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root/cebix/BasiliskII/src/Unix/video_x.cpp

Comparing BasiliskII/src/Unix/video_x.cpp (file contents):
Revision 1.22 by cebix, 2000-10-08T18:41:35Z vs.
Revision 1.61 by cebix, 2001-07-14T15:02:47Z

#	Line 1 | Line 1
1		/*
2		*  video_x.cpp - Video/graphics emulation, X11 specific stuff
3		*
4	<	*  Basilisk II (C) 1997-2000 Christian Bauer
4	>	*  Basilisk II (C) 1997-2001 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
#	Line 24 | Line 24
24		*      Ctrl-Tab = suspend DGA mode
25		*      Ctrl-Esc = emergency quit
26		*      Ctrl-F1 = mount floppy
27	+	*      Ctrl-F5 = grab mouse (in windowed mode)
28		*/
29
30		#include "sysdeps.h"
#	Line 36 | Line 37
37		#include <sys/shm.h>
38		#include <errno.h>
39
40	+	#include <algorithm>
41	+
42	+	#ifndef NO_STD_NAMESPACE
43	+	using std::sort;
44	+	#endif
45	+
46		#ifdef HAVE_PTHREADS
47		# include <pthread.h>
48		#endif
#	Line 52 | Line 59
59		# include <sys/mman.h>
60		#endif
61
55	–	#ifdef ENABLE_VOSF
56	–	# include <math.h> // log()
57	–	# include <unistd.h>
58	–	# include <signal.h>
59	–	# include <fcntl.h>
60	–	# include <sys/mman.h>
61	–	#endif
62	–
62		#include "cpu_emulation.h"
63		#include "main.h"
64		#include "adb.h"
#	Line 80 | Line 79 | enum {
79
80		// Constants
81		const char KEYCODE_FILE_NAME[] = DATADIR "/keycodes";
82	<	const char FBDEVICES_FILE_NAME[] = DATADIR "/fbdevices";
82	>
83	>	static const int win_eventmask = KeyPressMask | KeyReleaseMask | ButtonPressMask | ButtonReleaseMask | PointerMotionMask | EnterWindowMask | ExposureMask | StructureNotifyMask;
84	>	static const int dga_eventmask = KeyPressMask | KeyReleaseMask | ButtonPressMask | ButtonReleaseMask | PointerMotionMask | StructureNotifyMask;
85
86
87		// Global variables
88		static int32 frame_skip;                                                        // Prefs items
89	<	static int16 mouse_wheel_mode = 1;
90	<	static int16 mouse_wheel_lines = 3;
89	>	static int16 mouse_wheel_mode;
90	>	static int16 mouse_wheel_lines;
91
92		static int display_type = DISPLAY_WINDOW;                       // See enum above
93		static bool local_X11;                                                          // Flag: X server running on local machine?
94	<	static uint8 *the_buffer;                                                       // Mac frame buffer
94	>	static uint8 *the_buffer = NULL;                                        // Mac frame buffer (where MacOS draws into)
95	>	static uint8 *the_buffer_copy = NULL;                           // Copy of Mac frame buffer (for refreshed modes)
96	>	static uint32 the_buffer_size;                                          // Size of allocated the_buffer
97
95	–	#ifdef HAVE_PTHREADS
98		static bool redraw_thread_active = false;                       // Flag: Redraw thread installed
99	<	static volatile bool redraw_thread_cancel = false;      // Flag: Cancel Redraw thread
99	>	#ifdef HAVE_PTHREADS
100	>	static volatile bool redraw_thread_cancel;                      // Flag: Cancel Redraw thread
101		static pthread_t redraw_thread;                                         // Redraw thread
102		#endif
103
104		static bool has_dga = false;                                            // Flag: Video DGA capable
105		static bool has_vidmode = false;                                        // Flag: VidMode extension available
106
107	+	#ifdef ENABLE_VOSF
108	+	static bool use_vosf = true;                                            // Flag: VOSF enabled
109	+	#else
110	+	static const bool use_vosf = false;                                     // VOSF not possible
111	+	#endif
112	+
113		static bool ctrl_down = false;                                          // Flag: Ctrl key pressed
114		static bool caps_on = false;                                            // Flag: Caps Lock on
115		static bool quit_full_screen = false;                           // Flag: DGA close requested from redraw thread
#	Line 114 | Line 123 | static int keycode_table[256];                                         // X
123
124		// X11 variables
125		static int screen;                                                                      // Screen number
126	<	static int xdepth;                                                                      // Depth of X screen
127	<	static int depth;                                                                       // Depth of Mac frame buffer
128	<	static Window rootwin, the_win;                                         // Root window and our window
120	<	static XVisualInfo visualInfo;
121	<	static Visual *vis;
122	<	static Colormap cmap[2];                                                        // Two colormaps (DGA) for 8-bit mode
126	>	static Window rootwin;                                                          // Root window and our window
127	>	static int num_depths = 0;                                                      // Number of available X depths
128	>	static int *avail_depths = NULL;                                        // List of available X depths
129		static XColor black, white;
130		static unsigned long black_pixel, white_pixel;
131		static int eventmask;
126	–	static const int win_eventmask = KeyPressMask | KeyReleaseMask | ButtonPressMask | ButtonReleaseMask | PointerMotionMask | EnterWindowMask | ExposureMask;
127	–	static const int dga_eventmask = KeyPressMask | KeyReleaseMask | ButtonPressMask | ButtonReleaseMask | PointerMotionMask;
132
133	<	static XColor palette[256];                                                     // Color palette for 8-bit mode
134	<	static bool palette_changed = false;                            // Flag: Palette changed, redraw thread must set new colors
135	<	#ifdef HAVE_PTHREADS
136	<	static pthread_mutex_t palette_lock = PTHREAD_MUTEX_INITIALIZER;        // Mutex to protect palette
133	<	#endif
133	>	static int xdepth;                                                                      // Depth of X screen
134	>	static XVisualInfo visualInfo;
135	>	static Visual *vis;
136	>	static int color_class;
137
138	<	// Variables for window mode
136	<	static GC the_gc;
137	<	static XImage *img = NULL;
138	<	static XShmSegmentInfo shminfo;
139	<	static Cursor mac_cursor;
140	<	static uint8 *the_buffer_copy = NULL;                           // Copy of Mac frame buffer
141	<	static bool have_shm = false;                                           // Flag: SHM extensions available
142	<	static bool updt_box[17][17];                                           // Flag for Update
143	<	static int nr_boxes;
144	<	static const int sm_uptd[] = {4,1,6,3,0,5,2,7};
145	<	static int sm_no_boxes[] = {1,8,32,64,128,300};
138	>	static int rshift, rloss, gshift, gloss, bshift, bloss; // Pixel format of DirectColor/TrueColor modes
139
140	<	// Variables for XF86 DGA mode
148	<	static int current_dga_cmap;                                            // Number (0 or 1) of currently installed DGA colormap
149	<	static Window suspend_win;                                                      // "Suspend" window
150	<	static void *fb_save = NULL;                                            // Saved frame buffer for suspend
151	<	#ifdef HAVE_PTHREADS
152	<	static pthread_mutex_t frame_buffer_lock = PTHREAD_MUTEX_INITIALIZER;   // Mutex to protect frame buffer
153	<	#endif
140	>	static Colormap cmap[2] = {0, 0};                                       // Colormaps for indexed modes (DGA needs two of them)
141
142	<	// Variables for fbdev DGA mode
143	<	const char FBDEVICE_FILE_NAME[] = "/dev/fb";
144	<	static int fbdev_fd;
142	>	static XColor palette[256];                                                     // Color palette to be used as CLUT and gamma table
143	>	static bool palette_changed = false;                            // Flag: Palette changed, redraw thread must set new colors
144	>
145	>	#ifdef ENABLE_FBDEV_DGA
146	>	static int fbdev_fd = -1;
147	>	#endif
148
149		#ifdef ENABLE_XF86_VIDMODE
150	<	// Variables for XF86 VidMode support
161	<	static XF86VidModeModeInfo **x_video_modes;                     // Array of all available modes
150	>	static XF86VidModeModeInfo **x_video_modes = NULL;      // Array of all available modes
151		static int num_x_video_modes;
152		#endif
153
154	<	#ifdef ENABLE_VOSF
155	<	static bool use_vosf = true;                                            // Flag: VOSF enabled
154	>	// Mutex to protect palette
155	>	#ifdef HAVE_PTHREADS
156	>	static pthread_mutex_t palette_lock = PTHREAD_MUTEX_INITIALIZER;
157	>	#define LOCK_PALETTE pthread_mutex_lock(&palette_lock)
158	>	#define UNLOCK_PALETTE pthread_mutex_unlock(&palette_lock)
159		#else
160	<	static const bool use_vosf = false;                                     // Flag: VOSF enabled
160	>	#define LOCK_PALETTE
161	>	#define UNLOCK_PALETTE
162		#endif
163
164	<	#ifdef ENABLE_VOSF
172	<	static uint8 * the_host_buffer;                                         // Host frame buffer in VOSF mode
173	<	static uint32 the_buffer_size;                                          // Size of allocated the_buffer
174	<	#endif
175	<
176	<	#ifdef ENABLE_VOSF
177	<	// Variables for Video on SEGV support (taken from the Win32 port)
178	<	struct ScreenPageInfo {
179	<	int top, bottom;                    // Mapping between this virtual page and Mac scanlines
180	<	};
181	<
182	<	struct ScreenInfo {
183	<	uint32 memBase;                             // Real start address
184	<	uint32 memStart;                    // Start address aligned to page boundary
185	<	uint32 memEnd;                              // Address of one-past-the-end of the screen
186	<	uint32 memLength;                   // Length of the memory addressed by the screen pages
187	<
188	<	uint32 pageSize;                    // Size of a page
189	<	int pageBits;                               // Shift count to get the page number
190	<	uint32 pageCount;                   // Number of pages allocated to the screen
191	<
192	<	uint8 * dirtyPages;                 // Table of flags set if page was altered
193	<	ScreenPageInfo * pageInfo;  // Table of mappings page -> Mac scanlines
194	<	};
195	<
196	<	static ScreenInfo mainBuffer;
197	<
198	<	#define PFLAG_SET(page)                 mainBuffer.dirtyPages[page] = 1
199	<	#define PFLAG_CLEAR(page)               mainBuffer.dirtyPages[page] = 0
200	<	#define PFLAG_ISSET(page)               mainBuffer.dirtyPages[page]
201	<	#define PFLAG_ISCLEAR(page)             (mainBuffer.dirtyPages[page] == 0)
202	<	#ifdef UNALIGNED_PROFITABLE
203	<	# define PFLAG_ISCLEAR_4(page)  (*((uint32 *)(mainBuffer.dirtyPages + page)) == 0)
204	<	#else
205	<	# define PFLAG_ISCLEAR_4(page)  \
206	<	(mainBuffer.dirtyPages[page  ] == 0) \
207	<	&&      (mainBuffer.dirtyPages[page+1] == 0) \
208	<	&&      (mainBuffer.dirtyPages[page+2] == 0) \
209	<	&&      (mainBuffer.dirtyPages[page+3] == 0)
210	<	#endif
211	<	#define PFLAG_CLEAR_ALL                 memset(mainBuffer.dirtyPages, 0, mainBuffer.pageCount)
212	<	#define PFLAG_SET_ALL                   memset(mainBuffer.dirtyPages, 1, mainBuffer.pageCount)
213	<
214	<	static int zero_fd = -1;
215	<	static bool Screen_fault_handler_init();
216	<	static struct sigaction vosf_sa;
217	<
164	>	// Mutex to protect frame buffer
165		#ifdef HAVE_PTHREADS
166	<	static pthread_mutex_t Screen_draw_lock = PTHREAD_MUTEX_INITIALIZER;    // Mutex to protect frame buffer (dirtyPages in fact)
166	>	static pthread_mutex_t frame_buffer_lock = PTHREAD_MUTEX_INITIALIZER;
167	>	#define LOCK_FRAME_BUFFER pthread_mutex_lock(&frame_buffer_lock);
168	>	#define UNLOCK_FRAME_BUFFER pthread_mutex_unlock(&frame_buffer_lock);
169	>	#else
170	>	#define LOCK_FRAME_BUFFER
171	>	#define UNLOCK_FRAME_BUFFER
172		#endif
173
174	<	#endif
174	>	// Variables for non-VOSF incremental refresh
175	>	static const int sm_uptd[] = {4,1,6,3,0,5,2,7};
176	>	static int sm_no_boxes[] = {1,8,32,64,128,300};
177	>	static bool updt_box[17][17];
178	>	static int nr_boxes;
179
180	<	// VideoRefresh function
181	<	void VideoRefreshInit(void);
180	>	// Video refresh function
181	>	static void VideoRefreshInit(void);
182		static void (*video_refresh)(void);
183
184	+
185		// Prototypes
186		static void *redraw_func(void *arg);
230	–	static int event2keycode(XKeyEvent *ev);
231	–
187
188		// From main_unix.cpp
189		extern char *x_display_name;
#	Line 237 | Line 192 | extern Display *x_display;
192		// From sys_unix.cpp
193		extern void SysMountFirstFloppy(void);
194
240	–	#ifdef ENABLE_VOSF
241	–	# include "video_vosf.h"
242	–	#endif
243	–
195
196		/*
197	<	*  Initialization
197	>	*  Utility functions
198		*/
199
200	<	// Set VideoMonitor according to video mode
201	<	void set_video_monitor(int width, int height, int bytes_per_row, bool native_byte_order)
200	>	// Map RGB color to pixel value (this only works in TrueColor/DirectColor visuals)
201	>	static inline uint32 map_rgb(uint8 red, uint8 green, uint8 blue)
202		{
203	<	#if !REAL_ADDRESSING && !DIRECT_ADDRESSING
204	<	int layout = FLAYOUT_DIRECT;
203	>	return ((red >> rloss) << rshift) | ((green >> gloss) << gshift) | ((blue >> bloss) << bshift);
204	>	}
205	>
206	>	// Do we have a visual for handling the specified Mac depth? If so, set the
207	>	// global variables "xdepth", "visualInfo", "vis" and "color_class".
208	>	static bool find_visual_for_depth(video_depth depth)
209	>	{
210	>	D(bug("have_visual_for_depth(%d)\n", 1 << depth));
211	>
212	>	// 1-bit works always and uses default visual
213	>	if (depth == VDEPTH_1BIT) {
214	>	vis = DefaultVisual(x_display, screen);
215	>	visualInfo.visualid = XVisualIDFromVisual(vis);
216	>	int num = 0;
217	>	XVisualInfo *vi = XGetVisualInfo(x_display, VisualIDMask, &visualInfo, &num);
218	>	visualInfo = vi[0];
219	>	XFree(vi);
220	>	xdepth = visualInfo.depth;
221	>	color_class = visualInfo.c_class;
222	>	D(bug(" found visual ID 0x%02x, depth %d\n", visualInfo.visualid, xdepth));
223	>	return true;
224	>	}
225	>
226	>	// Calculate minimum and maximum supported X depth
227	>	int min_depth = 1, max_depth = 32;
228		switch (depth) {
229	<	case 1:
230	<	layout = FLAYOUT_DIRECT;
231	<	break;
232	<	case 8:
233	<	layout = FLAYOUT_DIRECT;
229	>	#ifdef ENABLE_VOSF
230	>	case VDEPTH_2BIT:
231	>	case VDEPTH_4BIT:       // VOSF blitters can convert 2/4/8-bit -> 8/16/32-bit
232	>	case VDEPTH_8BIT:
233	>	min_depth = 8;
234	>	max_depth = 32;
235		break;
236	<	case 15:
237	<	layout = FLAYOUT_HOST_555;
236	>	#else
237	>	case VDEPTH_2BIT:
238	>	case VDEPTH_4BIT:       // 2/4-bit requires VOSF blitters
239	>	return false;
240	>	case VDEPTH_8BIT:       // 8-bit without VOSF requires an 8-bit visual
241	>	min_depth = 8;
242	>	max_depth = 8;
243		break;
244	<	case 16:
245	<	layout = FLAYOUT_HOST_565;
244	>	#endif
245	>	case VDEPTH_16BIT:      // 16-bit requires a 15/16-bit visual
246	>	min_depth = 15;
247	>	max_depth = 16;
248		break;
249	<	case 24:
250	<	case 32:
251	<	layout = FLAYOUT_HOST_888;
249	>	case VDEPTH_32BIT:      // 32-bit requires a 24/32-bit visual
250	>	min_depth = 24;
251	>	max_depth = 32;
252		break;
253		}
254	+	D(bug(" minimum required X depth is %d, maximum supported X depth is %d\n", min_depth, max_depth));
255	+
256	+	// Try to find a visual for one of the color depths
257	+	bool visual_found = false;
258	+	for (int i=0; i<num_depths && !visual_found; i++) {
259	+
260	+	xdepth = avail_depths[i];
261	+	D(bug(" trying to find visual for depth %d\n", xdepth));
262	+	if (xdepth < min_depth || xdepth > max_depth)
263	+	continue;
264	+
265	+	// Determine best color class for this depth
266	+	switch (xdepth) {
267	+	case 1: // Try StaticGray or StaticColor
268	+	if (XMatchVisualInfo(x_display, screen, xdepth, StaticGray, &visualInfo)
269	+	|| XMatchVisualInfo(x_display, screen, xdepth, StaticColor, &visualInfo))
270	+	visual_found = true;
271	+	break;
272	+	case 8: // Need PseudoColor
273	+	if (XMatchVisualInfo(x_display, screen, xdepth, PseudoColor, &visualInfo))
274	+	visual_found = true;
275	+	break;
276	+	case 15:
277	+	case 16:
278	+	case 24:
279	+	case 32: // Try DirectColor first, as this will allow gamma correction
280	+	if (XMatchVisualInfo(x_display, screen, xdepth, DirectColor, &visualInfo)
281	+	|| XMatchVisualInfo(x_display, screen, xdepth, TrueColor, &visualInfo))
282	+	visual_found = true;
283	+	break;
284	+	default:
285	+	D(bug("  not a supported depth\n"));
286	+	break;
287	+	}
288	+	}
289	+	if (!visual_found)
290	+	return false;
291	+
292	+	// Visual was found
293	+	vis = visualInfo.visual;
294	+	color_class = visualInfo.c_class;
295	+	D(bug(" found visual ID 0x%02x, depth %d, class ", visualInfo.visualid, xdepth));
296	+	#if DEBUG
297	+	switch (color_class) {
298	+	case StaticGray: D(bug("StaticGray\n")); break;
299	+	case GrayScale: D(bug("GrayScale\n")); break;
300	+	case StaticColor: D(bug("StaticColor\n")); break;
301	+	case PseudoColor: D(bug("PseudoColor\n")); break;
302	+	case TrueColor: D(bug("TrueColor\n")); break;
303	+	case DirectColor: D(bug("DirectColor\n")); break;
304	+	}
305	+	#endif
306	+	return true;
307	+	}
308	+
309	+	// Add mode to list of supported modes
310	+	static void add_mode(uint32 width, uint32 height, uint32 resolution_id, uint32 bytes_per_row, video_depth depth)
311	+	{
312	+	video_mode mode;
313	+	mode.x = width;
314	+	mode.y = height;
315	+	mode.resolution_id = resolution_id;
316	+	mode.bytes_per_row = bytes_per_row;
317	+	mode.depth = depth;
318	+	VideoModes.push_back(mode);
319	+	}
320	+
321	+	// Add standard list of windowed modes for given color depth
322	+	static void add_window_modes(video_depth depth)
323	+	{
324	+	add_mode(512, 384, 0x80, TrivialBytesPerRow(512, depth), depth);
325	+	add_mode(640, 480, 0x81, TrivialBytesPerRow(640, depth), depth);
326	+	add_mode(800, 600, 0x82, TrivialBytesPerRow(800, depth), depth);
327	+	add_mode(1024, 768, 0x83, TrivialBytesPerRow(1024, depth), depth);
328	+	add_mode(1152, 870, 0x84, TrivialBytesPerRow(1152, depth), depth);
329	+	add_mode(1280, 1024, 0x85, TrivialBytesPerRow(1280, depth), depth);
330	+	add_mode(1600, 1200, 0x86, TrivialBytesPerRow(1600, depth), depth);
331	+	}
332	+
333	+	// Set Mac frame layout and base address (uses the_buffer/MacFrameBaseMac)
334	+	static void set_mac_frame_buffer(video_depth depth, bool native_byte_order)
335	+	{
336	+	#if !REAL_ADDRESSING && !DIRECT_ADDRESSING
337	+	int layout = FLAYOUT_DIRECT;
338	+	if (depth == VDEPTH_16BIT)
339	+	layout = (xdepth == 15) ? FLAYOUT_HOST_555 : FLAYOUT_HOST_565;
340	+	else if (depth == VDEPTH_32BIT)
341	+	layout = (xdepth == 24) ? FLAYOUT_HOST_888 : FLAYOUT_DIRECT;
342		if (native_byte_order)
343		MacFrameLayout = layout;
344		else
345		MacFrameLayout = FLAYOUT_DIRECT;
346	+	VideoMonitor.mac_frame_base = MacFrameBaseMac;
347	+
348	+	// Set variables used by UAE memory banking
349	+	MacFrameBaseHost = the_buffer;
350	+	MacFrameSize = VideoMonitor.mode.bytes_per_row * VideoMonitor.mode.y;
351	+	InitFrameBufferMapping();
352	+	#else
353	+	VideoMonitor.mac_frame_base = Host2MacAddr(the_buffer);
354		#endif
355	<	switch (depth) {
356	<	case 1:
357	<	VideoMonitor.mode = VMODE_1BIT;
358	<	break;
359	<	case 8:
360	<	VideoMonitor.mode = VMODE_8BIT;
361	<	break;
362	<	case 15:
363	<	VideoMonitor.mode = VMODE_16BIT;
364	<	break;
365	<	case 16:
366	<	VideoMonitor.mode = VMODE_16BIT;
367	<	break;
368	<	case 24:
369	<	case 32:
370	<	VideoMonitor.mode = VMODE_32BIT;
371	<	break;
355	>	D(bug("VideoMonitor.mac_frame_base = %08x\n", VideoMonitor.mac_frame_base));
356	>	}
357	>
358	>	// Set window name and class
359	>	static void set_window_name(Window w, int name)
360	>	{
361	>	const char *str = GetString(name);
362	>	XStoreName(x_display, w, str);
363	>	XSetIconName(x_display, w, str);
364	>
365	>	XClassHint *hints;
366	>	hints = XAllocClassHint();
367	>	if (hints) {
368	>	hints->res_name = "BasiliskII";
369	>	hints->res_class = "BasiliskII";
370	>	XSetClassHint(x_display, w, hints);
371	>	XFree(hints);
372		}
373	<	VideoMonitor.x = width;
374	<	VideoMonitor.y = height;
375	<	VideoMonitor.bytes_per_row = bytes_per_row;
373	>	}
374	>
375	>	// Set window input focus flag
376	>	static void set_window_focus(Window w)
377	>	{
378	>	XWMHints *hints = XAllocWMHints();
379	>	if (hints) {
380	>	hints->input = True;
381	>	hints->initial_state = NormalState;
382	>	hints->flags = InputHint | StateHint;
383	>	XSetWMHints(x_display, w, hints);
384	>	XFree(hints);
385	>	}
386	>	}
387	>
388	>	// Set WM_DELETE_WINDOW protocol on window (preventing it from being destroyed by the WM when clicking on the "close" widget)
389	>	static Atom WM_DELETE_WINDOW = (Atom)0;
390	>	static void set_window_delete_protocol(Window w)
391	>	{
392	>	WM_DELETE_WINDOW = XInternAtom(x_display, "WM_DELETE_WINDOW", false);
393	>	XSetWMProtocols(x_display, w, &WM_DELETE_WINDOW, 1);
394	>	}
395	>
396	>	// Wait until window is mapped/unmapped
397	>	void wait_mapped(Window w)
398	>	{
399	>	XEvent e;
400	>	do {
401	>	XMaskEvent(x_display, StructureNotifyMask, &e);
402	>	} while ((e.type != MapNotify) || (e.xmap.event != w));
403	>	}
404	>
405	>	void wait_unmapped(Window w)
406	>	{
407	>	XEvent e;
408	>	do {
409	>	XMaskEvent(x_display, StructureNotifyMask, &e);
410	>	} while ((e.type != UnmapNotify) || (e.xmap.event != w));
411		}
412
413		// Trap SHM errors
#	Line 310 | Line 423 | static int error_handler(Display *d, XEr
423		return old_error_handler(d, e);
424		}
425
426	<	// Init window mode
427	<	static bool init_window(int width, int height)
426	>
427	>	/*
428	>	*  Display "driver" classes
429	>	*/
430	>
431	>	class driver_base {
432	>	public:
433	>	driver_base();
434	>	virtual ~driver_base();
435	>
436	>	virtual void update_palette(void);
437	>	virtual void suspend(void) {}
438	>	virtual void resume(void) {}
439	>	virtual void toggle_mouse_grab(void) {}
440	>	virtual void mouse_moved(int x, int y) { ADBMouseMoved(x, y); }
441	>
442	>	void disable_mouse_accel(void);
443	>	void restore_mouse_accel(void);
444	>
445	>	virtual void grab_mouse(void) {}
446	>	virtual void ungrab_mouse(void) {}
447	>
448	>	public:
449	>	bool init_ok;   // Initialization succeeded (we can't use exceptions because of -fomit-frame-pointer)
450	>	Window w;               // The window we draw into
451	>
452	>	int orig_accel_numer, orig_accel_denom, orig_threshold; // Original mouse acceleration
453	>	};
454	>
455	>	class driver_window;
456	>	static void update_display_window_vosf(driver_window *drv);
457	>	static void update_display_dynamic(int ticker, driver_window *drv);
458	>	static void update_display_static(driver_window *drv);
459	>
460	>	class driver_window : public driver_base {
461	>	friend void update_display_window_vosf(driver_window *drv);
462	>	friend void update_display_dynamic(int ticker, driver_window *drv);
463	>	friend void update_display_static(driver_window *drv);
464	>
465	>	public:
466	>	driver_window(const video_mode &mode);
467	>	~driver_window();
468	>
469	>	void toggle_mouse_grab(void);
470	>	void mouse_moved(int x, int y);
471	>
472	>	void grab_mouse(void);
473	>	void ungrab_mouse(void);
474	>
475	>	private:
476	>	GC gc;
477	>	XImage *img;
478	>	bool have_shm;                                  // Flag: SHM extensions available
479	>	XShmSegmentInfo shminfo;
480	>	Cursor mac_cursor;
481	>	bool mouse_grabbed;                             // Flag: mouse pointer grabbed, using relative mouse mode
482	>	int mouse_last_x, mouse_last_y; // Last mouse position (for relative mode)
483	>	};
484	>
485	>	static driver_base *drv = NULL; // Pointer to currently used driver object
486	>
487	>	#ifdef ENABLE_VOSF
488	>	# include "video_vosf.h"
489	>	#endif
490	>
491	>	driver_base::driver_base()
492	>	: init_ok(false), w(0)
493	>	{
494	>	the_buffer = NULL;
495	>	the_buffer_copy = NULL;
496	>	XGetPointerControl(x_display, &orig_accel_numer, &orig_accel_denom, &orig_threshold);
497	>	}
498	>
499	>	driver_base::~driver_base()
500	>	{
501	>	ungrab_mouse();
502	>	restore_mouse_accel();
503	>
504	>	if (w) {
505	>	XUnmapWindow(x_display, w);
506	>	wait_unmapped(w);
507	>	XDestroyWindow(x_display, w);
508	>	}
509	>
510	>	XFlush(x_display);
511	>	XSync(x_display, false);
512	>
513	>	// Free frame buffer(s)
514	>	if (!use_vosf) {
515	>	if (the_buffer) {
516	>	free(the_buffer);
517	>	the_buffer = NULL;
518	>	}
519	>	if (the_buffer_copy) {
520	>	free(the_buffer_copy);
521	>	the_buffer_copy = NULL;
522	>	}
523	>	}
524	>	#ifdef ENABLE_VOSF
525	>	else {
526	>	if (the_host_buffer) {
527	>	D(bug(" freeing the_host_buffer at %p\n", the_host_buffer));
528	>	free(the_host_buffer);
529	>	the_host_buffer = NULL;
530	>	}
531	>	if (the_buffer) {
532	>	D(bug(" freeing the_buffer at %p\n", the_buffer));
533	>	free(the_buffer);
534	>	the_buffer = NULL;
535	>	}
536	>	if (the_buffer_copy) {
537	>	D(bug(" freeing the_buffer_copy at %p\n", the_buffer_copy));
538	>	free(the_buffer_copy);
539	>	the_buffer_copy = NULL;
540	>	}
541	>	}
542	>	#endif
543	>	}
544	>
545	>	// Palette has changed
546	>	void driver_base::update_palette(void)
547		{
548	+	if (color_class == PseudoColor || color_class == DirectColor) {
549	+	int num = vis->map_entries;
550	+	if (!IsDirectMode(VideoMonitor.mode) && color_class == DirectColor)
551	+	return; // Indexed mode on true color screen, don't set CLUT
552	+	XStoreColors(x_display, cmap[0], palette, num);
553	+	XStoreColors(x_display, cmap[1], palette, num);
554	+	}
555	+	XSync(x_display, false);
556	+	}
557	+
558	+	// Disable mouse acceleration
559	+	void driver_base::disable_mouse_accel(void)
560	+	{
561	+	XChangePointerControl(x_display, True, False, 1, 1, 0);
562	+	}
563	+
564	+	// Restore mouse acceleration to original value
565	+	void driver_base::restore_mouse_accel(void)
566	+	{
567	+	XChangePointerControl(x_display, True, True, orig_accel_numer, orig_accel_denom, orig_threshold);
568	+	}
569	+
570	+
571	+	/*
572	+	*  Windowed display driver
573	+	*/
574	+
575	+	// Open display
576	+	driver_window::driver_window(const video_mode &mode)
577	+	: gc(0), img(NULL), have_shm(false), mac_cursor(0), mouse_grabbed(false)
578	+	{
579	+	int width = mode.x, height = mode.y;
580		int aligned_width = (width + 15) & ~15;
581		int aligned_height = (height + 15) & ~15;
582
583		// Set absolute mouse mode
584	<	ADBSetRelMouseMode(false);
584	>	ADBSetRelMouseMode(mouse_grabbed);
585
586	<	// Read frame skip prefs
587	<	frame_skip = PrefsFindInt32("frameskip");
588	<
325	<	// Create window
586	>	// Create window (setting backround_pixel, border_pixel and colormap is
587	>	// mandatory when using a non-default visual; in 1-bit mode we use the
588	>	// default visual, so we can also use the default colormap)
589		XSetWindowAttributes wattr;
590		wattr.event_mask = eventmask = win_eventmask;
591	<	wattr.background_pixel = black_pixel;
592	<	wattr.border_pixel = black_pixel;
593	<	wattr.backing_store = NotUseful;
594	<	wattr.save_under = false;
595	<	wattr.backing_planes = xdepth;
591	>	wattr.background_pixel = (vis == DefaultVisual(x_display, screen) ? black_pixel : 0);
592	>	wattr.border_pixel = 0;
593	>	wattr.colormap = (mode.depth == VDEPTH_1BIT ? DefaultColormap(x_display, screen) : cmap[0]);
594	>	w = XCreateWindow(x_display, rootwin, 0, 0, width, height, 0, xdepth,
595	>	InputOutput, vis, CWEventMask | CWBackPixel | CWBorderPixel | CWColormap, &wattr);
596	>	D(bug(" window created\n"));
597
598	<	XSync(x_display, false);
599	<	the_win = XCreateWindow(x_display, rootwin, 0, 0, width, height, 0, xdepth,
336	<	InputOutput, vis, CWEventMask | CWBackPixel | CWBorderPixel |
337	<	CWBackingStore | CWBackingPlanes, &wattr);
338	<	XSync(x_display, false);
339	<	XStoreName(x_display, the_win, GetString(STR_WINDOW_TITLE));
340	<	XMapRaised(x_display, the_win);
341	<	XSync(x_display, false);
598	>	// Set window name/class
599	>	set_window_name(w, STR_WINDOW_TITLE);
600
601	<	// Set colormap
602	<	if (depth == 8) {
603	<	XSetWindowColormap(x_display, the_win, cmap[0]);
604	<	XSetWMColormapWindows(x_display, the_win, &the_win, 1);
605	<	}
601	>	// Indicate that we want keyboard input
602	>	set_window_focus(w);
603	>
604	>	// Set delete protocol property
605	>	set_window_delete_protocol(w);
606
607		// Make window unresizable
608	<	XSizeHints *hints;
609	<	if ((hints = XAllocSizeHints()) != NULL) {
610	<	hints->min_width = width;
611	<	hints->max_width = width;
612	<	hints->min_height = height;
613	<	hints->max_height = height;
614	<	hints->flags = PMinSize | PMaxSize;
615	<	XSetWMNormalHints(x_display, the_win, hints);
616	<	XFree((char *)hints);
617	<	}
618	<
608	>	{
609	>	XSizeHints *hints = XAllocSizeHints();
610	>	if (hints) {
611	>	hints->min_width = width;
612	>	hints->max_width = width;
613	>	hints->min_height = height;
614	>	hints->max_height = height;
615	>	hints->flags = PMinSize | PMaxSize;
616	>	XSetWMNormalHints(x_display, w, hints);
617	>	XFree(hints);
618	>	}
619	>	}
620	>	D(bug(" window attributes set\n"));
621	>
622	>	// Show window
623	>	XMapWindow(x_display, w);
624	>	wait_mapped(w);
625	>	D(bug(" window mapped\n"));
626	>
627	>	// 1-bit mode is big-endian; if the X server is little-endian, we can't
628	>	// use SHM because that doesn't allow changing the image byte order
629	>	bool need_msb_image = (mode.depth == VDEPTH_1BIT && XImageByteOrder(x_display) == LSBFirst);
630	>
631		// Try to create and attach SHM image
632	<	have_shm = false;
363	<	if (depth != 1 && local_X11 && XShmQueryExtension(x_display)) {
632	>	if (local_X11 && !need_msb_image && XShmQueryExtension(x_display)) {
633
634		// Create SHM image ("height + 2" for safety)
635	<	img = XShmCreateImage(x_display, vis, depth, depth == 1 ? XYBitmap : ZPixmap, 0, &shminfo, width, height);
635	>	img = XShmCreateImage(x_display, vis, mode.depth == VDEPTH_1BIT ? 1 : xdepth, mode.depth == VDEPTH_1BIT ? XYBitmap : ZPixmap, 0, &shminfo, width, height);
636	>	D(bug(" shm image created\n"));
637		shminfo.shmid = shmget(IPC_PRIVATE, (aligned_height + 2) * img->bytes_per_line, IPC_CREAT | 0777);
638		the_buffer_copy = (uint8 *)shmat(shminfo.shmid, 0, 0);
639		shminfo.shmaddr = img->data = (char *)the_buffer_copy;
#	Line 378 | Line 648 | static bool init_window(int width, int h
648		if (shm_error) {
649		shmdt(shminfo.shmaddr);
650		XDestroyImage(img);
651	+	img = NULL;
652		shminfo.shmid = -1;
653		} else {
654		have_shm = true;
655		shmctl(shminfo.shmid, IPC_RMID, 0);
656		}
657	+	D(bug(" shm image attached\n"));
658		}
659
660		// Create normal X image if SHM doesn't work ("height + 2" for safety)
661		if (!have_shm) {
662	<	int bytes_per_row = aligned_width;
391	<	switch (depth) {
392	<	case 1:
393	<	bytes_per_row /= 8;
394	<	break;
395	<	case 15:
396	<	case 16:
397	<	bytes_per_row *= 2;
398	<	break;
399	<	case 24:
400	<	case 32:
401	<	bytes_per_row *= 4;
402	<	break;
403	<	}
662	>	int bytes_per_row = (mode.depth == VDEPTH_1BIT ? aligned_width/8 : TrivialBytesPerRow(aligned_width, DepthModeForPixelDepth(xdepth)));
663		the_buffer_copy = (uint8 *)malloc((aligned_height + 2) * bytes_per_row);
664	<	img = XCreateImage(x_display, vis, depth, depth == 1 ? XYBitmap : ZPixmap, 0, (char *)the_buffer_copy, aligned_width, aligned_height, 32, bytes_per_row);
664	>	img = XCreateImage(x_display, vis, mode.depth == VDEPTH_1BIT ? 1 : xdepth, mode.depth == VDEPTH_1BIT ? XYBitmap : ZPixmap, 0, (char *)the_buffer_copy, aligned_width, aligned_height, 32, bytes_per_row);
665	>	D(bug(" X image created\n"));
666		}
667
668	<	// 1-Bit mode is big-endian
409	<	if (depth == 1) {
668	>	if (need_msb_image) {
669		img->byte_order = MSBFirst;
670		img->bitmap_bit_order = MSBFirst;
671		}
672
673		#ifdef ENABLE_VOSF
674	<	// Allocate a page-aligned chunk of memory for frame buffer
675	<	the_buffer_size = align_on_page_boundary((aligned_height + 2) * img->bytes_per_line);
674	>	use_vosf = true;
675	>	// Allocate memory for frame buffer (SIZE is extended to page-boundary)
676		the_host_buffer = the_buffer_copy;
677	<
678	<	the_buffer_copy = (uint8 *)allocate_framebuffer(the_buffer_size);
679	<	memset(the_buffer_copy, 0, the_buffer_size);
680	<
422	<	the_buffer = (uint8 *)allocate_framebuffer(the_buffer_size);
423	<	memset(the_buffer, 0, the_buffer_size);
677	>	the_buffer_size = page_extend((aligned_height + 2) * img->bytes_per_line);
678	>	the_buffer_copy = (uint8 *)vm_acquire(the_buffer_size);
679	>	the_buffer = (uint8 *)vm_acquire(the_buffer_size);
680	>	D(bug("the_buffer = %p, the_buffer_copy = %p, the_host_buffer = %p\n", the_buffer, the_buffer_copy, the_host_buffer));
681		#else
682		// Allocate memory for frame buffer
683		the_buffer = (uint8 *)malloc((aligned_height + 2) * img->bytes_per_line);
684	+	D(bug("the_buffer = %p, the_buffer_copy = %p\n", the_buffer, the_buffer_copy));
685		#endif
686
687		// Create GC
688	<	the_gc = XCreateGC(x_display, the_win, 0, 0);
689	<	XSetState(x_display, the_gc, black_pixel, white_pixel, GXcopy, AllPlanes);
688	>	gc = XCreateGC(x_display, w, 0, 0);
689	>	XSetState(x_display, gc, black_pixel, white_pixel, GXcopy, AllPlanes);
690
691		// Create no_cursor
692		mac_cursor = XCreatePixmapCursor(x_display,
693	<	XCreatePixmap(x_display, the_win, 1, 1, 1),
694	<	XCreatePixmap(x_display, the_win, 1, 1, 1),
693	>	XCreatePixmap(x_display, w, 1, 1, 1),
694	>	XCreatePixmap(x_display, w, 1, 1, 1),
695		&black, &white, 0, 0);
696	<	XDefineCursor(x_display, the_win, mac_cursor);
696	>	XDefineCursor(x_display, w, mac_cursor);
697
698	<	// Set VideoMonitor
698	>	// Init blitting routines
699		bool native_byte_order;
700		#ifdef WORDS_BIGENDIAN
701	<	native_byte_order = (img->bitmap_bit_order == MSBFirst);
701	>	native_byte_order = (XImageByteOrder(x_display) == MSBFirst);
702		#else
703	<	native_byte_order = (img->bitmap_bit_order == LSBFirst);
703	>	native_byte_order = (XImageByteOrder(x_display) == LSBFirst);
704		#endif
705		#ifdef ENABLE_VOSF
706	<	do_update_framebuffer = GET_FBCOPY_FUNC(depth, native_byte_order, DISPLAY_WINDOW);
706	>	Screen_blitter_init(&visualInfo, native_byte_order, mode.depth);
707		#endif
708	<	set_video_monitor(width, height, img->bytes_per_line, native_byte_order);
709	<
710	<	#if REAL_ADDRESSING || DIRECT_ADDRESSING
711	<	VideoMonitor.mac_frame_base = Host2MacAddr(the_buffer);
708	>
709	>	// Set VideoMonitor
710	>	VideoMonitor.mode = mode;
711	>	set_mac_frame_buffer(mode.depth, native_byte_order);
712	>
713	>	// Everything went well
714	>	init_ok = true;
715	>	}
716	>
717	>	// Close display
718	>	driver_window::~driver_window()
719	>	{
720	>	if (have_shm) {
721	>	XShmDetach(x_display, &shminfo);
722	>	#ifdef ENABLE_VOSF
723	>	the_host_buffer = NULL; // don't free() in driver_base dtor
724		#else
725	<	VideoMonitor.mac_frame_base = MacFrameBaseMac;
725	>	the_buffer_copy = NULL; // don't free() in driver_base dtor
726		#endif
727	<	return true;
727	>	}
728	>	#ifdef ENABLE_VOSF
729	>	if (use_vosf) {
730	>	// don't free() memory mapped buffers in driver_base dtor
731	>	if (the_buffer != VM_MAP_FAILED) {
732	>	D(bug(" releasing the_buffer at %p\n", the_buffer));
733	>	vm_release(the_buffer, the_buffer_size);
734	>	the_buffer = NULL;
735	>	}
736	>	if (the_buffer_copy != VM_MAP_FAILED) {
737	>	D(bug(" releasing the_buffer_copy at %p\n", the_buffer_copy));
738	>	vm_release(the_buffer_copy, the_buffer_size);
739	>	the_buffer_copy = NULL;
740	>	}
741	>	}
742	>	#endif
743	>	if (img) {
744	>	if (!have_shm)
745	>	img->data = NULL;
746	>	XDestroyImage(img);
747	>	}
748	>	if (have_shm) {
749	>	shmdt(shminfo.shmaddr);
750	>	shmctl(shminfo.shmid, IPC_RMID, 0);
751	>	}
752	>	if (gc)
753	>	XFreeGC(x_display, gc);
754	>	}
755	>
756	>	// Toggle mouse grab
757	>	void driver_window::toggle_mouse_grab(void)
758	>	{
759	>	if (mouse_grabbed)
760	>	ungrab_mouse();
761	>	else
762	>	grab_mouse();
763	>	}
764	>
765	>	// Grab mouse, switch to relative mouse mode
766	>	void driver_window::grab_mouse(void)
767	>	{
768	>	int result;
769	>	for (int i=0; i<10; i++) {
770	>	result = XGrabPointer(x_display, w, True, 0,
771	>	GrabModeAsync, GrabModeAsync, w, None, CurrentTime);
772	>	if (result != AlreadyGrabbed)
773	>	break;
774	>	Delay_usec(100000);
775	>	}
776	>	if (result == GrabSuccess) {
777	>	XStoreName(x_display, w, GetString(STR_WINDOW_TITLE_GRABBED));
778	>	ADBSetRelMouseMode(mouse_grabbed = true);
779	>	disable_mouse_accel();
780	>	}
781	>	}
782	>
783	>	// Ungrab mouse, switch to absolute mouse mode
784	>	void driver_window::ungrab_mouse(void)
785	>	{
786	>	if (mouse_grabbed) {
787	>	XUngrabPointer(x_display, CurrentTime);
788	>	XStoreName(x_display, w, GetString(STR_WINDOW_TITLE));
789	>	ADBSetRelMouseMode(mouse_grabbed = false);
790	>	restore_mouse_accel();
791	>	}
792	>	}
793	>
794	>	// Mouse moved
795	>	void driver_window::mouse_moved(int x, int y)
796	>	{
797	>	if (!mouse_grabbed) {
798	>	mouse_last_x = x; mouse_last_y = y;
799	>	ADBMouseMoved(x, y);
800	>	return;
801	>	}
802	>
803	>	// Warped mouse motion (this code is taken from SDL)
804	>
805	>	// Post first mouse event
806	>	int width = VideoMonitor.mode.x, height = VideoMonitor.mode.y;
807	>	int delta_x = x - mouse_last_x, delta_y = y - mouse_last_y;
808	>	mouse_last_x = x; mouse_last_y = y;
809	>	ADBMouseMoved(delta_x, delta_y);
810	>
811	>	// Only warp the pointer when it has reached the edge
812	>	const int MOUSE_FUDGE_FACTOR = 8;
813	>	if (x < MOUSE_FUDGE_FACTOR || x > (width - MOUSE_FUDGE_FACTOR)
814	>	|| y < MOUSE_FUDGE_FACTOR || y > (height - MOUSE_FUDGE_FACTOR)) {
815	>	XEvent event;
816	>	while (XCheckTypedEvent(x_display, MotionNotify, &event)) {
817	>	delta_x = x - mouse_last_x; delta_y = y - mouse_last_y;
818	>	mouse_last_x = x; mouse_last_y = y;
819	>	ADBMouseMoved(delta_x, delta_y);
820	>	}
821	>	mouse_last_x = width/2;
822	>	mouse_last_y = height/2;
823	>	XWarpPointer(x_display, None, w, 0, 0, 0, 0, mouse_last_x, mouse_last_y);
824	>	for (int i=0; i<10; i++) {
825	>	XMaskEvent(x_display, PointerMotionMask, &event);
826	>	if (event.xmotion.x > (mouse_last_x - MOUSE_FUDGE_FACTOR)
827	>	&& event.xmotion.x < (mouse_last_x + MOUSE_FUDGE_FACTOR)
828	>	&& event.xmotion.y > (mouse_last_y - MOUSE_FUDGE_FACTOR)
829	>	&& event.xmotion.y < (mouse_last_y + MOUSE_FUDGE_FACTOR))
830	>	break;
831	>	}
832	>	}
833	>	}
834	>
835	>
836	>	#if defined(ENABLE_XF86_DGA) || defined(ENABLE_FBDEV_DGA)
837	>	/*
838	>	*  DGA display driver base class
839	>	*/
840	>
841	>	class driver_dga : public driver_base {
842	>	public:
843	>	driver_dga();
844	>	~driver_dga();
845	>
846	>	void suspend(void);
847	>	void resume(void);
848	>
849	>	private:
850	>	Window suspend_win;             // "Suspend" information window
851	>	void *fb_save;                  // Saved frame buffer for suspend/resume
852	>	};
853	>
854	>	driver_dga::driver_dga()
855	>	: suspend_win(0), fb_save(NULL)
856	>	{
857	>	}
858	>
859	>	driver_dga::~driver_dga()
860	>	{
861	>	XUngrabPointer(x_display, CurrentTime);
862	>	XUngrabKeyboard(x_display, CurrentTime);
863	>	}
864	>
865	>	// Suspend emulation
866	>	void driver_dga::suspend(void)
867	>	{
868	>	// Release ctrl key
869	>	ADBKeyUp(0x36);
870	>	ctrl_down = false;
871	>
872	>	// Lock frame buffer (this will stop the MacOS thread)
873	>	LOCK_FRAME_BUFFER;
874	>
875	>	// Save frame buffer
876	>	fb_save = malloc(VideoMonitor.mode.y * VideoMonitor.mode.bytes_per_row);
877	>	if (fb_save)
878	>	memcpy(fb_save, the_buffer, VideoMonitor.mode.y * VideoMonitor.mode.bytes_per_row);
879	>
880	>	// Close full screen display
881	>	#ifdef ENABLE_XF86_DGA
882	>	XF86DGADirectVideo(x_display, screen, 0);
883	>	#endif
884	>	XUngrabPointer(x_display, CurrentTime);
885	>	XUngrabKeyboard(x_display, CurrentTime);
886	>	restore_mouse_accel();
887	>	XUnmapWindow(x_display, w);
888	>	wait_unmapped(w);
889	>
890	>	// Open "suspend" window
891	>	XSetWindowAttributes wattr;
892	>	wattr.event_mask = KeyPressMask;
893	>	wattr.background_pixel = black_pixel;
894	>
895	>	suspend_win = XCreateWindow(x_display, rootwin, 0, 0, 512, 1, 0, xdepth,
896	>	InputOutput, vis, CWEventMask | CWBackPixel, &wattr);
897	>	set_window_name(suspend_win, STR_SUSPEND_WINDOW_TITLE);
898	>	set_window_focus(suspend_win);
899	>	XMapWindow(x_display, suspend_win);
900	>	emul_suspended = true;
901		}
902
903	<	// Init fbdev DGA display
904	<	static bool init_fbdev_dga(char *in_fb_name)
903	>	// Resume emulation
904	>	void driver_dga::resume(void)
905		{
906	+	// Close "suspend" window
907	+	XDestroyWindow(x_display, suspend_win);
908	+	XSync(x_display, false);
909	+
910	+	// Reopen full screen display
911	+	XMapRaised(x_display, w);
912	+	wait_mapped(w);
913	+	XWarpPointer(x_display, None, rootwin, 0, 0, 0, 0, 0, 0);
914	+	XGrabKeyboard(x_display, rootwin, True, GrabModeAsync, GrabModeAsync, CurrentTime);
915	+	XGrabPointer(x_display, rootwin, True, PointerMotionMask | ButtonPressMask | ButtonReleaseMask, GrabModeAsync, GrabModeAsync, None, None, CurrentTime);
916	+	disable_mouse_accel();
917	+	#ifdef ENABLE_XF86_DGA
918	+	XF86DGADirectVideo(x_display, screen, XF86DGADirectGraphics | XF86DGADirectKeyb | XF86DGADirectMouse);
919	+	XF86DGASetViewPort(x_display, screen, 0, 0);
920	+	#endif
921	+	XSync(x_display, false);
922	+
923	+	// the_buffer already contains the data to restore. i.e. since a temporary
924	+	// frame buffer is used when VOSF is actually used, fb_save is therefore
925	+	// not necessary.
926	+	#ifdef ENABLE_VOSF
927	+	if (use_vosf) {
928	+	LOCK_VOSF;
929	+	PFLAG_SET_ALL;
930	+	UNLOCK_VOSF;
931	+	memset(the_buffer_copy, 0, VideoMonitor.mode.bytes_per_row * VideoMonitor.mode.y);
932	+	}
933	+	#endif
934	+
935	+	// Restore frame buffer
936	+	if (fb_save) {
937	+	#ifdef ENABLE_VOSF
938	+	// Don't copy fb_save to the temporary frame buffer in VOSF mode
939	+	if (!use_vosf)
940	+	#endif
941	+	memcpy(the_buffer, fb_save, VideoMonitor.mode.y * VideoMonitor.mode.bytes_per_row);
942	+	free(fb_save);
943	+	fb_save = NULL;
944	+	}
945	+
946	+	// Unlock frame buffer (and continue MacOS thread)
947	+	UNLOCK_FRAME_BUFFER;
948	+	emul_suspended = false;
949	+	}
950	+	#endif
951	+
952	+
953		#ifdef ENABLE_FBDEV_DGA
954	+	/*
955	+	*  fbdev DGA display driver
956	+	*/
957	+
958	+	const char FBDEVICES_FILE_NAME[] = DATADIR "/fbdevices";
959	+	const char FBDEVICE_FILE_NAME[] = "/dev/fb";
960	+
961	+	class driver_fbdev : public driver_dga {
962	+	public:
963	+	driver_fbdev(const video_mode &mode);
964	+	~driver_fbdev();
965	+	};
966	+
967	+	// Open display
968	+	driver_fbdev::driver_fbdev(const video_mode &mode)
969	+	{
970	+	int width = mode.x, height = mode.y;
971	+
972	+	// Set absolute mouse mode
973	+	ADBSetRelMouseMode(false);
974	+
975		// Find the maximum depth available
976		int ndepths, max_depth(0);
977		int *depths = XListDepths(x_display, screen, &ndepths);
978		if (depths == NULL) {
979		printf("FATAL: Could not determine the maximal depth available\n");
980	<	return false;
980	>	return;
981		} else {
982		while (ndepths-- > 0) {
983		if (depths[ndepths] > max_depth)
#	Line 483 | Line 994 | static bool init_fbdev_dga(char *in_fb_n
994		char str[256];
995		sprintf(str, GetString(STR_NO_FBDEVICE_FILE_ERR), fbd_path ? fbd_path : FBDEVICES_FILE_NAME, strerror(errno));
996		ErrorAlert(str);
997	<	return false;
997	>	return;
998		}
999
1000		int fb_depth;           // supported depth
#	Line 503 | Line 1014 | static bool init_fbdev_dga(char *in_fb_n
1014		continue;
1015
1016		if ((sscanf(line, "%19s %d %x", &fb_name, &fb_depth, &fb_offset) == 3)
1017	<	&& (strcmp(fb_name, in_fb_name) == 0) && (fb_depth == max_depth)) {
1017	>	&& (strcmp(fb_name, fb_name) == 0) && (fb_depth == max_depth)) {
1018		device_found = true;
1019		break;
1020		}
#	Line 515 | Line 1026 | static bool init_fbdev_dga(char *in_fb_n
1026		// Frame buffer name not found ? Then, display warning
1027		if (!device_found) {
1028		char str[256];
1029	<	sprintf(str, GetString(STR_FBDEV_NAME_ERR), in_fb_name, max_depth);
1029	>	sprintf(str, GetString(STR_FBDEV_NAME_ERR), fb_name, max_depth);
1030		ErrorAlert(str);
1031	<	return false;
1031	>	return;
1032		}
1033
523	–	int width = DisplayWidth(x_display, screen);
524	–	int height = DisplayHeight(x_display, screen);
525	–	depth = fb_depth; // max_depth
526	–
527	–	// Set relative mouse mode
528	–	ADBSetRelMouseMode(false);
529	–
1034		// Create window
1035		XSetWindowAttributes wattr;
1036	<	wattr.override_redirect = True;
1037	<	wattr.backing_store             = NotUseful;
1038	<	wattr.background_pixel  = white_pixel;
1039	<	wattr.border_pixel              = black_pixel;
536	<	wattr.event_mask                = eventmask = dga_eventmask;
1036	>	wattr.event_mask = eventmask = dga_eventmask;
1037	>	wattr.background_pixel = white_pixel;
1038	>	wattr.override_redirect = True;
1039	>	wattr.colormap = cmap[0];
1040
1041	<	XSync(x_display, false);
539	<	the_win = XCreateWindow(x_display, rootwin,
1041	>	w = XCreateWindow(x_display, rootwin,
1042		0, 0, width, height,
1043		0, xdepth, InputOutput, vis,
1044	<	CWEventMask|CWBackPixel|CWBorderPixel|CWOverrideRedirect|CWBackingStore,
1044	>	CWEventMask | CWBackPixel | CWOverrideRedirect | (fb_depth <= 8 ? CWColormap : 0),
1045		&wattr);
1046	<	XSync(x_display, false);
1047	<	XMapRaised(x_display, the_win);
1048	<	XSync(x_display, false);
1046	>
1047	>	// Set window name/class
1048	>	set_window_name(w, STR_WINDOW_TITLE);
1049	>
1050	>	// Indicate that we want keyboard input
1051	>	set_window_focus(w);
1052	>
1053	>	// Show window
1054	>	XMapRaised(x_display, w);
1055	>	wait_mapped(w);
1056
1057		// Grab mouse and keyboard
1058	<	XGrabKeyboard(x_display, the_win, True,
1058	>	XGrabKeyboard(x_display, w, True,
1059		GrabModeAsync, GrabModeAsync, CurrentTime);
1060	<	XGrabPointer(x_display, the_win, True,
1060	>	XGrabPointer(x_display, w, True,
1061		PointerMotionMask | ButtonPressMask | ButtonReleaseMask,
1062	<	GrabModeAsync, GrabModeAsync, the_win, None, CurrentTime);
1062	>	GrabModeAsync, GrabModeAsync, w, None, CurrentTime);
1063	>	disable_mouse_accel();
1064
1065	<	// Set colormap
1066	<	if (depth == 8) {
557	<	XSetWindowColormap(x_display, the_win, cmap[0]);
558	<	XSetWMColormapWindows(x_display, the_win, &the_win, 1);
559	<	}
1065	>	// Calculate bytes per row
1066	>	int bytes_per_row = TrivialBytesPerRow(mode.x, mode.depth);
1067
1068	<	// Set VideoMonitor
1069	<	int bytes_per_row = width;
1070	<	switch (depth) {
1071	<	case 1:
565	<	bytes_per_row = ((width | 7) & ~7) >> 3;
566	<	break;
567	<	case 15:
568	<	case 16:
569	<	bytes_per_row *= 2;
570	<	break;
571	<	case 24:
572	<	case 32:
573	<	bytes_per_row *= 4;
574	<	break;
575	<	}
576	<
577	<	if ((the_buffer = (uint8 *) mmap(NULL, height * bytes_per_row, PROT_READ | PROT_WRITE, MAP_PRIVATE, fbdev_fd, fb_offset)) == MAP_FAILED) {
578	<	if ((the_buffer = (uint8 *) mmap(NULL, height * bytes_per_row, PROT_READ | PROT_WRITE, MAP_SHARED, fbdev_fd, fb_offset)) == MAP_FAILED) {
1068	>	// Map frame buffer
1069	>	the_buffer_size = height * bytes_per_row;
1070	>	if ((the_buffer = (uint8 *) mmap(NULL, the_buffer_size, PROT_READ | PROT_WRITE, MAP_PRIVATE, fbdev_fd, fb_offset)) == MAP_FAILED) {
1071	>	if ((the_buffer = (uint8 *) mmap(NULL, the_buffer_size, PROT_READ | PROT_WRITE, MAP_SHARED, fbdev_fd, fb_offset)) == MAP_FAILED) {
1072		char str[256];
1073		sprintf(str, GetString(STR_FBDEV_MMAP_ERR), strerror(errno));
1074		ErrorAlert(str);
1075	<	return false;
1075	>	return;
1076		}
1077		}
1078
1079	+	#if ENABLE_VOSF
1080		#if REAL_ADDRESSING || DIRECT_ADDRESSING
1081	<	// If the blit function is null, i.e. just a copy of the buffer,
1082	<	// we first try to avoid the allocation of a temporary frame buffer
1083	<	use_vosf = true;
590	<	do_update_framebuffer = GET_FBCOPY_FUNC(depth, true, DISPLAY_DGA);
591	<	if (do_update_framebuffer == FBCOPY_FUNC(fbcopy_raw))
592	<	use_vosf = false;
1081	>	// Screen_blitter_init() returns TRUE if VOSF is mandatory
1082	>	// i.e. the framebuffer update function is not Blit_Copy_Raw
1083	>	use_vosf = Screen_blitter_init(&visualInfo, true, mode.depth);
1084
1085		if (use_vosf) {
1086	<	the_host_buffer = the_buffer;
1087	<	the_buffer_size = align_on_page_boundary((height + 2) * bytes_per_row);
1088	<	the_buffer_copy = (uint8 *)malloc(the_buffer_size);
1089	<	memset(the_buffer_copy, 0, the_buffer_size);
1090	<	the_buffer = (uint8 *)allocate_framebuffer(the_buffer_size);
600	<	memset(the_buffer, 0, the_buffer_size);
1086	>	// Allocate memory for frame buffer (SIZE is extended to page-boundary)
1087	>	the_host_buffer = the_buffer;
1088	>	the_buffer_size = page_extend((height + 2) * bytes_per_row);
1089	>	the_buffer_copy = (uint8 *)vm_acquire(the_buffer_size);
1090	>	the_buffer = (uint8 *)vm_acquire(the_buffer_size);
1091		}
1092	<	#elif ENABLE_VOSF
1092	>	#else
1093		use_vosf = false;
1094		#endif
605	–
606	–	set_video_monitor(width, height, bytes_per_row, true);
607	–	#if REAL_ADDRESSING || DIRECT_ADDRESSING
608	–	VideoMonitor.mac_frame_base = Host2MacAddr(the_buffer);
609	–	#else
610	–	VideoMonitor.mac_frame_base = MacFrameBaseMac;
1095		#endif
1096	<	return true;
1097	<	#else
1098	<	ErrorAlert("Basilisk II has been compiled with fbdev DGA support disabled.");
1099	<	return false;
1096	>
1097	>	// Set VideoMonitor
1098	>	VideoModes[0].bytes_per_row = bytes_per_row;
1099	>	VideoModes[0].depth = DepthModeForPixelDepth(fb_depth);
1100	>	VideoMonitor.mode = mode;
1101	>	set_mac_frame_buffer(mode.depth, true);
1102	>
1103	>	// Everything went well
1104	>	init_ok = true;
1105	>	}
1106	>
1107	>	// Close display
1108	>	driver_fbdev::~driver_fbdev()
1109	>	{
1110	>	if (!use_vosf) {
1111	>	if (the_buffer != MAP_FAILED) {
1112	>	// don't free() the screen buffer in driver_base dtor
1113	>	munmap(the_buffer, the_buffer_size);
1114	>	the_buffer = NULL;
1115	>	}
1116	>	}
1117	>	#ifdef ENABLE_VOSF
1118	>	else {
1119	>	if (the_host_buffer != MAP_FAILED) {
1120	>	// don't free() the screen buffer in driver_base dtor
1121	>	munmap(the_host_buffer, the_buffer_size);
1122	>	the_host_buffer = NULL;
1123	>	}
1124	>	if (the_buffer_copy != VM_MAP_FAILED) {
1125	>	vm_release(the_buffer_copy, the_buffer_size);
1126	>	the_buffer_copy = NULL;
1127	>	}
1128	>	if (the_buffer != VM_MAP_FAILED) {
1129	>	vm_release(the_buffer, the_buffer_size);
1130	>	the_buffer = NULL;
1131	>	}
1132	>	}
1133		#endif
1134		}
1135	+	#endif
1136	+
1137
619	–	// Init XF86 DGA display
620	–	static bool init_xf86_dga(int width, int height)
621	–	{
1138		#ifdef ENABLE_XF86_DGA
1139	+	/*
1140	+	*  XFree86 DGA display driver
1141	+	*/
1142	+
1143	+	class driver_xf86dga : public driver_dga {
1144	+	public:
1145	+	driver_xf86dga(const video_mode &mode);
1146	+	~driver_xf86dga();
1147	+
1148	+	void update_palette(void);
1149	+	void resume(void);
1150	+
1151	+	private:
1152	+	int current_dga_cmap;                                   // Number (0 or 1) of currently installed DGA colormap
1153	+	};
1154	+
1155	+	// Open display
1156	+	driver_xf86dga::driver_xf86dga(const video_mode &mode)
1157	+	: current_dga_cmap(0)
1158	+	{
1159	+	int width = mode.x, height = mode.y;
1160	+
1161		// Set relative mouse mode
1162		ADBSetRelMouseMode(true);
1163
#	Line 635 | Line 1173 | static bool init_xf86_dga(int width, int
1173		}
1174		XF86VidModeSwitchToMode(x_display, screen, x_video_modes[best]);
1175		XF86VidModeSetViewPort(x_display, screen, 0, 0);
1176	+	XSync(x_display, false);
1177		}
1178		#endif
1179
1180		// Create window
1181		XSetWindowAttributes wattr;
1182		wattr.event_mask = eventmask = dga_eventmask;
644	–	wattr.border_pixel = black_pixel;
1183		wattr.override_redirect = True;
1184
1185	<	XSync(x_display, false);
1186	<	the_win = XCreateWindow(x_display, rootwin, 0, 0, width, height, 0, xdepth,
1187	<	InputOutput, vis, CWEventMask | CWBorderPixel | CWOverrideRedirect, &wattr);
1188	<	XSync(x_display, false);
1189	<	XStoreName(x_display, the_win, GetString(STR_WINDOW_TITLE));
1190	<	XMapRaised(x_display, the_win);
1191	<	XSync(x_display, false);
1185	>	w = XCreateWindow(x_display, rootwin, 0, 0, width, height, 0, xdepth,
1186	>	InputOutput, vis, CWEventMask | CWOverrideRedirect, &wattr);
1187	>
1188	>	// Set window name/class
1189	>	set_window_name(w, STR_WINDOW_TITLE);
1190	>
1191	>	// Indicate that we want keyboard input
1192	>	set_window_focus(w);
1193	>
1194	>	// Show window
1195	>	XMapRaised(x_display, w);
1196	>	wait_mapped(w);
1197
1198		// Establish direct screen connection
1199	<	XMoveResizeWindow(x_display, the_win, 0, 0, width, height);
1199	>	XMoveResizeWindow(x_display, w, 0, 0, width, height);
1200		XWarpPointer(x_display, None, rootwin, 0, 0, 0, 0, 0, 0);
1201		XGrabKeyboard(x_display, rootwin, True, GrabModeAsync, GrabModeAsync, CurrentTime);
1202		XGrabPointer(x_display, rootwin, True, PointerMotionMask | ButtonPressMask | ButtonReleaseMask, GrabModeAsync, GrabModeAsync, None, None, CurrentTime);
1203	+	disable_mouse_accel();
1204
1205		int v_width, v_bank, v_size;
1206		XF86DGAGetVideo(x_display, screen, (char **)&the_buffer, &v_width, &v_bank, &v_size);
#	Line 665 | Line 1209 | static bool init_xf86_dga(int width, int
1209		XF86DGASetVidPage(x_display, screen, 0);
1210
1211		// Set colormap
1212	<	if (depth == 8) {
1213	<	XSetWindowColormap(x_display, the_win, cmap[current_dga_cmap = 0]);
670	<	XSetWMColormapWindows(x_display, the_win, &the_win, 1);
1212	>	if (!IsDirectMode(mode)) {
1213	>	XSetWindowColormap(x_display, w, cmap[current_dga_cmap = 0]);
1214		XF86DGAInstallColormap(x_display, screen, cmap[current_dga_cmap]);
1215		}
1216	+	XSync(x_display, false);
1217
1218	<	// Set VideoMonitor
1219	<	int bytes_per_row = (v_width + 7) & ~7;
1220	<	switch (depth) {
677	<	case 1:
678	<	bytes_per_row /= 8;
679	<	break;
680	<	case 15:
681	<	case 16:
682	<	bytes_per_row *= 2;
683	<	break;
684	<	case 24:
685	<	case 32:
686	<	bytes_per_row *= 4;
687	<	break;
688	<	}
689	<
1218	>	// Init blitting routines
1219	>	int bytes_per_row = TrivialBytesPerRow((v_width + 7) & ~7, mode.depth);
1220	>	#if VIDEO_VOSF
1221		#if REAL_ADDRESSING || DIRECT_ADDRESSING
1222	<	// If the blit function is null, i.e. just a copy of the buffer,
1223	<	// we first try to avoid the allocation of a temporary frame buffer
1224	<	use_vosf = true;
694	<	do_update_framebuffer = GET_FBCOPY_FUNC(depth, true, DISPLAY_DGA);
695	<	if (do_update_framebuffer == FBCOPY_FUNC(fbcopy_raw))
696	<	use_vosf = false;
1222	>	// Screen_blitter_init() returns TRUE if VOSF is mandatory
1223	>	// i.e. the framebuffer update function is not Blit_Copy_Raw
1224	>	use_vosf = Screen_blitter_init(&visualInfo, true, mode.depth);
1225
1226		if (use_vosf) {
1227	<	the_host_buffer = the_buffer;
1228	<	the_buffer_size = align_on_page_boundary((height + 2) * bytes_per_row);
1229	<	the_buffer_copy = (uint8 *)malloc(the_buffer_size);
1230	<	memset(the_buffer_copy, 0, the_buffer_size);
1231	<	the_buffer = (uint8 *)allocate_framebuffer(the_buffer_size);
704	<	memset(the_buffer, 0, the_buffer_size);
1227	>	// Allocate memory for frame buffer (SIZE is extended to page-boundary)
1228	>	the_host_buffer = the_buffer;
1229	>	the_buffer_size = page_extend((height + 2) * bytes_per_row);
1230	>	the_buffer_copy = (uint8 *)vm_acquire(the_buffer_size);
1231	>	the_buffer = (uint8 *)vm_acquire(the_buffer_size);
1232		}
1233	<	#elif defined(ENABLE_VOSF)
707	<	// The UAE memory handlers will already handle color conversion, if needed.
1233	>	#else
1234		use_vosf = false;
1235		#endif
1236	+	#endif
1237
1238	<	set_video_monitor(width, height, bytes_per_row, true);
1239	<	#if REAL_ADDRESSING || DIRECT_ADDRESSING
1240	<	VideoMonitor.mac_frame_base = Host2MacAddr(the_buffer);
1241	<	//      MacFrameLayout = FLAYOUT_DIRECT;
1242	<	#else
1243	<	VideoMonitor.mac_frame_base = MacFrameBaseMac;
1238	>	// Set VideoMonitor
1239	>	const_cast<video_mode *>(&mode)->bytes_per_row = bytes_per_row;
1240	>	VideoMonitor.mode = mode;
1241	>	set_mac_frame_buffer(mode.depth, true);
1242	>
1243	>	// Everything went well
1244	>	init_ok = true;
1245	>	}
1246	>
1247	>	// Close display
1248	>	driver_xf86dga::~driver_xf86dga()
1249	>	{
1250	>	XF86DGADirectVideo(x_display, screen, 0);
1251	>	if (!use_vosf) {
1252	>	// don't free() the screen buffer in driver_base dtor
1253	>	the_buffer = NULL;
1254	>	}
1255	>	#ifdef ENABLE_VOSF
1256	>	else {
1257	>	// don't free() the screen buffer in driver_base dtor
1258	>	the_host_buffer = NULL;
1259	>
1260	>	if (the_buffer_copy != VM_MAP_FAILED) {
1261	>	vm_release(the_buffer_copy, the_buffer_size);
1262	>	the_buffer_copy = NULL;
1263	>	}
1264	>	if (the_buffer != VM_MAP_FAILED) {
1265	>	vm_release(the_buffer, the_buffer_size);
1266	>	the_buffer = NULL;
1267	>	}
1268	>	}
1269		#endif
1270	<	return true;
1271	<	#else
1272	<	ErrorAlert("Basilisk II has been compiled with XF86 DGA support disabled.");
721	<	return false;
1270	>	#ifdef ENABLE_XF86_VIDMODE
1271	>	if (has_vidmode)
1272	>	XF86VidModeSwitchToMode(x_display, screen, x_video_modes[0]);
1273		#endif
1274		}
1275
1276	+	// Palette has changed
1277	+	void driver_xf86dga::update_palette(void)
1278	+	{
1279	+	driver_dga::update_palette();
1280	+	current_dga_cmap ^= 1;
1281	+	if (!IsDirectMode(VideoMonitor.mode) && cmap[current_dga_cmap])
1282	+	XF86DGAInstallColormap(x_display, screen, cmap[current_dga_cmap]);
1283	+	}
1284	+
1285	+	// Resume emulation
1286	+	void driver_xf86dga::resume(void)
1287	+	{
1288	+	driver_dga::resume();
1289	+	if (!IsDirectMode(VideoMonitor.mode))
1290	+	XF86DGAInstallColormap(x_display, screen, cmap[current_dga_cmap]);
1291	+	}
1292	+	#endif
1293	+
1294	+
1295	+	/*
1296	+	*  Initialization
1297	+	*/
1298	+
1299		// Init keycode translation table
1300		static void keycode_init(void)
1301		{
#	Line 787 | Line 1361 | static void keycode_init(void)
1361		}
1362		}
1363
1364	<	bool VideoInitBuffer()
1364	>	// Open display for specified mode
1365	>	static bool video_open(const video_mode &mode)
1366		{
1367	<	#ifdef ENABLE_VOSF
793	<	if (use_vosf) {
794	<	const uint32 page_size  = getpagesize();
795	<	const uint32 page_mask  = page_size - 1;
796	<
797	<	mainBuffer.memBase      = (uint32) the_buffer;
798	<	// Align the frame buffer on page boundary
799	<	mainBuffer.memStart             = (uint32)((((unsigned long) the_buffer) + page_mask) & ~page_mask);
800	<	mainBuffer.memLength    = the_buffer_size;
801	<	mainBuffer.memEnd       = mainBuffer.memStart + mainBuffer.memLength;
1367	>	D(bug("video_open()\n"));
1368
1369	<	mainBuffer.pageSize     = page_size;
1370	<	mainBuffer.pageCount    = (mainBuffer.memLength + page_mask)/mainBuffer.pageSize;
1371	<	mainBuffer.pageBits     = int( log(mainBuffer.pageSize) / log(2.0) );
1372	<
1373	<	if (mainBuffer.dirtyPages != 0)
808	<	free(mainBuffer.dirtyPages);
1369	>	// Find best available X visual
1370	>	if (!find_visual_for_depth(mode.depth)) {
1371	>	ErrorAlert(STR_NO_XVISUAL_ERR);
1372	>	return false;
1373	>	}
1374
1375	<	mainBuffer.dirtyPages = (uint8 *) malloc(mainBuffer.pageCount);
1375	>	// Create color maps
1376	>	if (color_class == PseudoColor || color_class == DirectColor) {
1377	>	cmap[0] = XCreateColormap(x_display, rootwin, vis, AllocAll);
1378	>	cmap[1] = XCreateColormap(x_display, rootwin, vis, AllocAll);
1379	>	} else {
1380	>	cmap[0] = XCreateColormap(x_display, rootwin, vis, AllocNone);
1381	>	cmap[1] = XCreateColormap(x_display, rootwin, vis, AllocNone);
1382	>	}
1383
1384	<	if (mainBuffer.pageInfo != 0)
1385	<	free(mainBuffer.pageInfo);
1384	>	// Find pixel format of direct modes
1385	>	if (color_class == DirectColor || color_class == TrueColor) {
1386	>	rshift = gshift = bshift = 0;
1387	>	rloss = gloss = bloss = 8;
1388	>	uint32 mask;
1389	>	for (mask=vis->red_mask; !(mask&1); mask>>=1)
1390	>	++rshift;
1391	>	for (; mask&1; mask>>=1)
1392	>	--rloss;
1393	>	for (mask=vis->green_mask; !(mask&1); mask>>=1)
1394	>	++gshift;
1395	>	for (; mask&1; mask>>=1)
1396	>	--gloss;
1397	>	for (mask=vis->blue_mask; !(mask&1); mask>>=1)
1398	>	++bshift;
1399	>	for (; mask&1; mask>>=1)
1400	>	--bloss;
1401	>	}
1402	>
1403	>	// Preset palette pixel values for CLUT or gamma table
1404	>	if (color_class == DirectColor) {
1405	>	int num = vis->map_entries;
1406	>	for (int i=0; i<num; i++) {
1407	>	int c = (i * 256) / num;
1408	>	palette[i].pixel = map_rgb(c, c, c);
1409	>	palette[i].flags = DoRed | DoGreen | DoBlue;
1410	>	}
1411	>	} else if (color_class == PseudoColor) {
1412	>	for (int i=0; i<256; i++) {
1413	>	palette[i].pixel = i;
1414	>	palette[i].flags = DoRed | DoGreen | DoBlue;
1415	>	}
1416	>	}
1417
1418	<	mainBuffer.pageInfo = (ScreenPageInfo *) malloc(mainBuffer.pageCount * sizeof(ScreenPageInfo));
1418	>	// Load gray ramp to color map
1419	>	int num = (color_class == DirectColor ? vis->map_entries : 256);
1420	>	for (int i=0; i<num; i++) {
1421	>	int c = (i * 256) / num;
1422	>	palette[i].red = c * 0x0101;
1423	>	palette[i].green = c * 0x0101;
1424	>	palette[i].blue = c * 0x0101;
1425	>	}
1426	>	if (color_class == PseudoColor || color_class == DirectColor) {
1427	>	XStoreColors(x_display, cmap[0], palette, num);
1428	>	XStoreColors(x_display, cmap[1], palette, num);
1429	>	}
1430
1431	<	if ((mainBuffer.dirtyPages == 0) || (mainBuffer.pageInfo == 0))
1432	<	return false;
1431	>	#ifdef ENABLE_VOSF
1432	>	// Load gray ramp to 8->16/32 expand map
1433	>	if (!IsDirectMode(mode) && xdepth > 8)
1434	>	for (int i=0; i<256; i++)
1435	>	ExpandMap[i] = map_rgb(i, i, i);
1436	>	#endif
1437
1438	<	PFLAG_CLEAR_ALL;
1438	>	// Create display driver object of requested type
1439	>	switch (display_type) {
1440	>	case DISPLAY_WINDOW:
1441	>	drv = new driver_window(mode);
1442	>	break;
1443	>	#ifdef ENABLE_FBDEV_DGA
1444	>	case DISPLAY_DGA:
1445	>	drv = new driver_fbdev(mode);
1446	>	break;
1447	>	#endif
1448	>	#ifdef ENABLE_XF86_DGA
1449	>	case DISPLAY_DGA:
1450	>	drv = new driver_xf86dga(mode);
1451	>	break;
1452	>	#endif
1453	>	}
1454	>	if (drv == NULL)
1455	>	return false;
1456	>	if (!drv->init_ok) {
1457	>	delete drv;
1458	>	drv = NULL;
1459	>	return false;
1460	>	}
1461
1462	<	uint32 a = 0;
1463	<	for (int i = 0; i < mainBuffer.pageCount; i++) {
1464	<	int y1 = a / VideoMonitor.bytes_per_row;
1465	<	if (y1 >= VideoMonitor.y)
1466	<	y1 = VideoMonitor.y - 1;
1467	<
828	<	int y2 = (a + mainBuffer.pageSize) / VideoMonitor.bytes_per_row;
829	<	if (y2 >= VideoMonitor.y)
830	<	y2 = VideoMonitor.y - 1;
831	<
832	<	mainBuffer.pageInfo[i].top = y1;
833	<	mainBuffer.pageInfo[i].bottom = y2;
834	<
835	<	a += mainBuffer.pageSize;
836	<	if (a > mainBuffer.memLength)
837	<	a = mainBuffer.memLength;
1462	>	#ifdef ENABLE_VOSF
1463	>	if (use_vosf) {
1464	>	// Initialize the VOSF system
1465	>	if (!video_vosf_init()) {
1466	>	ErrorAlert(STR_VOSF_INIT_ERR);
1467	>	return false;
1468		}
839	–
840	–	// We can now write-protect the frame buffer
841	–	if (mprotect((caddr_t)mainBuffer.memStart, mainBuffer.memLength, PROT_READ) != 0)
842	–	return false;
1469		}
1470		#endif
1471	+
1472	+	// Initialize VideoRefresh function
1473	+	VideoRefreshInit();
1474	+
1475	+	// Lock down frame buffer
1476	+	XSync(x_display, false);
1477	+	LOCK_FRAME_BUFFER;
1478	+
1479	+	// Start redraw/input thread
1480	+	#ifdef HAVE_PTHREADS
1481	+	redraw_thread_cancel = false;
1482	+	redraw_thread_active = (pthread_create(&redraw_thread, NULL, redraw_func, NULL) == 0);
1483	+	if (!redraw_thread_active) {
1484	+	printf("FATAL: cannot create redraw thread\n");
1485	+	return false;
1486	+	}
1487	+	#else
1488	+	redraw_thread_active = true;
1489	+	#endif
1490	+
1491		return true;
1492		}
1493
1494		bool VideoInit(bool classic)
1495		{
1496	+	classic_mode = classic;
1497	+
1498		#ifdef ENABLE_VOSF
851	–	// Open /dev/zero
852	–	zero_fd = open("/dev/zero", O_RDWR);
853	–	if (zero_fd < 0) {
854	–	char str[256];
855	–	sprintf(str, GetString(STR_NO_DEV_ZERO_ERR), strerror(errno));
856	–	ErrorAlert(str);
857	–	return false;
858	–	}
859	–
1499		// Zero the mainBuffer structure
1500	<	mainBuffer.dirtyPages = 0;
1501	<	mainBuffer.pageInfo = 0;
1500	>	mainBuffer.dirtyPages = NULL;
1501	>	mainBuffer.pageInfo = NULL;
1502		#endif
1503
1504		// Check if X server runs on local machine
#	Line 870 | Line 1509 | bool VideoInit(bool classic)
1509		keycode_init();
1510
1511		// Read prefs
1512	<	mouse_wheel_mode = PrefsFindInt16("mousewheelmode");
1513	<	mouse_wheel_lines = PrefsFindInt16("mousewheellines");
1512	>	frame_skip = PrefsFindInt32("frameskip");
1513	>	mouse_wheel_mode = PrefsFindInt32("mousewheelmode");
1514	>	mouse_wheel_lines = PrefsFindInt32("mousewheellines");
1515
1516		// Find screen and root window
1517		screen = XDefaultScreen(x_display);
1518		rootwin = XRootWindow(x_display, screen);
1519	<
1520	<	// Get screen depth
1521	<	xdepth = DefaultDepth(x_display, screen);
1519	>
1520	>	// Get sorted list of available depths
1521	>	avail_depths = XListDepths(x_display, screen, &num_depths);
1522	>	if (avail_depths == NULL) {
1523	>	ErrorAlert(STR_UNSUPP_DEPTH_ERR);
1524	>	return false;
1525	>	}
1526	>	sort(avail_depths, avail_depths + num_depths);
1527
1528		#ifdef ENABLE_FBDEV_DGA
1529		// Frame buffer name
1530		char fb_name[20];
1531
1532	<	// Could do fbdev dga ?
1532	>	// Could do fbdev DGA?
1533		if ((fbdev_fd = open(FBDEVICE_FILE_NAME, O_RDWR)) != -1)
1534		has_dga = true;
1535		else
#	Line 918 | Line 1563 | bool VideoInit(bool classic)
1563		black_pixel = BlackPixel(x_display, screen);
1564		white_pixel = WhitePixel(x_display, screen);
1565
921	–	// Get appropriate visual
922	–	int color_class;
923	–	switch (xdepth) {
924	–	case 1:
925	–	color_class = StaticGray;
926	–	break;
927	–	case 8:
928	–	color_class = PseudoColor;
929	–	break;
930	–	case 15:
931	–	case 16:
932	–	case 24:
933	–	case 32:
934	–	color_class = TrueColor;
935	–	break;
936	–	default:
937	–	ErrorAlert(GetString(STR_UNSUPP_DEPTH_ERR));
938	–	return false;
939	–	}
940	–	if (!XMatchVisualInfo(x_display, screen, xdepth, color_class, &visualInfo)) {
941	–	ErrorAlert(GetString(STR_NO_XVISUAL_ERR));
942	–	return false;
943	–	}
944	–	if (visualInfo.depth != xdepth) {
945	–	ErrorAlert(GetString(STR_NO_XVISUAL_ERR));
946	–	return false;
947	–	}
948	–	vis = visualInfo.visual;
949	–
950	–	// Mac screen depth is always 1 bit in Classic mode, but follows X depth otherwise
951	–	classic_mode = classic;
952	–	if (classic)
953	–	depth = 1;
954	–	else
955	–	depth = xdepth;
956	–
957	–	// Create color maps for 8 bit mode
958	–	if (depth == 8) {
959	–	cmap[0] = XCreateColormap(x_display, rootwin, vis, AllocAll);
960	–	cmap[1] = XCreateColormap(x_display, rootwin, vis, AllocAll);
961	–	XInstallColormap(x_display, cmap[0]);
962	–	XInstallColormap(x_display, cmap[1]);
963	–	}
964	–
1566		// Get screen mode from preferences
1567		const char *mode_str;
1568	<	if (classic)
1568	>	if (classic_mode)
1569		mode_str = "win/512/342";
1570		else
1571		mode_str = PrefsFindString("screen");
1572
1573	<	// Determine type and mode
1574	<	int width = 512, height = 384;
1573	>	// Determine display type and default dimensions
1574	>	int default_width = 512, default_height = 384;
1575		display_type = DISPLAY_WINDOW;
1576		if (mode_str) {
1577	<	if (sscanf(mode_str, "win/%d/%d", &width, &height) == 2)
1577	>	if (sscanf(mode_str, "win/%d/%d", &default_width, &default_height) == 2) {
1578		display_type = DISPLAY_WINDOW;
1579		#ifdef ENABLE_FBDEV_DGA
1580	<	else if (has_dga && sscanf(mode_str, "dga/%19s", fb_name) == 1) {
1581	<	#else
1582	<	else if (has_dga && sscanf(mode_str, "dga/%d/%d", &width, &height) == 2) {
1580	>	} else if (has_dga && sscanf(mode_str, "dga/%19s", fb_name) == 1) {
1581	>	display_type = DISPLAY_DGA;
1582	>	default_width = -1; default_height = -1; // use entire screen
1583		#endif
1584	+	#ifdef ENABLE_XF86_DGA
1585	+	} else if (has_dga && sscanf(mode_str, "dga/%d/%d", &default_width, &default_height) == 2) {
1586		display_type = DISPLAY_DGA;
1587	<	if (width > DisplayWidth(x_display, screen))
1588	<	width = DisplayWidth(x_display, screen);
986	<	if (height > DisplayHeight(x_display, screen))
987	<	height = DisplayHeight(x_display, screen);
988	<	}
989	<	if (width <= 0)
990	<	width = DisplayWidth(x_display, screen);
991	<	if (height <= 0)
992	<	height = DisplayHeight(x_display, screen);
1587	>	#endif
1588	>	}
1589		}
1590	<
1591	<	// Initialize according to display type
1592	<	switch (display_type) {
1593	<	case DISPLAY_WINDOW:
1594	<	if (!init_window(width, height))
1595	<	return false;
1590	>	if (default_width <= 0)
1591	>	default_width = DisplayWidth(x_display, screen);
1592	>	else if (default_width > DisplayWidth(x_display, screen))
1593	>	default_width = DisplayWidth(x_display, screen);
1594	>	if (default_height <= 0)
1595	>	default_height = DisplayHeight(x_display, screen);
1596	>	else if (default_height > DisplayHeight(x_display, screen))
1597	>	default_height = DisplayHeight(x_display, screen);
1598	>
1599	>	// Mac screen depth follows X depth
1600	>	video_depth default_depth = VDEPTH_1BIT;
1601	>	switch (DefaultDepth(x_display, screen)) {
1602	>	case 8:
1603	>	default_depth = VDEPTH_8BIT;
1604		break;
1605	<	case DISPLAY_DGA:
1606	<	#ifdef ENABLE_FBDEV_DGA
1607	<	if (!init_fbdev_dga(fb_name))
1608	<	#else
1609	<	if (!init_xf86_dga(width, height))
1006	<	#endif
1007	<	return false;
1605	>	case 15: case 16:
1606	>	default_depth = VDEPTH_16BIT;
1607	>	break;
1608	>	case 24: case 32:
1609	>	default_depth = VDEPTH_32BIT;
1610		break;
1611		}
1612
1613	<	#ifdef HAVE_PTHREADS
1614	<	// Lock down frame buffer
1615	<	pthread_mutex_lock(&frame_buffer_lock);
1616	<	#endif
1617	<
1618	<	#if !REAL_ADDRESSING && !DIRECT_ADDRESSING
1619	<	// Set variables for UAE memory mapping
1620	<	MacFrameBaseHost = the_buffer;
1621	<	MacFrameSize = VideoMonitor.bytes_per_row * VideoMonitor.y;
1020	<
1021	<	// No special frame buffer in Classic mode (frame buffer is in Mac RAM)
1022	<	if (classic)
1023	<	MacFrameLayout = FLAYOUT_NONE;
1024	<	#endif
1025	<
1026	<	#ifdef ENABLE_VOSF
1027	<	if (use_vosf) {
1028	<	// Initialize the mainBuffer structure
1029	<	if (!VideoInitBuffer()) {
1030	<	// TODO: STR_VOSF_INIT_ERR ?
1031	<	ErrorAlert("Could not initialize Video on SEGV signals");
1032	<	return false;
1613	>	// Construct list of supported modes
1614	>	if (display_type == DISPLAY_WINDOW) {
1615	>	if (classic)
1616	>	add_mode(512, 342, 0x80, 64, VDEPTH_1BIT);
1617	>	else {
1618	>	for (unsigned d=VDEPTH_1BIT; d<=VDEPTH_32BIT; d++) {
1619	>	if (find_visual_for_depth(video_depth(d)))
1620	>	add_window_modes(video_depth(d));
1621	>	}
1622		}
1623	+	} else
1624	+	add_mode(default_width, default_height, 0x80, TrivialBytesPerRow(default_width, default_depth), default_depth);
1625	+	if (VideoModes.empty()) {
1626	+	ErrorAlert(STR_NO_XVISUAL_ERR);
1627	+	return false;
1628	+	}
1629	+	video_init_depth_list();
1630
1631	<	// Initialize the handler for SIGSEGV
1632	<	if (!Screen_fault_handler_init()) {
1633	<	// TODO: STR_VOSF_INIT_ERR ?
1634	<	ErrorAlert("Could not initialize Video on SEGV signals");
1635	<	return false;
1636	<	}
1631	>	#if DEBUG
1632	>	D(bug("Available video modes:\n"));
1633	>	vector<video_mode>::const_iterator i = VideoModes.begin(), end = VideoModes.end();
1634	>	while (i != end) {
1635	>	int bits = 1 << i->depth;
1636	>	if (bits == 16)
1637	>	bits = 15;
1638	>	else if (bits == 32)
1639	>	bits = 24;
1640	>	D(bug(" %dx%d (ID %02x), %d colors\n", i->x, i->y, i->resolution_id, 1 << bits));
1641	>	++i;
1642		}
1643		#endif
1043	–
1044	–	// Initialize VideoRefresh function
1045	–	VideoRefreshInit();
1046	–
1047	–	XSync(x_display, false);
1644
1645	<	#ifdef HAVE_PTHREADS
1646	<	// Start redraw/input thread
1647	<	redraw_thread_active = (pthread_create(&redraw_thread, NULL, redraw_func, NULL) == 0);
1648	<	if (!redraw_thread_active) {
1649	<	printf("FATAL: cannot create redraw thread\n");
1650	<	return false;
1645	>	// Find requested default mode and open display
1646	>	if (VideoModes.size() == 1)
1647	>	return video_open(VideoModes[0]);
1648	>	else {
1649	>	// Find mode with specified dimensions
1650	>	std::vector<video_mode>::const_iterator i, end = VideoModes.end();
1651	>	for (i = VideoModes.begin(); i != end; ++i) {
1652	>	if (i->x == default_width && i->y == default_height && i->depth == default_depth)
1653	>	return video_open(*i);
1654	>	}
1655	>	return video_open(VideoModes[0]);
1656		}
1056	–	#endif
1057	–	return true;
1657		}
1658
1659
#	Line 1062 | Line 1661 | bool VideoInit(bool classic)
1661		*  Deinitialization
1662		*/
1663
1664	<	void VideoExit(void)
1664	>	// Close display
1665	>	static void video_close(void)
1666		{
1667	<	#ifdef HAVE_PTHREADS
1667	>	D(bug("video_close()\n"));
1668	>
1669		// Stop redraw thread
1670	+	#ifdef HAVE_PTHREADS
1671		if (redraw_thread_active) {
1672		redraw_thread_cancel = true;
1673		#ifdef HAVE_PTHREAD_CANCEL
1674		pthread_cancel(redraw_thread);
1675		#endif
1676		pthread_join(redraw_thread, NULL);
1075	–	redraw_thread_active = false;
1677		}
1678		#endif
1679	+	redraw_thread_active = false;
1680
1079	–	#ifdef HAVE_PTHREADS
1681		// Unlock frame buffer
1682	<	pthread_mutex_unlock(&frame_buffer_lock);
1682	>	UNLOCK_FRAME_BUFFER;
1683	>	XSync(x_display, false);
1684	>	D(bug(" frame buffer unlocked\n"));
1685	>
1686	>	#ifdef ENABLE_VOSF
1687	>	if (use_vosf) {
1688	>	// Deinitialize VOSF
1689	>	video_vosf_exit();
1690	>	}
1691		#endif
1692
1693	<	// Close window and server connection
1694	<	if (x_display != NULL) {
1695	<	XSync(x_display, false);
1693	>	// Close display
1694	>	delete drv;
1695	>	drv = NULL;
1696
1697	<	#ifdef ENABLE_XF86_DGA
1698	<	if (display_type == DISPLAY_DGA) {
1699	<	XF86DGADirectVideo(x_display, screen, 0);
1700	<	XUngrabPointer(x_display, CurrentTime);
1701	<	XUngrabKeyboard(x_display, CurrentTime);
1702	<	}
1703	<	#endif
1697	>	// Free colormaps
1698	>	if (cmap[0]) {
1699	>	XFreeColormap(x_display, cmap[0]);
1700	>	cmap[0] = 0;
1701	>	}
1702	>	if (cmap[1]) {
1703	>	XFreeColormap(x_display, cmap[1]);
1704	>	cmap[1] = 0;
1705	>	}
1706	>	}
1707	>
1708	>	void VideoExit(void)
1709	>	{
1710	>	// Close display
1711	>	video_close();
1712
1713		#ifdef ENABLE_XF86_VIDMODE
1714	<	if (has_vidmode && display_type == DISPLAY_DGA)
1715	<	XF86VidModeSwitchToMode(x_display, screen, x_video_modes[0]);
1714	>	// Free video mode list
1715	>	if (x_video_modes) {
1716	>	XFree(x_video_modes);
1717	>	x_video_modes = NULL;
1718	>	}
1719		#endif
1720
1721		#ifdef ENABLE_FBDEV_DGA
1722	<	if (display_type == DISPLAY_DGA) {
1723	<	XUngrabPointer(x_display, CurrentTime);
1724	<	XUngrabKeyboard(x_display, CurrentTime);
1725	<	close(fbdev_fd);
1106	<	}
1107	<	#endif
1108	<
1109	<	XFlush(x_display);
1110	<	XSync(x_display, false);
1111	<	if (depth == 8) {
1112	<	XFreeColormap(x_display, cmap[0]);
1113	<	XFreeColormap(x_display, cmap[1]);
1114	<	}
1115	<
1116	<	if (!use_vosf) {
1117	<	if (the_buffer) {
1118	<	free(the_buffer);
1119	<	the_buffer = NULL;
1120	<	}
1121	<
1122	<	if (!have_shm && the_buffer_copy) {
1123	<	free(the_buffer_copy);
1124	<	the_buffer_copy = NULL;
1125	<	}
1126	<	}
1127	<	#ifdef ENABLE_VOSF
1128	<	else {
1129	<	if (the_buffer != (uint8 *)MAP_FAILED) {
1130	<	munmap((caddr_t)the_buffer, the_buffer_size);
1131	<	the_buffer = 0;
1132	<	}
1133	<
1134	<	if (the_buffer_copy != (uint8 *)MAP_FAILED) {
1135	<	munmap((caddr_t)the_buffer_copy, the_buffer_size);
1136	<	the_buffer_copy = 0;
1137	<	}
1138	<	}
1139	<	#endif
1722	>	// Close framebuffer device
1723	>	if (fbdev_fd >= 0) {
1724	>	close(fbdev_fd);
1725	>	fbdev_fd = -1;
1726		}
1727	<
1142	<	#ifdef ENABLE_VOSF
1143	<	if (use_vosf) {
1144	<	// Clear mainBuffer data
1145	<	if (mainBuffer.pageInfo) {
1146	<	free(mainBuffer.pageInfo);
1147	<	mainBuffer.pageInfo = 0;
1148	<	}
1727	>	#endif
1728
1729	<	if (mainBuffer.dirtyPages) {
1730	<	free(mainBuffer.dirtyPages);
1731	<	mainBuffer.dirtyPages = 0;
1732	<	}
1729	>	// Free depth list
1730	>	if (avail_depths) {
1731	>	XFree(avail_depths);
1732	>	avail_depths = NULL;
1733		}
1155	–
1156	–	// Close /dev/zero
1157	–	if (zero_fd > 0)
1158	–	close(zero_fd);
1159	–	#endif
1734		}
1735
1736
#	Line 1167 | Line 1741 | void VideoExit(void)
1741		void VideoQuitFullScreen(void)
1742		{
1743		D(bug("VideoQuitFullScreen()\n"));
1744	<	if (display_type == DISPLAY_DGA)
1171	<	quit_full_screen = true;
1744	>	quit_full_screen = true;
1745		}
1746
1747
#	Line 1182 | Line 1755 | void VideoInterrupt(void)
1755		if (emerg_quit)
1756		QuitEmulator();
1757
1185	–	#ifdef HAVE_PTHREADS
1758		// Temporarily give up frame buffer lock (this is the point where
1759		// we are suspended when the user presses Ctrl-Tab)
1760	<	pthread_mutex_unlock(&frame_buffer_lock);
1761	<	pthread_mutex_lock(&frame_buffer_lock);
1190	<	#endif
1760	>	UNLOCK_FRAME_BUFFER;
1761	>	LOCK_FRAME_BUFFER;
1762		}
1763
1764
#	Line 1195 | Line 1766 | void VideoInterrupt(void)
1766		*  Set palette
1767		*/
1768
1769	<	void video_set_palette(uint8 *pal)
1769	>	void video_set_palette(uint8 *pal, int num_in)
1770		{
1771	<	#ifdef HAVE_PTHREDS
1201	<	pthread_mutex_lock(&palette_lock);
1202	<	#endif
1771	>	LOCK_PALETTE;
1772
1773		// Convert colors to XColor array
1774	<	for (int i=0; i<256; i++) {
1775	<	palette[i].pixel = i;
1776	<	palette[i].red = pal[i*3] * 0x0101;
1777	<	palette[i].green = pal[i*3+1] * 0x0101;
1778	<	palette[i].blue = pal[i*3+2] * 0x0101;
1779	<	palette[i].flags = DoRed | DoGreen | DoBlue;
1774	>	int num_out = 256;
1775	>	bool stretch = false;
1776	>	if (IsDirectMode(VideoMonitor.mode)) {
1777	>	// If X is in 565 mode we have to stretch the gamma table from 32 to 64 entries
1778	>	num_out = vis->map_entries;
1779	>	stretch = true;
1780	>	}
1781	>	XColor *p = palette;
1782	>	for (int i=0; i<num_out; i++) {
1783	>	int c = (stretch ? (i * num_in) / num_out : i);
1784	>	p->red = pal[c*3 + 0] * 0x0101;
1785	>	p->green = pal[c*3 + 1] * 0x0101;
1786	>	p->blue = pal[c*3 + 2] * 0x0101;
1787	>	p++;
1788		}
1789
1790	+	#ifdef ENABLE_VOSF
1791	+	// Recalculate pixel color expansion map
1792	+	if (!IsDirectMode(VideoMonitor.mode) && xdepth > 8) {
1793	+	for (int i=0; i<256; i++) {
1794	+	int c = i & (num_in-1); // If there are less than 256 colors, we repeat the first entries (this makes color expansion easier)
1795	+	ExpandMap[i] = map_rgb(pal[c*3+0], pal[c*3+1], pal[c*3+2]);
1796	+	}
1797	+
1798	+	// We have to redraw everything because the interpretation of pixel values changed
1799	+	LOCK_VOSF;
1800	+	PFLAG_SET_ALL;
1801	+	UNLOCK_VOSF;
1802	+	memset(the_buffer_copy, 0, VideoMonitor.mode.bytes_per_row * VideoMonitor.mode.y);
1803	+	}
1804	+	#endif
1805	+
1806		// Tell redraw thread to change palette
1807		palette_changed = true;
1808
1809	<	#ifdef HAVE_PTHREADS
1217	<	pthread_mutex_unlock(&palette_lock);
1218	<	#endif
1809	>	UNLOCK_PALETTE;
1810		}
1811
1812
1813		/*
1814	<	*  Suspend/resume emulator
1814	>	*  Switch video mode
1815		*/
1816
1817	<	#if defined(ENABLE_XF86_DGA) || defined(ENABLE_FBDEV_DGA)
1227	<	static void suspend_emul(void)
1817	>	void video_switch_to_mode(const video_mode &mode)
1818		{
1819	<	if (display_type == DISPLAY_DGA) {
1820	<	// Release ctrl key
1821	<	ADBKeyUp(0x36);
1232	<	ctrl_down = false;
1233	<
1234	<	#ifdef HAVE_PTHREADS
1235	<	// Lock frame buffer (this will stop the MacOS thread)
1236	<	pthread_mutex_lock(&frame_buffer_lock);
1237	<	#endif
1819	>	// Close and reopen display
1820	>	video_close();
1821	>	video_open(mode);
1822
1823	<	// Save frame buffer
1824	<	fb_save = malloc(VideoMonitor.y * VideoMonitor.bytes_per_row);
1825	<	if (fb_save)
1242	<	memcpy(fb_save, the_buffer, VideoMonitor.y * VideoMonitor.bytes_per_row);
1243	<
1244	<	// Close full screen display
1245	<	#ifdef ENABLE_XF86_DGA
1246	<	XF86DGADirectVideo(x_display, screen, 0);
1247	<	#endif
1248	<	XUngrabPointer(x_display, CurrentTime);
1249	<	XUngrabKeyboard(x_display, CurrentTime);
1250	<	XUnmapWindow(x_display, the_win);
1251	<	XSync(x_display, false);
1252	<
1253	<	// Open "suspend" window
1254	<	XSetWindowAttributes wattr;
1255	<	wattr.event_mask = KeyPressMask;
1256	<	wattr.background_pixel = black_pixel;
1257	<	wattr.border_pixel = black_pixel;
1258	<	wattr.backing_store = Always;
1259	<	wattr.backing_planes = xdepth;
1260	<	wattr.colormap = DefaultColormap(x_display, screen);
1261	<
1262	<	XSync(x_display, false);
1263	<	suspend_win = XCreateWindow(x_display, rootwin, 0, 0, 512, 1, 0, xdepth,
1264	<	InputOutput, vis, CWEventMask | CWBackPixel | CWBorderPixel |
1265	<	CWBackingStore | CWBackingPlanes | (xdepth == 8 ? CWColormap : 0), &wattr);
1266	<	XSync(x_display, false);
1267	<	XStoreName(x_display, suspend_win, GetString(STR_SUSPEND_WINDOW_TITLE));
1268	<	XMapRaised(x_display, suspend_win);
1269	<	XSync(x_display, false);
1270	<	emul_suspended = true;
1271	<	}
1272	<	}
1273	<
1274	<	static void resume_emul(void)
1275	<	{
1276	<	// Close "suspend" window
1277	<	XDestroyWindow(x_display, suspend_win);
1278	<	XSync(x_display, false);
1279	<
1280	<	// Reopen full screen display
1281	<	XMapRaised(x_display, the_win);
1282	<	XWarpPointer(x_display, None, rootwin, 0, 0, 0, 0, 0, 0);
1283	<	XSync(x_display, false);
1284	<	XGrabKeyboard(x_display, rootwin, 1, GrabModeAsync, GrabModeAsync, CurrentTime);
1285	<	XGrabPointer(x_display, rootwin, 1, PointerMotionMask | ButtonPressMask | ButtonReleaseMask, GrabModeAsync, GrabModeAsync, None, None, CurrentTime);
1286	<	#ifdef ENABLE_XF86_DGA
1287	<	XF86DGADirectVideo(x_display, screen, XF86DGADirectGraphics | XF86DGADirectKeyb | XF86DGADirectMouse);
1288	<	XF86DGASetViewPort(x_display, screen, 0, 0);
1289	<	#endif
1290	<	XSync(x_display, false);
1291	<
1292	<	// the_buffer already contains the data to restore. i.e. since a temporary
1293	<	// frame buffer is used when VOSF is actually used, fb_save is therefore
1294	<	// not necessary.
1295	<	#ifdef ENABLE_VOSF
1296	<	if (use_vosf) {
1297	<	#ifdef HAVE_PTHREADS
1298	<	pthread_mutex_lock(&Screen_draw_lock);
1299	<	#endif
1300	<	PFLAG_SET_ALL;
1301	<	#ifdef HAVE_PTHREADS
1302	<	pthread_mutex_unlock(&Screen_draw_lock);
1303	<	#endif
1304	<	memset(the_buffer_copy, 0, VideoMonitor.bytes_per_row * VideoMonitor.y);
1305	<	}
1306	<	#endif
1307	<
1308	<	// Restore frame buffer
1309	<	if (fb_save) {
1310	<	#ifdef ENABLE_VOSF
1311	<	// Don't copy fb_save to the temporary frame buffer in VOSF mode
1312	<	if (!use_vosf)
1313	<	#endif
1314	<	memcpy(the_buffer, fb_save, VideoMonitor.y * VideoMonitor.bytes_per_row);
1315	<	free(fb_save);
1316	<	fb_save = NULL;
1823	>	if (drv == NULL) {
1824	>	ErrorAlert(STR_OPEN_WINDOW_ERR);
1825	>	QuitEmulator();
1826		}
1318	–
1319	–	#ifdef ENABLE_XF86_DGA
1320	–	if (depth == 8)
1321	–	XF86DGAInstallColormap(x_display, screen, cmap[current_dga_cmap]);
1322	–	#endif
1323	–
1324	–	#ifdef HAVE_PTHREADS
1325	–	// Unlock frame buffer (and continue MacOS thread)
1326	–	pthread_mutex_unlock(&frame_buffer_lock);
1327	–	emul_suspended = false;
1328	–	#endif
1827		}
1330	–	#endif
1828
1829
1830		/*
1831	<	*  Translate key event to Mac keycode
1831	>	*  Translate key event to Mac keycode, returns -1 if no keycode was found
1832	>	*  and -2 if the key was recognized as a hotkey
1833		*/
1834
1835	<	static int kc_decode(KeySym ks)
1835	>	static int kc_decode(KeySym ks, bool key_down)
1836		{
1837		switch (ks) {
1838		case XK_A: case XK_a: return 0x00;
#	Line 1387 | Line 1885 | static int kc_decode(KeySym ks)
1885		case XK_period: case XK_greater: return 0x2f;
1886		case XK_slash: case XK_question: return 0x2c;
1887
1888	<	#if defined(ENABLE_XF86_DGA) || defined(ENABLE_FBDEV_DGA)
1391	<	case XK_Tab: if (ctrl_down) {suspend_emul(); return -1;} else return 0x30;
1392	<	#else
1393	<	case XK_Tab: return 0x30;
1394	<	#endif
1888	>	case XK_Tab: if (ctrl_down) {if (key_down) drv->suspend(); return -2;} else return 0x30;
1889		case XK_Return: return 0x24;
1890		case XK_space: return 0x31;
1891		case XK_BackSpace: return 0x33;
#	Line 1425 | Line 1919 | static int kc_decode(KeySym ks)
1919		case XK_Left: return 0x3b;
1920		case XK_Right: return 0x3c;
1921
1922	<	case XK_Escape: if (ctrl_down) {quit_full_screen = true; emerg_quit = true; return -1;} else return 0x35;
1922	>	case XK_Escape: if (ctrl_down) {if (key_down) { quit_full_screen = true; emerg_quit = true; } return -2;} else return 0x35;
1923
1924	<	case XK_F1: if (ctrl_down) {SysMountFirstFloppy(); return -1;} else return 0x7a;
1924	>	case XK_F1: if (ctrl_down) {if (key_down) SysMountFirstFloppy(); return -2;} else return 0x7a;
1925		case XK_F2: return 0x78;
1926		case XK_F3: return 0x63;
1927		case XK_F4: return 0x76;
1928	<	case XK_F5: return 0x60;
1928	>	case XK_F5: if (ctrl_down) {if (key_down) drv->toggle_mouse_grab(); return -2;} else return 0x60;
1929		case XK_F6: return 0x61;
1930		case XK_F7: return 0x62;
1931		case XK_F8: return 0x64;
#	Line 1479 | Line 1973 | static int kc_decode(KeySym ks)
1973		return -1;
1974		}
1975
1976	<	static int event2keycode(XKeyEvent *ev)
1976	>	static int event2keycode(XKeyEvent &ev, bool key_down)
1977		{
1978		KeySym ks;
1485	–	int as;
1979		int i = 0;
1980
1981		do {
1982	<	ks = XLookupKeysym(ev, i++);
1983	<	as = kc_decode(ks);
1984	<	if (as != -1)
1982	>	ks = XLookupKeysym(&ev, i++);
1983	>	int as = kc_decode(ks, key_down);
1984	>	if (as >= 0)
1985	>	return as;
1986	>	if (as == -2)
1987		return as;
1988		} while (ks != NoSymbol);
1989
#	Line 1502 | Line 1997 | static int event2keycode(XKeyEvent *ev)
1997
1998		static void handle_events(void)
1999		{
2000	<	XEvent event;
2001	<	for (;;) {
2002	<	if (!XCheckMaskEvent(x_display, eventmask, &event))
1508	<	break;
2000	>	while (XPending(x_display)) {
2001	>	XEvent event;
2002	>	XNextEvent(x_display, &event);
2003
2004		switch (event.type) {
2005	+
2006		// Mouse button
2007		case ButtonPress: {
2008	<	unsigned int button = ((XButtonEvent *)&event)->button;
2008	>	unsigned int button = event.xbutton.button;
2009		if (button < 4)
2010		ADBMouseDown(button - 1);
2011		else if (button < 6) {  // Wheel mouse
#	Line 1529 | Line 2024 | static void handle_events(void)
2024		break;
2025		}
2026		case ButtonRelease: {
2027	<	unsigned int button = ((XButtonEvent *)&event)->button;
2027	>	unsigned int button = event.xbutton.button;
2028		if (button < 4)
2029		ADBMouseUp(button - 1);
2030		break;
2031		}
2032
2033		// Mouse moved
1539	–	case EnterNotify:
1540	–	ADBMouseMoved(((XMotionEvent *)&event)->x, ((XMotionEvent *)&event)->y);
1541	–	break;
2034		case MotionNotify:
2035	<	ADBMouseMoved(((XMotionEvent *)&event)->x, ((XMotionEvent *)&event)->y);
2035	>	drv->mouse_moved(event.xmotion.x, event.xmotion.y);
2036	>	break;
2037	>
2038	>	// Mouse entered window
2039	>	case EnterNotify:
2040	>	if (event.xcrossing.mode != NotifyGrab && event.xcrossing.mode != NotifyUngrab)
2041	>	drv->mouse_moved(event.xmotion.x, event.xmotion.y);
2042		break;
2043
2044		// Keyboard
2045		case KeyPress: {
2046	<	int code;
2046	>	int code = -1;
2047		if (use_keycodes) {
2048	<	event2keycode((XKeyEvent *)&event);     // This is called to process the hotkeys
2049	<	code = keycode_table[((XKeyEvent *)&event)->keycode & 0xff];
2048	>	if (event2keycode(event.xkey, true) != -2)      // This is called to process the hotkeys
2049	>	code = keycode_table[event.xkey.keycode & 0xff];
2050		} else
2051	<	code = event2keycode((XKeyEvent *)&event);
2052	<	if (code != -1) {
2051	>	code = event2keycode(event.xkey, true);
2052	>	if (code >= 0) {
2053		if (!emul_suspended) {
2054		if (code == 0x39) {     // Caps Lock pressed
2055		if (caps_on) {
#	Line 1566 | Line 2064 | static void handle_events(void)
2064		if (code == 0x36)
2065		ctrl_down = true;
2066		} else {
1569	–	#if defined(ENABLE_XF86_DGA) || defined(ENABLE_FBDEV_DGA)
2067		if (code == 0x31)
2068	<	resume_emul();  // Space wakes us up
1572	<	#endif
2068	>	drv->resume();  // Space wakes us up
2069		}
2070		}
2071		break;
2072		}
2073		case KeyRelease: {
2074	<	int code;
2074	>	int code = -1;
2075		if (use_keycodes) {
2076	<	event2keycode((XKeyEvent *)&event);     // This is called to process the hotkeys
2077	<	code = keycode_table[((XKeyEvent *)&event)->keycode & 0xff];
2076	>	if (event2keycode(event.xkey, false) != -2)     // This is called to process the hotkeys
2077	>	code = keycode_table[event.xkey.keycode & 0xff];
2078		} else
2079	<	code = event2keycode((XKeyEvent *)&event);
2080	<	if (code != -1 && code != 0x39) {       // Don't propagate Caps Lock releases
2079	>	code = event2keycode(event.xkey, false);
2080	>	if (code >= 0 && code != 0x39) {        // Don't propagate Caps Lock releases
2081		ADBKeyUp(code);
2082		if (code == 0x36)
2083		ctrl_down = false;
#	Line 1594 | Line 2090 | static void handle_events(void)
2090		if (display_type == DISPLAY_WINDOW) {
2091		#ifdef ENABLE_VOSF
2092		if (use_vosf) {                 // VOSF refresh
2093	<	#ifdef HAVE_PTHREADS
1598	<	pthread_mutex_lock(&Screen_draw_lock);
1599	<	#endif
2093	>	LOCK_VOSF;
2094		PFLAG_SET_ALL;
2095	<	#ifdef HAVE_PTHREADS
2096	<	pthread_mutex_unlock(&Screen_draw_lock);
1603	<	#endif
1604	<	memset(the_buffer_copy, 0, VideoMonitor.bytes_per_row * VideoMonitor.y);
2095	>	UNLOCK_VOSF;
2096	>	memset(the_buffer_copy, 0, VideoMonitor.mode.bytes_per_row * VideoMonitor.mode.y);
2097		}
2098		else
2099		#endif
#	Line 1612 | Line 2104 | static void handle_events(void)
2104		updt_box[x1][y1] = true;
2105		nr_boxes = 16 * 16;
2106		} else                                  // Static refresh
2107	<	memset(the_buffer_copy, 0, VideoMonitor.bytes_per_row * VideoMonitor.y);
2107	>	memset(the_buffer_copy, 0, VideoMonitor.mode.bytes_per_row * VideoMonitor.mode.y);
2108	>	}
2109	>	break;
2110	>
2111	>	// Window "close" widget clicked
2112	>	case ClientMessage:
2113	>	if (event.xclient.format == 32 && event.xclient.data.l[0] == WM_DELETE_WINDOW) {
2114	>	ADBKeyDown(0x7f);       // Power key
2115	>	ADBKeyUp(0x7f);
2116		}
2117		break;
2118		}
#	Line 1625 | Line 2125 | static void handle_events(void)
2125		*/
2126
2127		// Dynamic display update (variable frame rate for each box)
2128	<	static void update_display_dynamic(int ticker)
2128	>	static void update_display_dynamic(int ticker, driver_window *drv)
2129		{
2130		int y1, y2, y2s, y2a, i, x1, xm, xmo, ymo, yo, yi, yil, xi;
2131		int xil = 0;
2132		int rxm = 0, rxmo = 0;
2133	<	int bytes_per_row = VideoMonitor.bytes_per_row;
2134	<	int bytes_per_pixel = VideoMonitor.bytes_per_row / VideoMonitor.x;
2135	<	int rx = VideoMonitor.bytes_per_row / 16;
2136	<	int ry = VideoMonitor.y / 16;
2133	>	int bytes_per_row = VideoMonitor.mode.bytes_per_row;
2134	>	int bytes_per_pixel = VideoMonitor.mode.bytes_per_row / VideoMonitor.mode.x;
2135	>	int rx = VideoMonitor.mode.bytes_per_row / 16;
2136	>	int ry = VideoMonitor.mode.y / 16;
2137		int max_box;
2138
2139		y2s = sm_uptd[ticker % 8];
#	Line 1687 | Line 2187 | static void update_display_dynamic(int t
2187		i = (yi * bytes_per_row) + xi;
2188		for (y2=0; y2 < yil; y2++, i += bytes_per_row)
2189		memcpy(&the_buffer_copy[i], &the_buffer[i], xil);
2190	<	if (depth == 1) {
2191	<	if (have_shm)
2192	<	XShmPutImage(x_display, the_win, the_gc, img, xi * 8, yi, xi * 8, yi, xil * 8, yil, 0);
2190	>	if (VideoMonitor.mode.depth == VDEPTH_1BIT) {
2191	>	if (drv->have_shm)
2192	>	XShmPutImage(x_display, drv->w, drv->gc, drv->img, xi * 8, yi, xi * 8, yi, xil * 8, yil, 0);
2193		else
2194	<	XPutImage(x_display, the_win, the_gc, img, xi * 8, yi, xi * 8, yi, xil * 8, yil);
2194	>	XPutImage(x_display, drv->w, drv->gc, drv->img, xi * 8, yi, xi * 8, yi, xil * 8, yil);
2195		} else {
2196	<	if (have_shm)
2197	<	XShmPutImage(x_display, the_win, the_gc, img, xi / bytes_per_pixel, yi, xi / bytes_per_pixel, yi, xil / bytes_per_pixel, yil, 0);
2196	>	if (drv->have_shm)
2197	>	XShmPutImage(x_display, drv->w, drv->gc, drv->img, xi / bytes_per_pixel, yi, xi / bytes_per_pixel, yi, xil / bytes_per_pixel, yil, 0);
2198		else
2199	<	XPutImage(x_display, the_win, the_gc, img, xi / bytes_per_pixel, yi, xi / bytes_per_pixel, yi, xil / bytes_per_pixel, yil);
2199	>	XPutImage(x_display, drv->w, drv->gc, drv->img, xi / bytes_per_pixel, yi, xi / bytes_per_pixel, yi, xil / bytes_per_pixel, yil);
2200		}
2201		xil = 0;
2202		}
#	Line 1715 | Line 2215 | static void update_display_dynamic(int t
2215		}
2216
2217		// Static display update (fixed frame rate, but incremental)
2218	<	static void update_display_static(void)
2218	>	static void update_display_static(driver_window *drv)
2219		{
2220		// Incremental update code
2221	<	int wide = 0, high = 0, x1, x2, y1, y2, i, j;
2222	<	int bytes_per_row = VideoMonitor.bytes_per_row;
2223	<	int bytes_per_pixel = VideoMonitor.bytes_per_row / VideoMonitor.x;
2221	>	unsigned wide = 0, high = 0, x1, x2, y1, y2, i, j;
2222	>	int bytes_per_row = VideoMonitor.mode.bytes_per_row;
2223	>	int bytes_per_pixel = VideoMonitor.mode.bytes_per_row / VideoMonitor.mode.x;
2224		uint8 *p, *p2;
2225
2226		// Check for first line from top and first line from bottom that have changed
2227		y1 = 0;
2228	<	for (j=0; j<VideoMonitor.y; j++) {
2228	>	for (j=0; j<VideoMonitor.mode.y; j++) {
2229		if (memcmp(&the_buffer[j * bytes_per_row], &the_buffer_copy[j * bytes_per_row], bytes_per_row)) {
2230		y1 = j;
2231		break;
2232		}
2233		}
2234		y2 = y1 - 1;
2235	<	for (j=VideoMonitor.y-1; j>=y1; j--) {
2235	>	for (j=VideoMonitor.mode.y-1; j>=y1; j--) {
2236		if (memcmp(&the_buffer[j * bytes_per_row], &the_buffer_copy[j * bytes_per_row], bytes_per_row)) {
2237		y2 = j;
2238		break;
#	Line 1742 | Line 2242 | static void update_display_static(void)
2242
2243		// Check for first column from left and first column from right that have changed
2244		if (high) {
2245	<	if (depth == 1) {
2246	<	x1 = VideoMonitor.x;
2245	>	if (VideoMonitor.mode.depth == VDEPTH_1BIT) {
2246	>	x1 = VideoMonitor.mode.x - 1;
2247		for (j=y1; j<=y2; j++) {
2248		p = &the_buffer[j * bytes_per_row];
2249		p2 = &the_buffer_copy[j * bytes_per_row];
#	Line 1761 | Line 2261 | static void update_display_static(void)
2261		p2 = &the_buffer_copy[j * bytes_per_row];
2262		p += bytes_per_row;
2263		p2 += bytes_per_row;
2264	<	for (i=(VideoMonitor.x>>3); i>(x2>>3); i--) {
2264	>	for (i=(VideoMonitor.mode.x>>3); i>(x2>>3); i--) {
2265		p--; p2--;
2266		if (*p != *p2) {
2267	<	x2 = i << 3;
2267	>	x2 = (i << 3) + 7;
2268		break;
2269		}
2270		}
2271		}
2272	<	wide = x2 - x1;
2272	>	wide = x2 - x1 + 1;
2273
2274		// Update copy of the_buffer
2275		if (high && wide) {
#	Line 1780 | Line 2280 | static void update_display_static(void)
2280		}
2281
2282		} else {
2283	<	x1 = VideoMonitor.x;
2283	>	x1 = VideoMonitor.mode.x;
2284		for (j=y1; j<=y2; j++) {
2285		p = &the_buffer[j * bytes_per_row];
2286		p2 = &the_buffer_copy[j * bytes_per_row];
#	Line 1798 | Line 2298 | static void update_display_static(void)
2298		p2 = &the_buffer_copy[j * bytes_per_row];
2299		p += bytes_per_row;
2300		p2 += bytes_per_row;
2301	<	for (i=VideoMonitor.x*bytes_per_pixel; i>x2*bytes_per_pixel; i--) {
2301	>	for (i=VideoMonitor.mode.x*bytes_per_pixel; i>x2*bytes_per_pixel; i--) {
2302		p--;
2303		p2--;
2304		if (*p != *p2) {
#	Line 1821 | Line 2321 | static void update_display_static(void)
2321
2322		// Refresh display
2323		if (high && wide) {
2324	<	if (have_shm)
2325	<	XShmPutImage(x_display, the_win, the_gc, img, x1, y1, x1, y1, wide, high, 0);
2324	>	if (drv->have_shm)
2325	>	XShmPutImage(x_display, drv->w, drv->gc, drv->img, x1, y1, x1, y1, wide, high, 0);
2326		else
2327	<	XPutImage(x_display, the_win, the_gc, img, x1, y1, x1, y1, wide, high);
2327	>	XPutImage(x_display, drv->w, drv->gc, drv->img, x1, y1, x1, y1, wide, high);
2328		}
2329		}
2330
#	Line 1833 | Line 2333 | static void update_display_static(void)
2333		*      Screen refresh functions
2334		*/
2335
2336	<	// The specialisations hereunder are meant to enable VOSF with DGA in direct
2337	<	// addressing mode in case the address spaces (RAM, ROM, FrameBuffer) could
2338	<	// not get mapped correctly with respect to the predetermined host frame
2339	<	// buffer base address.
2340	<	//
1841	<	// Hmm, in other words, when in direct addressing mode and DGA is requested,
1842	<	// we first try to "triple allocate" the address spaces according to the real
1843	<	// host frame buffer address. Then, if it fails, we will use a temporary
1844	<	// frame buffer thus making the real host frame buffer updated when pages
1845	<	// of the temp frame buffer are altered.
1846	<	//
1847	<	// As a side effect, a little speed gain in screen updates could be noticed
1848	<	// for other modes than DGA.
1849	<	//
1850	<	// The following two functions below are inline so that a clever compiler
1851	<	// could specialise the code according to the current screen depth and
1852	<	// display type. A more clever compiler would the job by itself though...
1853	<	// (update_display_vosf is inlined as well)
2336	>	// We suggest the compiler to inline the next two functions so that it
2337	>	// may specialise the code according to the current screen depth and
2338	>	// display type. A clever compiler would do that job by itself though...
2339	>
2340	>	// NOTE: update_display_vosf is inlined too
2341
2342		static inline void possibly_quit_dga_mode()
2343		{
2344	<	#if defined(ENABLE_XF86_DGA) || defined(ENABLE_FBDEV_DGA)
2345	<	// Quit DGA mode if requested
2344	>	// Quit DGA mode if requested (something terrible has happened and we
2345	>	// want to give control back to the user)
2346		if (quit_full_screen) {
2347		quit_full_screen = false;
2348	<	#ifdef ENABLE_XF86_DGA
2349	<	XF86DGADirectVideo(x_display, screen, 0);
1863	<	#endif
1864	<	XUngrabPointer(x_display, CurrentTime);
1865	<	XUngrabKeyboard(x_display, CurrentTime);
1866	<	XUnmapWindow(x_display, the_win);
1867	<	XSync(x_display, false);
2348	>	delete drv;
2349	>	drv = NULL;
2350		}
1869	–	#endif
2351		}
2352
2353	<	static inline void handle_palette_changes(int depth, int display_type)
2353	>	static inline void possibly_ungrab_mouse()
2354		{
2355	<	#ifdef HAVE_PTHREADS
2356	<	pthread_mutex_lock(&palette_lock);
2357	<	#endif
2355	>	// Ungrab mouse if requested (something terrible has happened and we
2356	>	// want to give control back to the user)
2357	>	if (quit_full_screen) {
2358	>	quit_full_screen = false;
2359	>	if (drv)
2360	>	drv->ungrab_mouse();
2361	>	}
2362	>	}
2363	>
2364	>	static inline void handle_palette_changes(void)
2365	>	{
2366	>	LOCK_PALETTE;
2367	>
2368		if (palette_changed) {
2369		palette_changed = false;
2370	<	if (depth == 8) {
1880	<	XStoreColors(x_display, cmap[0], palette, 256);
1881	<	XStoreColors(x_display, cmap[1], palette, 256);
1882	<
1883	<	#ifdef ENABLE_XF86_DGA
1884	<	if (display_type == DISPLAY_DGA) {
1885	<	current_dga_cmap ^= 1;
1886	<	XF86DGAInstallColormap(x_display, screen, cmap[current_dga_cmap]);
1887	<	}
1888	<	#endif
1889	<	}
2370	>	drv->update_palette();
2371		}
2372	<	#ifdef HAVE_PTHREADS
2373	<	pthread_mutex_unlock(&palette_lock);
1893	<	#endif
2372	>
2373	>	UNLOCK_PALETTE;
2374		}
2375
2376		static void video_refresh_dga(void)
2377		{
2378		// Quit DGA mode if requested
2379		possibly_quit_dga_mode();
1900	–
1901	–	// Handle X events
1902	–	handle_events();
1903	–
1904	–	// Handle palette changes
1905	–	handle_palette_changes(depth, DISPLAY_DGA);
2380		}
2381
2382	+	#ifdef ENABLE_VOSF
2383		#if REAL_ADDRESSING || DIRECT_ADDRESSING
2384		static void video_refresh_dga_vosf(void)
2385		{
2386		// Quit DGA mode if requested
2387		possibly_quit_dga_mode();
2388
1914	–	// Handle X events
1915	–	handle_events();
1916	–
1917	–	// Handle palette changes
1918	–	handle_palette_changes(depth, DISPLAY_DGA);
1919	–
2389		// Update display (VOSF variant)
2390		static int tick_counter = 0;
2391		if (++tick_counter >= frame_skip) {
2392		tick_counter = 0;
2393	<	#ifdef HAVE_PTHREADS
2394	<	pthread_mutex_lock(&Screen_draw_lock);
2395	<	#endif
2396	<	update_display_dga_vosf();
2397	<	#ifdef HAVE_PTHREADS
1929	<	pthread_mutex_unlock(&Screen_draw_lock);
1930	<	#endif
2393	>	if (mainBuffer.dirty) {
2394	>	LOCK_VOSF;
2395	>	update_display_dga_vosf();
2396	>	UNLOCK_VOSF;
2397	>	}
2398		}
2399		}
2400		#endif
2401
1935	–	#ifdef ENABLE_VOSF
2402		static void video_refresh_window_vosf(void)
2403		{
2404	<	// Quit DGA mode if requested
2405	<	possibly_quit_dga_mode();
1940	<
1941	<	// Handle X events
1942	<	handle_events();
1943	<
1944	<	// Handle palette changes
1945	<	handle_palette_changes(depth, DISPLAY_WINDOW);
2404	>	// Ungrab mouse if requested
2405	>	possibly_ungrab_mouse();
2406
2407		// Update display (VOSF variant)
2408		static int tick_counter = 0;
2409		if (++tick_counter >= frame_skip) {
2410		tick_counter = 0;
2411	<	#ifdef HAVE_PTHREADS
2412	<	pthread_mutex_lock(&Screen_draw_lock);
2413	<	#endif
2414	<	update_display_window_vosf();
2415	<	#ifdef HAVE_PTHREADS
2416	<	pthread_mutex_unlock(&Screen_draw_lock);
1957	<	#endif
2411	>	if (mainBuffer.dirty) {
2412	>	LOCK_VOSF;
2413	>	update_display_window_vosf(static_cast<driver_window *>(drv));
2414	>	UNLOCK_VOSF;
2415	>	XSync(x_display, false); // Let the server catch up
2416	>	}
2417		}
2418		}
2419	<	#endif
2419	>	#endif // def ENABLE_VOSF
2420
2421		static void video_refresh_window_static(void)
2422		{
2423	<	// Handle X events
2424	<	handle_events();
2425	<
1967	<	// Handle_palette changes
1968	<	handle_palette_changes(depth, DISPLAY_WINDOW);
1969	<
2423	>	// Ungrab mouse if requested
2424	>	possibly_ungrab_mouse();
2425	>
2426		// Update display (static variant)
2427		static int tick_counter = 0;
2428		if (++tick_counter >= frame_skip) {
2429		tick_counter = 0;
2430	<	update_display_static();
2430	>	update_display_static(static_cast<driver_window *>(drv));
2431		}
2432		}
2433
2434		static void video_refresh_window_dynamic(void)
2435		{
2436	<	// Handle X events
2437	<	handle_events();
2438	<
1983	<	// Handle_palette changes
1984	<	handle_palette_changes(depth, DISPLAY_WINDOW);
1985	<
2436	>	// Ungrab mouse if requested
2437	>	possibly_ungrab_mouse();
2438	>
2439		// Update display (dynamic variant)
2440		static int tick_counter = 0;
2441		tick_counter++;
2442	<	update_display_dynamic(tick_counter);
2442	>	update_display_dynamic(tick_counter, static_cast<driver_window *>(drv));
2443		}
2444
2445
#	Line 1994 | Line 2447 | static void video_refresh_window_dynamic
2447		*  Thread for screen refresh, input handling etc.
2448		*/
2449
2450	<	void VideoRefreshInit(void)
2450	>	static void VideoRefreshInit(void)
2451		{
2452		// TODO: set up specialised 8bpp VideoRefresh handlers ?
2453		if (display_type == DISPLAY_DGA) {
2454	<	#if REAL_ADDRESSING || DIRECT_ADDRESSING
2454	>	#if ENABLE_VOSF && (REAL_ADDRESSING || DIRECT_ADDRESSING)
2455		if (use_vosf)
2456		video_refresh = video_refresh_dga_vosf;
2457		else
#	Line 2018 | Line 2471 | void VideoRefreshInit(void)
2471		}
2472		}
2473
2474	+	// This function is called on non-threaded platforms from a timer interrupt
2475		void VideoRefresh(void)
2476		{
2477	<	// TODO: make main_unix/VideoRefresh call directly video_refresh() ?
2478	<	video_refresh();
2479	<	}
2480	<
2027	<	#if 0
2028	<	void VideoRefresh(void)
2029	<	{
2030	<	#if defined(ENABLE_XF86_DGA) || defined(ENABLE_FBDEV_DGA)
2031	<	// Quit DGA mode if requested
2032	<	if (quit_full_screen) {
2033	<	quit_full_screen = false;
2034	<	if (display_type == DISPLAY_DGA) {
2035	<	#ifdef ENABLE_XF86_DGA
2036	<	XF86DGADirectVideo(x_display, screen, 0);
2037	<	#endif
2038	<	XUngrabPointer(x_display, CurrentTime);
2039	<	XUngrabKeyboard(x_display, CurrentTime);
2040	<	XUnmapWindow(x_display, the_win);
2041	<	XSync(x_display, false);
2042	<	}
2043	<	}
2044	<	#endif
2477	>	// We need to check redraw_thread_active to inhibit refreshed during
2478	>	// mode changes on non-threaded platforms
2479	>	if (!redraw_thread_active)
2480	>	return;
2481
2482		// Handle X events
2483		handle_events();
2484
2485		// Handle palette changes
2486	<	#ifdef HAVE_PTHREADS
2051	<	pthread_mutex_lock(&palette_lock);
2052	<	#endif
2053	<	if (palette_changed) {
2054	<	palette_changed = false;
2055	<	if (depth == 8) {
2056	<	XStoreColors(x_display, cmap[0], palette, 256);
2057	<	XStoreColors(x_display, cmap[1], palette, 256);
2058	<
2059	<	#ifdef ENABLE_XF86_DGA
2060	<	if (display_type == DISPLAY_DGA) {
2061	<	current_dga_cmap ^= 1;
2062	<	XF86DGAInstallColormap(x_display, screen, cmap[current_dga_cmap]);
2063	<	}
2064	<	#endif
2065	<	}
2066	<	}
2067	<	#ifdef HAVE_PTHREADS
2068	<	pthread_mutex_unlock(&palette_lock);
2069	<	#endif
2486	>	handle_palette_changes();
2487
2488	<	// In window mode, update display
2489	<	static int tick_counter = 0;
2073	<	if (display_type == DISPLAY_WINDOW) {
2074	<	tick_counter++;
2075	<	if (frame_skip == 0)
2076	<	update_display_dynamic(tick_counter);
2077	<	else if (tick_counter >= frame_skip) {
2078	<	tick_counter = 0;
2079	<	update_display_static();
2080	<	}
2081	<	}
2488	>	// Update display
2489	>	video_refresh();
2490		}
2491	<	#endif
2491	>
2492	>	const int VIDEO_REFRESH_HZ = 60;
2493	>	const int VIDEO_REFRESH_DELAY = 1000000 / VIDEO_REFRESH_HZ;
2494
2495		#ifdef HAVE_PTHREADS
2496		static void *redraw_func(void *arg)
2497		{
2498	+	int fd = ConnectionNumber(x_display);
2499	+
2500		uint64 start = GetTicks_usec();
2501		int64 ticks = 0;
2502	<	uint64 next = GetTicks_usec();
2502	>	uint64 next = GetTicks_usec() + VIDEO_REFRESH_DELAY;
2503	>
2504		while (!redraw_thread_cancel) {
2505	<	//              VideoRefresh();
2093	<	video_refresh();
2094	<	next += 16667;
2505	>
2506		int64 delay = next - GetTicks_usec();
2507	<	if (delay > 0)
2508	<	Delay_usec(delay);
2509	<	else if (delay < -16667)
2507	>	if (delay < -VIDEO_REFRESH_DELAY) {
2508	>
2509	>	// We are lagging far behind, so we reset the delay mechanism
2510		next = GetTicks_usec();
2511	<	ticks++;
2511	>
2512	>	} else if (delay <= 0) {
2513	>
2514	>	// Delay expired, refresh display
2515	>	handle_events();
2516	>	handle_palette_changes();
2517	>	video_refresh();
2518	>	next += VIDEO_REFRESH_DELAY;
2519	>	ticks++;
2520	>
2521	>	} else {
2522	>
2523	>	// No display refresh pending, check for X events
2524	>	fd_set readfds;
2525	>	FD_ZERO(&readfds);
2526	>	FD_SET(fd, &readfds);
2527	>	struct timeval timeout;
2528	>	timeout.tv_sec = 0;
2529	>	timeout.tv_usec = delay;
2530	>	if (select(fd+1, &readfds, NULL, NULL, &timeout) > 0)
2531	>	handle_events();
2532	>	}
2533		}
2534	+
2535		uint64 end = GetTicks_usec();
2536	<	printf("%Ld ticks in %Ld usec = %Ld ticks/sec\n", ticks, end - start, (end - start) / ticks);
2536	>	D(bug("%Ld refreshes in %Ld usec = %f refreshes/sec\n", ticks, end - start, ticks * 1000000.0 / (end - start)));
2537		return NULL;
2538		}
2539		#endif

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