/* vid_x11_sw.c Software X11 video driver (8/32 bit) Copyright (C) 1996-1997 Id Software, Inc. Copyright (C) 1999-2000 contributors of the QuakeForge project Copyright (C) 2000 Marcus Sundberg [mackan@stacken.kth.se] Copyright (C) 1999,2000 contributors of the QuakeForge project Please see the file "AUTHORS" for a list of contributors This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program; if not, write to: Free Software Foundation, Inc. 59 Temple Place - Suite 330 Boston, MA 02111-1307, USA */ #ifdef HAVE_CONFIG_H # include "config.h" #endif #ifdef HAVE_STRING_H # include #endif #ifdef HAVE_STRINGS_H # include #endif #ifdef HAVE_UNISTD_H # include #endif #include #include #include #include #include #include #include #include #include #include #include #include #include "QF/console.h" #include "QF/cvar.h" #include "QF/qargs.h" #include "QF/sys.h" #include "QF/vid.h" #include "QF/ui/view.h" #include "context_x11.h" #include "r_internal.h" #include "vid_internal.h" #include "vid_sw.h" int XShmGetEventBase (Display *x); // for broken X11 headers static GC x_gc; static qboolean doShm; static XShmSegmentInfo x_shminfo[2]; static int current_framebuffer; static XImage *x_framebuffer[2] = { 0, 0 }; typedef unsigned char PIXEL8; typedef unsigned short PIXEL16; typedef unsigned int PIXEL24; static PIXEL16 st2d_8to16table[256]; static PIXEL24 st2d_8to24table[256]; static byte current_palette[768]; static int shiftmask_fl = 0; static long r_shift, g_shift, b_shift; static unsigned long r_mask, g_mask, b_mask; static void shiftmask_init (void) { unsigned long long x; r_mask = x_vis->red_mask; g_mask = x_vis->green_mask; b_mask = x_vis->blue_mask; for (r_shift = -8, x = 1; x < r_mask; x <<= 1) r_shift++; for (g_shift = -8, x = 1; x < g_mask; x <<= 1) g_shift++; for (b_shift = -8, x = 1; x < b_mask; x <<= 1) b_shift++; shiftmask_fl = 1; } static PIXEL16 xlib_rgb16 (int r, int g, int b) { PIXEL16 p = 0; if (!shiftmask_fl) shiftmask_init (); if (r_shift > 0) { p = (r << (r_shift)) & r_mask; } else { if (r_shift < 0) { p = (r >> (-r_shift)) & r_mask; } else { p |= (r & r_mask); } } if (g_shift > 0) { p |= (g << (g_shift)) & g_mask; } else { if (g_shift < 0) { p |= (g >> (-g_shift)) & g_mask; } else { p |= (g & g_mask); } } if (b_shift > 0) { p |= (b << (b_shift)) & b_mask; } else { if (b_shift < 0) { p |= (b >> (-b_shift)) & b_mask; } else { p |= (b & b_mask); } } return p; } static PIXEL24 xlib_rgb24 (int r, int g, int b) { PIXEL24 p = 0; if (!shiftmask_fl) shiftmask_init (); if (r_shift > 0) { p = (r << (r_shift)) & r_mask; } else { if (r_shift < 0) { p = (r >> (-r_shift)) & r_mask; } else { p |= (r & r_mask); } } if (g_shift > 0) { p |= (g << (g_shift)) & g_mask; } else { if (g_shift < 0) { p |= (g >> (-g_shift)) & g_mask; } else { p |= (g & g_mask); } } if (b_shift > 0) { p |= (b << (b_shift)) & b_mask; } else { if (b_shift < 0) { p |= (b >> (-b_shift)) & b_mask; } else { p |= (b & b_mask); } } return p; } static void x11_set_palette (sw_ctx_t *ctx, const byte *palette) { int i; XColor colors[256]; for (i = 0; i < 256; i++) { st2d_8to16table[i] = xlib_rgb16 (palette[i * 3], palette[i * 3 + 1], palette[i * 3 + 2]); st2d_8to24table[i] = xlib_rgb24 (palette[i * 3], palette[i * 3 + 1], palette[i * 3 + 2]); } if (x_visinfo->class == PseudoColor && x_visinfo->depth == 8) { if (palette != current_palette) { memcpy (current_palette, palette, 768); } for (i = 0; i < 256; i++) { colors[i].pixel = i; colors[i].flags = DoRed | DoGreen | DoBlue; colors[i].red = palette[(i * 3)] << 8; colors[i].green = palette[(i * 3) + 1] << 8; colors[i].blue = palette[(i * 3) + 2] << 8; } XStoreColors (x_disp, x_cmap, colors, 256); } } static void st2_fixup (sw_ctx_t *ctx, XImage *framebuf, int x, int y, int width, int height) { int xi, yi; unsigned char *src; PIXEL16 *dest; sw_framebuffer_t *fb = ctx->framebuffer->buffer; if (x < 0 || y < 0) return; for (yi = y; yi < (y + height); yi++) { src = &fb->color[yi * fb->rowbytes]; dest = (PIXEL16 *) &framebuf->data[yi * framebuf->bytes_per_line]; for (xi = x; xi < x + width; xi++) { dest[xi] = st2d_8to16table[src[xi]]; } } } static void st3_fixup (sw_ctx_t *ctx, XImage *framebuf, int x, int y, int width, int height) { int yi; unsigned char *src; PIXEL24 *dest; sw_framebuffer_t *fb = ctx->framebuffer->buffer; register int count, n; if (x < 0 || y < 0) return; for (yi = y; yi < (y + height); yi++) { src = &fb->color[yi * fb->rowbytes + x]; dest = (PIXEL24 *) &framebuf->data[yi * framebuf->bytes_per_line + x]; // Duff's Device count = width; n = (count + 7) / 8; switch (count % 8) { case 0: do { *dest++ = st2d_8to24table[*src++]; case 7: *dest++ = st2d_8to24table[*src++]; case 6: *dest++ = st2d_8to24table[*src++]; case 5: *dest++ = st2d_8to24table[*src++]; case 4: *dest++ = st2d_8to24table[*src++]; case 3: *dest++ = st2d_8to24table[*src++]; case 2: *dest++ = st2d_8to24table[*src++]; case 1: *dest++ = st2d_8to24table[*src++]; } while (--n > 0); } } } static void x11_put_image (vrect_t *rect) { if (doShm) { if (!XShmPutImage (x_disp, x_win, x_gc, x_framebuffer[current_framebuffer], rect->x, rect->y, rect->x, rect->y, rect->width, rect->height, True)) { Sys_Error ("VID_Update: XShmPutImage failed"); } oktodraw = false; while (!oktodraw) X11_ProcessEvent (); current_framebuffer = !current_framebuffer; } else { if (XPutImage (x_disp, x_win, x_gc, x_framebuffer[0], rect->x, rect->y, rect->x, rect->y, rect->width, rect->height)) { Sys_Error ("VID_Update: XPutImage failed"); } } } /* Flush the given rectangles from the view buffer to the screen. */ static void x11_sw8_8_update (sw_ctx_t *ctx, vrect_t *rects) { vrect_t urect = *rects; while (rects->next) { rects = rects->next; int minx = min (VRect_MinX (&urect), VRect_MinX (rects)); int miny = min (VRect_MinY (&urect), VRect_MinY (rects)); int maxx = max (VRect_MaxX (&urect), VRect_MaxX (rects)); int maxy = max (VRect_MaxY (&urect), VRect_MaxY (rects)); urect.x = minx; urect.y = miny; urect.width = maxx - minx; urect.height = maxy - miny; } x11_put_image (&urect); XSync (x_disp, False); r_data->scr_fullupdate = 0; sw_framebuffer_t *fb = ctx->framebuffer->buffer; fb->color = (byte *) x_framebuffer[current_framebuffer]->data; } static void x11_sw8_16_update (sw_ctx_t *ctx, vrect_t *rects) { vrect_t urect = *rects; st2_fixup (ctx, x_framebuffer[current_framebuffer], rects->x, rects->y, rects->width, rects->height); while (rects->next) { rects = rects->next; st2_fixup (ctx, x_framebuffer[current_framebuffer], rects->x, rects->y, rects->width, rects->height); int minx = min (VRect_MinX (&urect), VRect_MinX (rects)); int miny = min (VRect_MinY (&urect), VRect_MinY (rects)); int maxx = max (VRect_MaxX (&urect), VRect_MaxX (rects)); int maxy = max (VRect_MaxY (&urect), VRect_MaxY (rects)); urect.x = minx; urect.y = miny; urect.width = maxx - minx; urect.height = maxy - miny; } x11_put_image (&urect); XSync (x_disp, False); r_data->scr_fullupdate = 0; } static void x11_sw8_24_update (sw_ctx_t *ctx, vrect_t *rects) { vrect_t urect = *rects; st3_fixup (ctx, x_framebuffer[current_framebuffer], rects->x, rects->y, rects->width, rects->height); while (rects->next) { rects = rects->next; st3_fixup (ctx, x_framebuffer[current_framebuffer], rects->x, rects->y, rects->width, rects->height); int minx = min (VRect_MinX (&urect), VRect_MinX (rects)); int miny = min (VRect_MinY (&urect), VRect_MinY (rects)); int maxx = max (VRect_MaxX (&urect), VRect_MaxX (rects)); int maxy = max (VRect_MaxY (&urect), VRect_MaxY (rects)); urect.x = minx; urect.y = miny; urect.width = maxx - minx; urect.height = maxy - miny; } x11_put_image (&urect); XSync (x_disp, False); r_data->scr_fullupdate = 0; } #if 0 static void x11_sw16_16_update (sw_ctx_t *ctx, vrect_t *rects) { uint16_t *buffer = (uint16_t *) viddef.buffer; XImage *framebuf = x_framebuffer[current_framebuffer]; int rowbytes = framebuf->bytes_per_line; while (rects) { int x = rects->x; int y = rects->y; int width = rects->width; int height = rects->height; for (int yi = y; yi < (y + height); yi++) { uint16_t *src = buffer + yi * viddef.width + x; PIXEL16 *dest = (PIXEL16 *) (framebuf->data + yi * rowbytes) + x; for (int count = width; count-- > 0; ) { *dest++ = *src++; } } x11_put_image (rects); rects = rects->next; } XSync (x_disp, False); r_data->scr_fullupdate = 0; } static void x11_sw16_32_update (sw_ctx_t *ctx, vrect_t *rects) { uint16_t *buffer = (uint16_t *) viddef.buffer; XImage *framebuf = x_framebuffer[current_framebuffer]; int rowbytes = framebuf->bytes_per_line; while (rects) { int x = rects->x; int y = rects->y; int width = rects->width; int height = rects->height; for (int yi = y; yi < (y + height); yi++) { uint16_t *src = buffer + yi * viddef.width + x; PIXEL24 *dest = (PIXEL24 *) (framebuf->data + yi * rowbytes) + x; for (int count = width; count-- > 0; ) { uint32_t c = *src++; *dest++ = 0xff000000 | ((c & 0xf800) << 8) | ((c & 0x07e0) << 5) | ((c & 0x001f) << 3); } } x11_put_image (rects); rects = rects->next; } XSync (x_disp, False); r_data->scr_fullupdate = 0; } static void x11_sw32_update (sw_ctx_t *ctx, vrect_t *rects) { uint32_t *buffer = (uint32_t *) viddef.buffer; XImage *framebuf = x_framebuffer[current_framebuffer]; int rowbytes = framebuf->bytes_per_line; while (rects) { int x = rects->x; int y = rects->y; int width = rects->width; int height = rects->height; for (int yi = y; yi < (y + height); yi++) { uint32_t *src = buffer + yi * viddef.width + x; PIXEL24 *dest = (PIXEL24 *) (framebuf->data + yi * rowbytes) + x; for (int count = width; count-- > 0; ) { *dest++ = *src++; } } x11_put_image (rects); rects = rects->next; } XSync (x_disp, False); r_data->scr_fullupdate = 0; } #endif static void x11_choose_visual (sw_ctx_t *ctx) { int pnum, i; XVisualInfo template; int num_visuals; int template_mask; // specify a visual id if ((pnum = COM_CheckParm ("-visualid"))) { if (pnum >= com_argc - 1) Sys_Error ("VID: -visualid "); template.visualid = atoi (com_argv[pnum + 1]); template_mask = VisualIDMask; } else { // If not specified, use default // visual template.visualid = XVisualIDFromVisual (XDefaultVisual (x_disp, x_screen)); template_mask = VisualIDMask; } // pick a visual -- warn if more than one was available x_visinfo = XGetVisualInfo (x_disp, template_mask, &template, &num_visuals); if (x_visinfo->depth == 8 && x_visinfo->class == PseudoColor) x_cmap = XCreateColormap (x_disp, x_win, x_vis, AllocAll); x_vis = x_visinfo->visual; ctx->update = x11_sw8_8_update; switch (x_visinfo->depth) { case 8: ctx->update = x11_sw8_8_update; break; case 16: ctx->update = x11_sw8_16_update; break; case 24: ctx->update = x11_sw8_24_update; break; } if (num_visuals > 1) { Sys_MaskPrintf (SYS_vid, "Found more than one visual id at depth %d:\n", template.depth); for (i = 0; i < num_visuals; i++) Sys_MaskPrintf (SYS_vid, " -visualid %d\n", (int) x_visinfo[i].visualid); } else { if (num_visuals == 0) { if (template_mask == VisualIDMask) { Sys_Error ("VID: Bad visual ID %ld", template.visualid); } else { Sys_Error ("VID: No visuals at depth %d", template.depth); } } } Sys_MaskPrintf (SYS_vid, "Using visualid %d:\n", (int) x_visinfo->visualid); Sys_MaskPrintf (SYS_vid, " class %d\n", x_visinfo->class); Sys_MaskPrintf (SYS_vid, " screen %d\n", x_visinfo->screen); Sys_MaskPrintf (SYS_vid, " depth %d\n", x_visinfo->depth); Sys_MaskPrintf (SYS_vid, " red_mask 0x%x\n", (int) x_visinfo->red_mask); Sys_MaskPrintf (SYS_vid, " green_mask 0x%x\n", (int) x_visinfo->green_mask); Sys_MaskPrintf (SYS_vid, " blue_mask 0x%x\n", (int) x_visinfo->blue_mask); Sys_MaskPrintf (SYS_vid, " colormap_size %d\n", x_visinfo->colormap_size); Sys_MaskPrintf (SYS_vid, " bits_per_rgb %d\n", x_visinfo->bits_per_rgb); } static void ResetFrameBuffer (void) { int mem, pwidth; char *buf; if (x_framebuffer[0]) { XDestroyImage (x_framebuffer[0]); } pwidth = x_visinfo->depth / 8; if (pwidth == 3) pwidth = 4; mem = ((viddef.width * pwidth + 7) & ~7) * viddef.height; buf = malloc (mem); SYS_CHECKMEM (buf); // allocate new screen buffer x_framebuffer[0] = XCreateImage (x_disp, x_vis, x_visinfo->depth, ZPixmap, 0, buf, viddef.width, viddef.height, 32, 0); if (!x_framebuffer[0]) { Sys_Error ("VID: XCreateImage failed"); } } static void ResetSharedFrameBuffers (void) { int size; int key; int minsize = getpagesize (); int frm; for (frm = 0; frm < 2; frm++) { // free up old frame buffer memory if (x_framebuffer[frm]) { XShmDetach (x_disp, &x_shminfo[frm]); free (x_framebuffer[frm]); shmdt (x_shminfo[frm].shmaddr); } // create the image x_framebuffer[frm] = XShmCreateImage (x_disp, x_vis, x_visinfo->depth, ZPixmap, 0, &x_shminfo[frm], viddef.width, viddef.height); // grab shared memory size = x_framebuffer[frm]->bytes_per_line * x_framebuffer[frm]->height; if (size < minsize) Sys_Error ("VID: Window must use at least %d bytes", minsize); key = random (); x_shminfo[frm].shmid = shmget ((key_t) key, size, IPC_CREAT | 0777); if (x_shminfo[frm].shmid == -1) Sys_Error ("VID: Could not get any shared memory (%s)", strerror (errno)); // attach to the shared memory segment x_shminfo[frm].shmaddr = (void *) shmat (x_shminfo[frm].shmid, 0, 0); Sys_MaskPrintf (SYS_vid, "VID: shared memory id=%d, addr=0x%lx\n", x_shminfo[frm].shmid, (long) x_shminfo[frm].shmaddr); x_framebuffer[frm]->data = x_shminfo[frm].shmaddr; // get the X server to attach to it if (!XShmAttach (x_disp, &x_shminfo[frm])) Sys_Error ("VID: XShmAttach() failed"); XSync (x_disp, 0); shmctl (x_shminfo[frm].shmid, IPC_RMID, 0); } } static sw_framebuffer_t swfb; static framebuffer_t fb = { .buffer = &swfb }; static void x11_init_buffers (void *data) { sw_ctx_t *ctx = data; ctx->framebuffer = &fb; if (doShm) ResetSharedFrameBuffers (); else ResetFrameBuffer (); current_framebuffer = 0; fb.width = viddef.width; fb.height = viddef.height; if (x_visinfo->depth != 8) { if (swfb.color) free (swfb.color); if (swfb.depth) free (swfb.depth); swfb.rowbytes = viddef.width; swfb.color = calloc (swfb.rowbytes, viddef.height); swfb.depth = 0; if (!swfb.color) Sys_Error ("Not enough memory for video mode"); } else { swfb.rowbytes = x_framebuffer[current_framebuffer]->bytes_per_line; swfb.color = (byte *) x_framebuffer[current_framebuffer]->data; if (swfb.depth) free (swfb.depth); swfb.depth = 0; } } static void x11_create_context (sw_ctx_t *ctx) { // create the GC { XGCValues xgcvalues; int valuemask = GCGraphicsExposures; xgcvalues.graphics_exposures = False; x_gc = XCreateGC (x_disp, x_win, valuemask, &xgcvalues); } // even if MITSHM is available, make sure it's a local connection if (XShmQueryExtension (x_disp)) { char *displayname; char *d; doShm = true; if ((displayname = XDisplayName (NULL))) { if ((d = strchr (displayname, ':'))) *d = '\0'; if (!(!strcasecmp (displayname, "unix") || !*displayname)) doShm = false; } } if (doShm) { x_shmeventtype = XShmGetEventBase (x_disp) + ShmCompletion; } viddef.vid_internal->init_buffers = x11_init_buffers; // XSynchronize (x_disp, False); // X11_AddEvent (x_shmeventtype, event_shm); } sw_ctx_t * X11_SW_Context (void) { sw_ctx_t *ctx = calloc (1, sizeof (sw_ctx_t)); ctx->set_palette = x11_set_palette; ctx->choose_visual = x11_choose_visual; ctx->create_context = x11_create_context; ctx->update = x11_sw8_8_update; return ctx; } void X11_SW_Init_Cvars (void) { }