (yo - ymo +1) * ry;
1769 rxmo = 0;
1770 }
1771 }
1772 }
1773 nr_boxes = 0;
1774 }
1775 }
1776
1777 // Static display update (fixed frame rate, but incremental)
1778 static void update_display_static(void)
1779 {
1780 // Incremental update code
1781 int wide = 0, high = 0, x1, x2, y1, y2, i, j;
1782 int bytes_per_row = VideoMonitor.bytes_per_row;
1783 int bytes_per_pixel = VideoMonitor.bytes_per_row / VideoMonitor.x;
1784 uint8 *p, *p2;
1785
1786 // Check for first line from top and first line from bottom that have changed
1787 y1 = 0;
1788 for (j=0; j<VideoMonitor.y; j++) {
1789 if (memcmp(&the_buffer[j * bytes_per_row], &the_buffer_copy[j * bytes_per_row], bytes_per_row)) {
1790 y1 = j;
1791 break;
1792 }
1793 }
1794 y2 = y1 - 1;
1795 for (j=VideoMonitor.y-1; j>=y1; j--) {
1796 if (memcmp(&the_buffer[j * bytes_per_row], &the_buffer_copy[j * bytes_per_row], bytes_per_row)) {
1797 y2 = j;
1798 break;
1799 }
1800 }
1801 high = y2 - y1 + 1;
1802
1803 // Check for first column from left and first column from right that have changed
1804 if (high) {
1805 if (depth == 1) {
1806 x1 = VideoMonitor.x - 1;
1807 for (j=y1; j<=y2; j++) {
1808 p = &the_buffer[j * bytes_per_row];
1809 p2 = &the_buffer_copy[j * bytes_per_row];
1810 for (i=0; i<(x1>>3); i++) {
1811 if (*p != *p2) {
1812 x1 = i << 3;
1813 break;
1814 }
1815 p++; p2++;
1816 }
1817 }
1818 x2 = x1;
1819 for (j=y1; j<=y2; j++) {
1820 p = &the_buffer[j * bytes_per_row];
1821 p2 = &the_buffer_copy[j * bytes_per_row];
1822 p += bytes_per_row;
1823 p2 += bytes_per_row;
1824 for (i=(VideoMonitor.x>>3); i>(x2>>3); i--) {
1825 p--; p2--;
1826 if (*p != *p2) {
1827 x2 = (i << 3) + 7;
1828 break;
1829 }
1830 }
1831 }
1832 wide = x2 - x1 + 1;
1833
1834 // Update copy of the_buffer
1835 if (high && wide) {
1836 for (j=y1; j<=y2; j++) {
1837 i = j * bytes_per_row + (x1 >> 3);
1838 memcpy(the_buffer_copy + i, the_buffer + i, wide >> 3);
1839 }
1840 }
1841
1842 } else {
1843 x1 = VideoMonitor.x;
1844 for (j=y1; j<=y2; j++) {
1845 p = &the_buffer[j * bytes_per_row];
1846 p2 = &the_buffer_copy[j * bytes_per_row];
1847 for (i=0; i<x1*bytes_per_pixel; i++) {
1848 if (*p != *p2) {
1849 x1 = i / bytes_per_pixel;
1850 break;
1851 }
1852 p++; p2++;
1853 }
1854 }
1855 x2 = x1;
1856 for (j=y1; j<=y2; j++) {
1857 p = &the_buffer[j * bytes_per_row];
1858 p2 = &the_buffer_copy[j * bytes_per_row];
1859 p += bytes_per_row;
1860 p2 += bytes_per_row;
1861 for (i=VideoMonitor.x*bytes_per_pixel; i>x2*bytes_per_pixel; i--) {
1862 p--;
1863 p2--;
1864 if (*p != *p2) {
1865 x2 = i / bytes_per_pixel;
1866 break;
1867 }
1868 }
1869 }
1870 wide = x2 - x1;
1871
1872 // Update copy of the_buffer
1873 if (high && wide) {
1874 for (j=y1; j<=y2; j++) {
1875 i = j * bytes_per_row + x1 * bytes_per_pixel;
1876 memcpy(the_buffer_copy + i, the_buffer + i, bytes_per_pixel * wide);
1877 }
1878 }
1879 }
1880 }
1881
1882 // Refresh display
1883 if (high && wide) {
1884 if (have_shm)
1885 XShmPutImage(x_display, the_win, the_gc, img, x1, y1, x1, y1, wide, high, 0);
1886 else
1887 XPutImage(x_display, the_win, the_gc, img, x1, y1, x1, y1, wide, high);
1888 }
1889 }
1890
1891
1892 /*
1893 * Screen refresh functions
1894 */
1895
1896 // The specialisations hereunder are meant to enable VOSF with DGA in direct
1897 // addressing mode in case the address spaces (RAM, ROM, FrameBuffer) could
1898 // not get mapped correctly with respect to the predetermined host frame
1899 // buffer base address.
1900 //
1901 // Hmm, in other words, when in direct addressing mode and DGA is requested,
1902 // we first try to "triple allocate" the address spaces according to the real
1903 // host frame buffer address. Then, if it fails, we will use a temporary
1904 // frame buffer thus making the real host frame buffer updated when pages
1905 // of the temp frame buffer are altered.
1906 //
1907 // As a side effect, a little speed gain in screen updates could be noticed
1908 // for other modes than DGA.
1909 //
1910 // The following two functions below are inline so that a clever compiler
1911 // could specialise the code according to the current screen depth and
1912 // display type. A more clever compiler would the job by itself though...
1913 // (update_display_vosf is inlined as well)
1914
1915 static inline void possibly_quit_dga_mode()
1916 {
1917 #if defined(ENABLE_XF86_DGA) || defined(ENABLE_FBDEV_DGA)
1918 // Quit DGA mode if requested
1919 if (quit_full_screen) {
1920 quit_full_screen = false;
1921 #ifdef ENABLE_XF86_DGA
1922 XF86DGADirectVideo(x_display, screen, 0);
1923 #endif
1924 XUngrabPointer(x_display, CurrentTime);
1925 XUngrabKeyboard(x_display, CurrentTime);
1926 XUnmapWindow(x_display, the_win);
1927 XSync(x_display, false);
1928 }
1929 #endif
1930 }
1931
1932 static inline void handle_palette_changes(int depth, int display_type)
1933 {
1934 LOCK_PALETTE;
1935
1936 if (palette_changed) {
1937 palette_changed = false;
1938 if (depth == 8) {
1939 XStoreColors(x_display, cmap[0], palette, 256);
1940 XStoreColors(x_display, cmap[1], palette, 256);
1941 XSync(x_display, false);
1942
1943 #ifdef ENABLE_XF86_DGA
1944 if (display_type == DISPLAY_DGA) {
1945 current_dga_cmap ^= 1;
1946 XF86DGAInstallColormap(x_display, screen, cmap[current_dga_cmap]);
1947 }
1948 #endif
1949 }
1950 }
1951
1952 UNLOCK_PALETTE;
1953 }
1954
1955 static void video_refresh_dga(void)
1956 {
1957 // Quit DGA mode if requested
1958 possibly_quit_dga_mode();
1959
1960 // Handle X events
1961 handle_events();
1962
1963 // Handle palette changes
1964 handle_palette_changes(depth, DISPLAY_DGA);
1965 }
1966
1967 #ifdef ENABLE_VOSF
1968 #if REAL_ADDRESSING || DIRECT_ADDRESSING
1969 static void video_refresh_dga_vosf(void)
1970 {
1971 // Quit DGA mode if requested
1972 possibly_quit_dga_mode();
1973
1974 // Handle X events
1975 handle_events();
1976
1977 // Handle palette changes
1978 handle_palette_changes(depth, DISPLAY_DGA);
1979
1980 // Update display (VOSF variant)
1981 static int tick_counter = 0;
1982 if (++tick_counter >= frame_skip) {
1983 tick_counter = 0;
1984 LOCK_VOSF;
1985 update_display_dga_vosf();
1986 UNLOCK_VOSF;
1987 }
1988 }
1989 #endif
1990
1991 static void video_refresh_window_vosf(void)
1992 {
1993 // Quit DGA mode if requested
1994 possibly_quit_dga_mode();
1995
1996 // Handle X events
1997 handle_events();
1998
1999 // Handle palette changes
2000 handle_palette_changes(depth, DISPLAY_WINDOW);
2001
2002 // Update display (VOSF variant)
2003 static int tick_counter = 0;
2004 if (++tick_counter >= frame_skip) {
2005 tick_counter = 0;
2006 LOCK_VOSF;
2007 update_display_window_vosf();
2008 UNLOCK_VOSF;
2009 }
2010 }
2011 #endif // def ENABLE_VOSF
2012
2013 static void video_refresh_window_static(void)
2014 {
2015 // Handle X events
2016 handle_events();
2017
2018 // Handle_palette changes
2019 handle_palette_changes(depth, DISPLAY_WINDOW);
2020
2021 // Update display (static variant)
2022 static int tick_counter = 0;
2023 if (++tick_counter >= frame_skip) {
2024 tick_counter = 0;
2025 update_display_static();
2026 }
2027 }
2028
2029 static void video_refresh_window_dynamic(void)
2030 {
2031 // Handle X events
2032 handle_events();
2033
2034 // Handle_palette changes
2035 handle_palette_changes(depth, DISPLAY_WINDOW);
2036
2037 // Update display (dynamic variant)
2038 static int tick_counter = 0;
2039 tick_counter++;
2040 update_display_dynamic(tick_counter);
2041 }
2042
2043
2044 /*
2045 * Thread for screen refresh, input handling etc.
2046 */
2047
2048 void VideoRefreshInit(void)
2049 {
2050 // TODO: set up specialised 8bpp VideoRefresh handlers ?
2051 if (display_type == DISPLAY_DGA) {
2052 #if ENABLE_VOSF && (REAL_ADDRESSING || DIRECT_ADDRESSING)
2053 if (use_vosf)
2054 video_refresh = video_refresh_dga_vosf;
2055 else
2056 #endif
2057 video_refresh = video_refresh_dga;
2058 }
2059 else {
2060 #ifdef ENABLE_VOSF
2061 if (use_vosf)
2062 video_refresh = video_refresh_window_vosf;
2063 else
2064 #endif
2065 if (frame_skip == 0)
2066 video_refresh = video_refresh_window_dynamic;
2067 else
2068 video_refresh = video_refresh_window_static;
2069 }
2070 }
2071
2072 void VideoRefresh(void)
2073 {
2074 // TODO: make main_unix/VideoRefresh call directly video_refresh() ?
2075 video_refresh();
2076 }
2077
2078 #ifdef HAVE_PTHREADS
2079 static void *redraw_func(void *arg)
2080 {
2081 uint64 start = GetTicks_usec();
2082 int64 ticks = 0;
2083 uint64 next = GetTicks_usec();
2084 while (!redraw_thread_cancel) {
2085 video_refresh();
2086 next += 16667;
2087 int64 delay = next - GetTicks_usec();
2088 if (delay > 0)
2089 Delay_usec(delay);
2090 else if (delay < -16667)
2091 next = GetTicks_usec();
2092 ticks++;
2093 }
2094 uint64 end = GetTicks_usec();
2095 printf("%Ld ticks in %Ld usec = %Ld ticks/sec\n", ticks, end - start, (end - start) / ticks);
2096 return NULL;
2097 }
2098 #endif