/*****************************************************************************\ Snes9x - Portable Super Nintendo Entertainment System (TM) emulator. This file is licensed under the Snes9x License. For further information, consult the LICENSE file in the root directory. \*****************************************************************************/ #include #include #include #include #include #include #ifdef HAVE_STRINGS_H #include #endif #include #include #include #include #include #include #include #ifdef USE_XVIDEO #include #ifdef USE_LIBYUV #include #endif #define FOURCC_YUY2 0x32595559 #define FOURCC_I420 0x30323449 #endif #ifdef USE_XINERAMA #include #endif #ifdef MITSHM #include #include #include #endif #include "snes9x.h" #include "memmap.h" #include "ppu.h" #include "controls.h" #include "movie.h" #include "conffile.h" #include "blit.h" #include "display.h" // Wrapper struct to make generic XvImage vs XImage struct Image { #ifdef USE_XVIDEO union { XvImage* xvimage; #endif XImage* ximage; #ifdef USE_XVIDEO }; #endif char *data; uint32 height; uint32 data_size; uint32 bits_per_pixel; uint32 bytes_per_line; }; struct GUIData { Display *display; Screen *screen; Visual *visual; GC gc; int screen_num; int depth; int pixel_format; int bytes_per_pixel; uint32 red_shift; uint32 blue_shift; uint32 green_shift; uint32 red_size; uint32 green_size; uint32 blue_size; Window window; Image *image; uint8 *filter_buffer; uint8 *blit_screen; uint32 blit_screen_pitch; bool8 need_convert; Cursor point_cursor; Cursor cross_hair_cursor; int video_mode; int mouse_x; int mouse_y; bool8 mod1_pressed; bool8 no_repeat; bool8 fullscreen; bool8 js_event_latch; int x_offset; int y_offset; #ifdef USE_XVIDEO bool8 use_xvideo; int xv_port; int scale_w; int scale_h; bool8 maxaspect; int imageHeight; int xv_format; int xv_bpp; unsigned char y_table[1 << 15]; unsigned char u_table[1 << 15]; unsigned char v_table[1 << 15]; #endif #ifdef USE_XINERAMA uint32 xinerama_head; #endif #ifdef MITSHM XShmSegmentInfo sm_info; bool8 use_shared_memory; #endif }; static struct GUIData GUI; typedef std::pair strpair_t; extern std::vector keymaps; typedef void (* Blitter) (uint8 *, int, uint8 *, int, int, int); #ifdef __linux // Select seems to be broken in 2.x.x kernels - if a signal interrupts a // select system call with a zero timeout, the select call is restarted but // with an infinite timeout! The call will block until data arrives on the // selected fd(s). // // The workaround is to stop the X library calling select in the first // place! Replace XPending - which polls for data from the X server using // select - with an ioctl call to poll for data and then only call the blocking // XNextEvent if data is waiting. #define SELECT_BROKEN_FOR_SIGNALS #endif enum { VIDEOMODE_BLOCKY = 1, VIDEOMODE_TV, VIDEOMODE_SMOOTH, VIDEOMODE_SUPEREAGLE, VIDEOMODE_2XSAI, VIDEOMODE_SUPER2XSAI, VIDEOMODE_EPX, VIDEOMODE_HQ2X }; static int ErrorHandler (Display *, XErrorEvent *); static bool8 CheckForPendingXEvents (Display *); static void SetXRepeat (bool8); static void SetupImage (void); static void TakedownImage (void); static void SetupXImage (void); static void TakedownXImage (void); #ifdef USE_XVIDEO static void SetupXvImage (void); static void TakedownXvImage (void); #endif static void Repaint (bool8); static void Convert16To24 (int, int); static void Convert16To24Packed (int, int); void S9xExtraDisplayUsage (void) { /* 12345678901234567890123456789012345678901234567890123456789012345678901234567890 */ S9xMessage(S9X_INFO, S9X_USAGE, "-setrepeat Allow altering keyboard auto-repeat"); S9xMessage(S9X_INFO, S9X_USAGE, ""); S9xMessage(S9X_INFO, S9X_USAGE, "-fullscreen Switch to full-screen on start"); #ifdef USE_XVIDEO S9xMessage(S9X_INFO, S9X_USAGE, "-xvideo Hardware accelerated scaling"); S9xMessage(S9X_INFO, S9X_USAGE, "-maxaspect Try to fill the display, in fullscreen"); #endif #ifdef USE_XINERAMA S9xMessage(S9X_INFO, S9X_USAGE, "-xineramahead Xinerama head number for multi-monitor setups"); #endif S9xMessage(S9X_INFO, S9X_USAGE, ""); S9xMessage(S9X_INFO, S9X_USAGE, "-v1 Video mode: Blocky (default)"); S9xMessage(S9X_INFO, S9X_USAGE, "-v2 Video mode: TV"); S9xMessage(S9X_INFO, S9X_USAGE, "-v3 Video mode: Smooth"); S9xMessage(S9X_INFO, S9X_USAGE, "-v4 Video mode: SuperEagle"); S9xMessage(S9X_INFO, S9X_USAGE, "-v5 Video mode: 2xSaI"); S9xMessage(S9X_INFO, S9X_USAGE, "-v6 Video mode: Super2xSaI"); S9xMessage(S9X_INFO, S9X_USAGE, "-v7 Video mode: EPX"); S9xMessage(S9X_INFO, S9X_USAGE, "-v8 Video mode: hq2x"); S9xMessage(S9X_INFO, S9X_USAGE, ""); } void S9xParseDisplayArg (char **argv, int &i, int argc) { if (!strcasecmp(argv[i], "-setrepeat")) GUI.no_repeat = FALSE; else if (!strcasecmp(argv[i], "-fullscreen")) GUI.fullscreen = TRUE; else #ifdef USE_XVIDEO if (!strcasecmp(argv[i], "-xvideo")) GUI.use_xvideo = TRUE; else if (!strcasecmp(argv[i], "-maxaspect")) GUI.maxaspect = TRUE; else #endif #ifdef USE_XINERAMA if (!strcasecmp(argv[i], "-xineramahead")) { if (i + 1 < argc) GUI.xinerama_head = atoi(argv[++i]); else S9xUsage(); } else #endif if (!strncasecmp(argv[i], "-v", 2)) { switch (argv[i][2]) { case '1': GUI.video_mode = VIDEOMODE_BLOCKY; break; case '2': GUI.video_mode = VIDEOMODE_TV; break; case '3': GUI.video_mode = VIDEOMODE_SMOOTH; break; case '4': GUI.video_mode = VIDEOMODE_SUPEREAGLE; break; case '5': GUI.video_mode = VIDEOMODE_2XSAI; break; case '6': GUI.video_mode = VIDEOMODE_SUPER2XSAI; break; case '7': GUI.video_mode = VIDEOMODE_EPX; break; case '8': GUI.video_mode = VIDEOMODE_HQ2X; break; } } else S9xUsage(); } const char * S9xParseDisplayConfig (ConfigFile &conf, int pass) { if (pass != 1) return ("Unix/X11"); if (!conf.GetBool("Unix::ClearAllControls", false)) { keymaps.push_back(strpair_t("K00:k", "Joypad1 Right")); keymaps.push_back(strpair_t("K00:Right", "Joypad1 Right")); keymaps.push_back(strpair_t("K00:h", "Joypad1 Left")); keymaps.push_back(strpair_t("K00:Left", "Joypad1 Left")); keymaps.push_back(strpair_t("K00:j", "Joypad1 Down")); keymaps.push_back(strpair_t("K00:n", "Joypad1 Down")); keymaps.push_back(strpair_t("K00:Down", "Joypad1 Down")); keymaps.push_back(strpair_t("K00:u", "Joypad1 Up")); keymaps.push_back(strpair_t("K00:Up", "Joypad1 Up")); keymaps.push_back(strpair_t("K00:Return", "Joypad1 Start")); keymaps.push_back(strpair_t("K00:space", "Joypad1 Select")); keymaps.push_back(strpair_t("K00:S+d", "Joypad1 ToggleTurbo A")); keymaps.push_back(strpair_t("K00:C+d", "Joypad1 ToggleSticky A")); keymaps.push_back(strpair_t("K00:d", "Joypad1 A")); keymaps.push_back(strpair_t("K00:S+c", "Joypad1 ToggleTurbo B")); keymaps.push_back(strpair_t("K00:C+c", "Joypad1 ToggleSticky B")); keymaps.push_back(strpair_t("K00:c", "Joypad1 B")); keymaps.push_back(strpair_t("K00:S+s", "Joypad1 ToggleTurbo X")); keymaps.push_back(strpair_t("K00:C+s", "Joypad1 ToggleSticky X")); keymaps.push_back(strpair_t("K00:s", "Joypad1 X")); keymaps.push_back(strpair_t("K00:S+x", "Joypad1 ToggleTurbo Y")); keymaps.push_back(strpair_t("K00:C+x", "Joypad1 ToggleSticky Y")); keymaps.push_back(strpair_t("K00:x", "Joypad1 Y")); keymaps.push_back(strpair_t("K00:S+a", "Joypad1 ToggleTurbo L")); keymaps.push_back(strpair_t("K00:S+v", "Joypad1 ToggleTurbo L")); keymaps.push_back(strpair_t("K00:C+a", "Joypad1 ToggleSticky L")); keymaps.push_back(strpair_t("K00:C+v", "Joypad1 ToggleSticky L")); keymaps.push_back(strpair_t("K00:a", "Joypad1 L")); keymaps.push_back(strpair_t("K00:v", "Joypad1 L")); keymaps.push_back(strpair_t("K00:S+z", "Joypad1 ToggleTurbo R")); keymaps.push_back(strpair_t("K00:C+z", "Joypad1 ToggleSticky R")); keymaps.push_back(strpair_t("K00:z", "Joypad1 R")); keymaps.push_back(strpair_t("K00:KP_Left", "Joypad2 Left")); keymaps.push_back(strpair_t("K00:KP_Right", "Joypad2 Right")); keymaps.push_back(strpair_t("K00:KP_Up", "Joypad2 Up")); keymaps.push_back(strpair_t("K00:KP_Down", "Joypad2 Down")); keymaps.push_back(strpair_t("K00:KP_Enter", "Joypad2 Start")); keymaps.push_back(strpair_t("K00:KP_Add", "Joypad2 Select")); keymaps.push_back(strpair_t("K00:Prior", "Joypad2 A")); keymaps.push_back(strpair_t("K00:Next", "Joypad2 B")); keymaps.push_back(strpair_t("K00:Home", "Joypad2 X")); keymaps.push_back(strpair_t("K00:End", "Joypad2 Y")); keymaps.push_back(strpair_t("K00:Insert", "Joypad2 L")); keymaps.push_back(strpair_t("K00:Delete", "Joypad2 R")); keymaps.push_back(strpair_t("K00:A+F4", "SoundChannel0")); keymaps.push_back(strpair_t("K00:C+F4", "SoundChannel0")); keymaps.push_back(strpair_t("K00:A+F5", "SoundChannel1")); keymaps.push_back(strpair_t("K00:C+F5", "SoundChannel1")); keymaps.push_back(strpair_t("K00:A+F6", "SoundChannel2")); keymaps.push_back(strpair_t("K00:C+F6", "SoundChannel2")); keymaps.push_back(strpair_t("K00:A+F7", "SoundChannel3")); keymaps.push_back(strpair_t("K00:C+F7", "SoundChannel3")); keymaps.push_back(strpair_t("K00:A+F8", "SoundChannel4")); keymaps.push_back(strpair_t("K00:C+F8", "SoundChannel4")); keymaps.push_back(strpair_t("K00:A+F9", "SoundChannel5")); keymaps.push_back(strpair_t("K00:C+F9", "SoundChannel5")); keymaps.push_back(strpair_t("K00:A+F10", "SoundChannel6")); keymaps.push_back(strpair_t("K00:C+F10", "SoundChannel6")); keymaps.push_back(strpair_t("K00:A+F11", "SoundChannel7")); keymaps.push_back(strpair_t("K00:C+F11", "SoundChannel7")); keymaps.push_back(strpair_t("K00:A+F12", "SoundChannelsOn")); keymaps.push_back(strpair_t("K00:C+F12", "SoundChannelsOn")); keymaps.push_back(strpair_t("K00:S+1", "BeginRecordingMovie")); keymaps.push_back(strpair_t("K00:S+2", "EndRecordingMovie")); keymaps.push_back(strpair_t("K00:S+3", "LoadMovie")); keymaps.push_back(strpair_t("K00:A+F1", "SaveSPC")); keymaps.push_back(strpair_t("K00:C+F1", "SaveSPC")); keymaps.push_back(strpair_t("K00:F10", "LoadOopsFile")); keymaps.push_back(strpair_t("K00:A+F2", "LoadFreezeFile")); keymaps.push_back(strpair_t("K00:C+F2", "LoadFreezeFile")); keymaps.push_back(strpair_t("K00:F11", "LoadFreezeFile")); keymaps.push_back(strpair_t("K00:A+F3", "SaveFreezeFile")); keymaps.push_back(strpair_t("K00:C+F3", "SaveFreezeFile")); keymaps.push_back(strpair_t("K00:F12", "SaveFreezeFile")); keymaps.push_back(strpair_t("K00:F1", "QuickLoad000")); keymaps.push_back(strpair_t("K00:F2", "QuickLoad001")); keymaps.push_back(strpair_t("K00:F3", "QuickLoad002")); keymaps.push_back(strpair_t("K00:F4", "QuickLoad003")); keymaps.push_back(strpair_t("K00:F5", "QuickLoad004")); keymaps.push_back(strpair_t("K00:F6", "QuickLoad005")); keymaps.push_back(strpair_t("K00:F7", "QuickLoad006")); keymaps.push_back(strpair_t("K00:F8", "QuickLoad007")); keymaps.push_back(strpair_t("K00:F9", "QuickLoad008")); keymaps.push_back(strpair_t("K00:S+F1", "QuickSave000")); keymaps.push_back(strpair_t("K00:S+F2", "QuickSave001")); keymaps.push_back(strpair_t("K00:S+F3", "QuickSave002")); keymaps.push_back(strpair_t("K00:S+F4", "QuickSave003")); keymaps.push_back(strpair_t("K00:S+F5", "QuickSave004")); keymaps.push_back(strpair_t("K00:S+F6", "QuickSave005")); keymaps.push_back(strpair_t("K00:S+F7", "QuickSave006")); keymaps.push_back(strpair_t("K00:S+F8", "QuickSave007")); keymaps.push_back(strpair_t("K00:S+F9", "QuickSave008")); keymaps.push_back(strpair_t("K00:Scroll_Lock", "Pause")); keymaps.push_back(strpair_t("K00:CS+Escape", "Reset")); keymaps.push_back(strpair_t("K00:S+Escape", "SoftReset")); keymaps.push_back(strpair_t("K00:Escape", "ExitEmu")); keymaps.push_back(strpair_t("K00:Tab", "EmuTurbo")); keymaps.push_back(strpair_t("K00:S+Tab", "ToggleEmuTurbo")); keymaps.push_back(strpair_t("K00:A+equal", "IncEmuTurbo")); keymaps.push_back(strpair_t("K00:A+minus", "DecEmuTurbo")); keymaps.push_back(strpair_t("K00:C+equal", "IncTurboSpeed")); keymaps.push_back(strpair_t("K00:C+minus", "DecTurboSpeed")); keymaps.push_back(strpair_t("K00:equal", "IncFrameRate")); keymaps.push_back(strpair_t("K00:minus", "DecFrameRate")); keymaps.push_back(strpair_t("K00:S+equal", "IncFrameTime")); keymaps.push_back(strpair_t("K00:S+minus", "DecFrameTime")); keymaps.push_back(strpair_t("K00:6", "SwapJoypads")); keymaps.push_back(strpair_t("K00:Print", "Screenshot")); keymaps.push_back(strpair_t("K00:1", "ToggleBG0")); keymaps.push_back(strpair_t("K00:2", "ToggleBG1")); keymaps.push_back(strpair_t("K00:3", "ToggleBG2")); keymaps.push_back(strpair_t("K00:4", "ToggleBG3")); keymaps.push_back(strpair_t("K00:5", "ToggleSprites")); keymaps.push_back(strpair_t("K00:9", "ToggleTransparency")); keymaps.push_back(strpair_t("K00:BackSpace", "ClipWindows")); keymaps.push_back(strpair_t("K00:A+Escape", "Debugger")); keymaps.push_back(strpair_t("M00:B0", "{Mouse1 L,Superscope Fire,Justifier1 Trigger}")); keymaps.push_back(strpair_t("M00:B1", "{Justifier1 AimOffscreen Trigger,Superscope AimOffscreen}")); keymaps.push_back(strpair_t("M00:B2", "{Mouse1 R,Superscope Cursor,Justifier1 Start}")); keymaps.push_back(strpair_t("M00:Pointer", "Pointer Mouse1+Superscope+Justifier1")); keymaps.push_back(strpair_t("K00:grave", "Superscope ToggleTurbo")); keymaps.push_back(strpair_t("K00:slash", "Superscope Pause")); keymaps.push_back(strpair_t("K00:r", "Rewind")); keymaps.push_back(strpair_t("K00:l", "Advance")); } GUI.no_repeat = !conf.GetBool("Unix/X11::SetKeyRepeat", TRUE); GUI.fullscreen = conf.GetBool("Unix/X11::Fullscreen", FALSE); #ifdef USE_XVIDEO GUI.use_xvideo = conf.GetBool("Unix/X11::Xvideo", FALSE); GUI.maxaspect = conf.GetBool("Unix/X11::MaxAspect", FALSE); #endif #ifdef USE_XINERAMA GUI.xinerama_head = conf.GetUInt("Unix/X11::XineramaHead", 0); #endif if (conf.Exists("Unix/X11::VideoMode")) { GUI.video_mode = conf.GetUInt("Unix/X11::VideoMode", VIDEOMODE_BLOCKY); if (GUI.video_mode < 1 || GUI.video_mode > 8) GUI.video_mode = VIDEOMODE_BLOCKY; } else GUI.video_mode = VIDEOMODE_BLOCKY; return ("Unix/X11"); } static void FatalError (const char *str) { fprintf(stderr, "%s\n", str); S9xExit(); } static int ErrorHandler (Display *display, XErrorEvent *event) { #ifdef MITSHM GUI.use_shared_memory = FALSE; #endif return (0); } #ifdef USE_XVIDEO static int get_inv_shift (uint32 mask, int bpp) { int i; // Find mask for (i = 0; (i < bpp) && !(mask & (1 << i)); i++) {}; // Find start of mask for (; (i < bpp) && (mask & (1 << i)); i++) {}; return (bpp - i); } static unsigned char CLAMP (int v, int min, int max) { if (v < min) return min; if (v > max) return max; return v; } static bool8 SetupXvideo() { int ret; // Init xv_port GUI.xv_port = -1; ///////////////////// // Check that Xvideo extension seems OK unsigned int p_version, p_release, p_request_base, p_event_base, p_error_base; ret = XvQueryExtension(GUI.display, &p_version, &p_release, &p_request_base, &p_event_base, &p_error_base); if (ret != Success) { fprintf(stderr,"XvQueryExtension error\n"); return FALSE; } printf("XvExtension version %i.%i\n",p_version,p_release); ///////////////////// // Get info about the Adaptors available for this window unsigned int p_num_adaptors; XvAdaptorInfo* ai; ret = XvQueryAdaptors(GUI.display, GUI.window, &p_num_adaptors, &ai); if (ret != Success || p_num_adaptors == 0) { fprintf(stderr,"XvQueryAdaptors error."); return FALSE; } printf("XvQueryAdaptors: %d adaptor(s) found.\n",p_num_adaptors); unsigned int minAdaptor = 0, maxAdaptor = p_num_adaptors; // Allow user to force adaptor choice /* if (adaptor >= 0 && adaptor < p_num_adaptors) { if (verbose) std::cout << "Forcing adaptor " << adaptor << ", '" << ai[adaptor].name << "'" << std::endl; minAdaptor = adaptor; maxAdaptor = adaptor + 1; } */ ///////////////////// // Iterate through list of available adaptors. // Grab a port if we can. for (unsigned int i = minAdaptor; i < maxAdaptor && GUI.xv_port < 0; i++) { // We need to find one supporting XvInputMask and XvImageMask. if (! (ai[i].type & XvImageMask)) continue; if (! (ai[i].type & XvInputMask)) continue; printf("\tAdaptor #%d: [%s]: %ld port(s) available.\n", i, ai[i].name, ai[i].num_ports); // Get encodings available here // AFAIK all ports on an adapter share the same encodings info. unsigned int encodings; XvEncodingInfo *ei; ret = XvQueryEncodings(GUI.display, ai[i].base_id, &encodings, &ei); if (ret != Success || encodings == 0) { fprintf(stderr,"XvQueryEncodings error."); continue; } // Ensure the XV_IMAGE encoding available has sufficient width/height for us. bool8 can_fit = FALSE; for (unsigned int j = 0; j < encodings; j++) { if (strcmp(ei[j].name,"XV_IMAGE")) continue; if (ei[j].width >= SNES_WIDTH * 2 && ei[j].height >= SNES_HEIGHT_EXTENDED * 2) { can_fit = TRUE; break; } } XvFreeEncodingInfo(ei); if (can_fit == FALSE) { fprintf(stderr,"\tDid not find XV_IMAGE encoding with enough max size\n"); continue; } // Phew. If we've made it this far, we can try to choose it for our output port. for (unsigned int p = ai[i].base_id; p < ai[i].base_id+ai[i].num_ports; p++) { ret = XvGrabPort(GUI.display, p, CurrentTime); if (ret == Success) { printf("\tSuccessfully bound to Xv port %d\n",p); GUI.xv_port = p; break; } else { fprintf(stderr,"\tXvGrabPort port %d fail.\n",p); } } } XvFreeAdaptorInfo(ai); ///////////////////// // Bail out here if we haven't managed to bind to any port. if (GUI.xv_port < 0) { fprintf(stderr,"No suitable xv_port found in any Adaptors.\n"); return FALSE; } // Xv ports can have Attributes (hue, saturation, etc) /* Set XV_AUTOPAINT_COLORKEY _only_ if available */ int num_attrs; XvAttribute* port_attr; port_attr = XvQueryPortAttributes (GUI.display, GUI.xv_port, &num_attrs); for (int i = 0; i < num_attrs; i++) { if (!strcmp (port_attr[i].name, "XV_AUTOPAINT_COLORKEY")) { Atom colorkey; colorkey = XInternAtom (GUI.display, "XV_AUTOPAINT_COLORKEY", True); if (colorkey != None) { XvSetPortAttribute (GUI.display, GUI.xv_port, colorkey, 1); printf("\tSet XV_AUTOPAINT_COLORKEY.\n"); } } } XFree(port_attr); // Now we need to find to find the image format to use for output. // There are two steps to this: // Prefer an XvRGB version of lowest bitdepth. // If that's not available use YUY2 int formats; XvImageFormatValues* fo; fo = XvListImageFormats(GUI.display, GUI.xv_port, &formats); if (formats == 0) { fprintf(stderr,"No valid image formats for Xv port!"); return FALSE; } /* Ok time to search for a good Format */ GUI.xv_format = FOURCC_I420; GUI.xv_bpp = 0x7FFFFFFF; for (int i = 0; i < formats; i++) { //prefer I420 if (fo[i].id == FOURCC_YUY2) { GUI.xv_format = FOURCC_YUY2; } else if (fo[i].id == 0x3 || fo[i].type == XvRGB) { if (fo[i].bits_per_pixel < GUI.xv_bpp) { GUI.xv_format = fo[i].id; GUI.xv_bpp = fo[i].bits_per_pixel; GUI.bytes_per_pixel = (GUI.xv_bpp == 15) ? 2 : GUI.xv_bpp >> 3; GUI.depth = fo[i].depth; GUI.red_shift = get_inv_shift (fo[i].red_mask, GUI.xv_bpp); GUI.green_shift = get_inv_shift (fo[i].green_mask, GUI.xv_bpp); GUI.blue_shift = get_inv_shift (fo[i].blue_mask, GUI.xv_bpp); /* Check for red-blue inversion on SiliconMotion drivers */ if (fo[i].red_mask == 0x001f && fo[i].blue_mask == 0x7c00) { int copy = GUI.red_shift; GUI.red_shift = GUI.blue_shift; GUI.blue_shift = copy; } } } } free (fo); if (GUI.xv_format != FOURCC_YUY2 && GUI.xv_format != FOURCC_I420) { printf("Selected XvRGB format: %d bpp\n",GUI.xv_bpp); } else { // use I420 or YUY2 if(GUI.xv_format == FOURCC_I420) { printf("Xvideo I420 image format.\n"); } else { printf("Xvideo YUY2 image format.\n"); GUI.depth = 15; /* Build a table for yuv conversion */ for (unsigned int color = 0; color < (1 << 15); color++) { int r, g, b; int y, u, v; r = (color & 0x7c00) >> 7; g = (color & 0x03e0) >> 2; b = (color & 0x001F) << 3; y = (int) ((0.257 * ((double) r)) + (0.504 * ((double) g)) + (0.098 * ((double) b)) + 16.0); u = (int) ((-0.148 * ((double) r)) + (-0.291 * ((double) g)) + (0.439 * ((double) b)) + 128.0); v = (int) ((0.439 * ((double) r)) + (-0.368 * ((double) g)) + (-0.071 * ((double) b)) + 128.0); GUI.y_table[color] = CLAMP (y, 0, 255); GUI.u_table[color] = CLAMP (u, 0, 255); GUI.v_table[color] = CLAMP (v, 0, 255); } } } return TRUE; } #endif void S9xInitDisplay (int argc, char **argv) { GUI.display = XOpenDisplay(NULL); if (GUI.display == NULL) FatalError("Failed to connect to X server."); GUI.screen = DefaultScreenOfDisplay(GUI.display); GUI.screen_num = XScreenNumberOfScreen(GUI.screen); GUI.visual = DefaultVisualOfScreen(GUI.screen); XVisualInfo plate, *matches; int count; plate.visualid = XVisualIDFromVisual(GUI.visual); matches = XGetVisualInfo(GUI.display, VisualIDMask, &plate, &count); if (!count) FatalError("Your X Window System server is unwell!"); GUI.depth = matches[0].depth; if ((GUI.depth != 15 && GUI.depth != 16 && GUI.depth != 24) || (matches[0].c_class != TrueColor)) FatalError("Requiers 15, 16, 24 or 32-bit color depth supporting TrueColor."); GUI.red_shift = ffs(matches[0].red_mask) - 1; GUI.green_shift = ffs(matches[0].green_mask) - 1; GUI.blue_shift = ffs(matches[0].blue_mask) - 1; GUI.red_size = matches[0].red_mask >> GUI.red_shift; GUI.green_size = matches[0].green_mask >> GUI.green_shift; GUI.blue_size = matches[0].blue_mask >> GUI.blue_shift; if (GUI.depth == 16 && GUI.green_size == 63) GUI.green_shift++; XFree(matches); // Init various scale-filters S9xBlitFilterInit(); S9xBlit2xSaIFilterInit(); S9xBlitHQ2xFilterInit(); /* Set up parameters for creating the window */ XSetWindowAttributes attrib; memset(&attrib, 0, sizeof(attrib)); attrib.background_pixel = BlackPixelOfScreen(GUI.screen); attrib.colormap = XCreateColormap(GUI.display, RootWindowOfScreen(GUI.screen), GUI.visual, AllocNone); int screen_left = 0, screen_top = 0; int screen_w = WidthOfScreen(GUI.screen), screen_h = HeightOfScreen(GUI.screen); #ifdef USE_XINERAMA int heads = 0; XineramaScreenInfo* si = 0; int useless1, useless2; if (!XineramaQueryExtension(GUI.display, &useless1, &useless2)) { puts("Xinerama is not available"); goto xinerama_end; } if (!XineramaIsActive(GUI.display)) { puts("Xinerama is not active"); goto xinerama_end; } si = XineramaQueryScreens(GUI.display, &heads); if (!si) { puts("XineramaQueryScreens failed"); goto xinerama_end; } if (GUI.xinerama_head >= heads) { printf("Invalid xinerama head id (expected 0-%d, got %u)\n", heads - 1, GUI.xinerama_head); goto xinerama_end; } si = &si[GUI.xinerama_head]; screen_left = si->x_org; screen_top = si->y_org; screen_w = si->width; screen_h = si->height; printf("Selected xinerama head %u (%d,%d %dx%d)\n", GUI.xinerama_head, screen_left, screen_top, screen_w, screen_h); xinerama_end: #endif XSizeHints Hints; memset((void *) &Hints, 0, sizeof(XSizeHints)); /* Try to switch to Fullscreen. */ if (GUI.fullscreen == TRUE) { Hints.flags = PPosition; Hints.x = screen_left; Hints.y = screen_top; /* Create the window with maximum screen width,height positioned at 0,0. */ GUI.window = XCreateWindow(GUI.display, RootWindowOfScreen(GUI.screen), Hints.x, Hints.y, screen_w, screen_h, 0, GUI.depth, InputOutput, GUI.visual, CWBackPixel | CWColormap, &attrib); /* Try to tell the Window Manager not to decorate this window. */ Atom wm_state = XInternAtom (GUI.display, "_NET_WM_STATE", true ); Atom wm_fullscreen = XInternAtom (GUI.display, "_NET_WM_STATE_FULLSCREEN", true ); XChangeProperty(GUI.display, GUI.window, wm_state, XA_ATOM, 32, PropModeReplace, (unsigned char *)&wm_fullscreen, 1); #ifdef USE_XVIDEO if (GUI.use_xvideo) { // Set some defaults GUI.scale_w = screen_w; GUI.scale_h = screen_h; GUI.imageHeight = SNES_HEIGHT_EXTENDED * 2; if (! GUI.maxaspect) { // Compute the maximum screen size for scaling xvideo window. double screenAspect = (double)screen_w / screen_h; double snesAspect = (double)SNES_WIDTH / SNES_HEIGHT_EXTENDED; double ratio = screenAspect / snesAspect; printf("\tScreen (%dx%d) aspect %f vs SNES (%dx%d) aspect %f (ratio: %f)\n", screen_w,screen_h,screenAspect, SNES_WIDTH,SNES_HEIGHT_EXTENDED,snesAspect, ratio); // Correct aspect ratio if (screenAspect > snesAspect) { // widescreen monitor, 4:3 snes // match height, scale width GUI.scale_w /= ratio; GUI.x_offset = (screen_w - GUI.scale_w) / 2; } else { // narrow monitor, 4:3 snes // match width, scale height GUI.scale_h *= ratio; GUI.y_offset = (screen_h - GUI.scale_h) / 2; } } printf("\tUsing size %dx%d with offset (%d,%d)\n",GUI.scale_w,GUI.scale_h,GUI.x_offset,GUI.y_offset); } else #endif { /* Last: position the output window in the center of the screen. */ GUI.x_offset = (screen_w - SNES_WIDTH * 2) / 2; GUI.y_offset = (screen_h - SNES_HEIGHT_EXTENDED * 2) / 2; } } else { /* Tell the Window Manager that we do not wish to be resizable */ Hints.flags = PSize | PMinSize | PMaxSize | PPosition; Hints.x = screen_left + (screen_w - SNES_WIDTH * 2) / 2; Hints.y = screen_top + (screen_h - SNES_HEIGHT_EXTENDED * 2) / 2; Hints.min_width = Hints.max_width = Hints.base_width = SNES_WIDTH * 2; Hints.min_height = Hints.max_height = Hints.base_height = SNES_HEIGHT_EXTENDED * 2; /* Create the window. */ GUI.window = XCreateWindow(GUI.display, RootWindowOfScreen(GUI.screen), Hints.x, Hints.y, SNES_WIDTH * 2, SNES_HEIGHT_EXTENDED * 2, 0, GUI.depth, InputOutput, GUI.visual, CWBackPixel | CWColormap, &attrib); /* Last: Windowed SNES is not drawn with any offsets. */ GUI.x_offset = GUI.y_offset = 0; #ifdef USE_XVIDEO GUI.scale_w = SNES_WIDTH * 2; GUI.scale_h = SNES_HEIGHT_EXTENDED * 2; #endif } XSetWMNormalHints(GUI.display, GUI.window, &Hints); /* Load UI cursors */ static XColor bg, fg; static char data[8] = { 0, 0, 0, 0, 0, 0, 0, 0 }; Pixmap bitmap; bitmap = XCreateBitmapFromData(GUI.display, GUI.window, data, 8, 8); GUI.point_cursor = XCreatePixmapCursor(GUI.display, bitmap, bitmap, &fg, &bg, 0, 0); XDefineCursor(GUI.display, GUI.window, GUI.point_cursor); GUI.cross_hair_cursor = XCreateFontCursor(GUI.display, XC_crosshair); GUI.gc = DefaultGCOfScreen(GUI.screen); /* Other window-manager hints */ XWMHints WMHints; memset((void *) &WMHints, 0, sizeof(XWMHints)); /* Rely on the Window Manager to provide us with keyboard input */ WMHints.input = True; WMHints.flags = InputHint; XSetWMHints(GUI.display, GUI.window, &WMHints); XSelectInput(GUI.display, GUI.window, FocusChangeMask | ExposureMask | KeyPressMask | KeyReleaseMask | StructureNotifyMask | ButtonPressMask | ButtonReleaseMask); /* Bring up our window (and put it in foreground) */ XMapRaised(GUI.display, GUI.window); XClearWindow(GUI.display, GUI.window); // Wait for map XEvent event; do { XNextEvent(GUI.display, &event); } while (event.type != MapNotify || event.xmap.event != GUI.window); #ifdef USE_XVIDEO if (GUI.use_xvideo) { GUI.use_xvideo = SetupXvideo(); } #endif GUI.pixel_format = 565; SetupImage(); switch (GUI.depth) { default: case 32: GUI.bytes_per_pixel = 4; break; case 24: if (GUI.image->bits_per_pixel == 24) GUI.bytes_per_pixel = 3; else GUI.bytes_per_pixel = 4; break; case 15: case 16: GUI.bytes_per_pixel = 2; break; } printf("Using internal pixel format %d\n",GUI.pixel_format); } void S9xDeinitDisplay (void) { TakedownImage(); if (GUI.display != NULL) { #ifdef USE_XVIDEO if (GUI.use_xvideo) { XvUngrabPort(GUI.display,GUI.xv_port,CurrentTime); } #endif S9xTextMode(); XSync(GUI.display, False); XCloseDisplay(GUI.display); } S9xBlitFilterDeinit(); S9xBlit2xSaIFilterDeinit(); S9xBlitHQ2xFilterDeinit(); } static void SetupImage (void) { TakedownImage(); // Create new image struct GUI.image = (Image *) calloc(sizeof(Image), 1); #ifdef USE_XVIDEO if (GUI.use_xvideo) SetupXvImage(); if (!GUI.use_xvideo) #endif SetupXImage(); GUI.filter_buffer = (uint8 *) calloc((SNES_WIDTH * 2) * 2 * (SNES_HEIGHT_EXTENDED * 2), 1); if (!GUI.filter_buffer) FatalError("Failed to allocate GUI.filter_buffer."); #ifdef USE_XVIDEO if ((GUI.depth == 15 || GUI.depth == 16) && GUI.xv_format != FOURCC_YUY2 && GUI.xv_format != FOURCC_I420) #else if (GUI.depth == 15 || GUI.depth == 16) #endif { GUI.blit_screen_pitch = GUI.image->bytes_per_line; GUI.blit_screen = (uint8 *) GUI.image->data; GUI.need_convert = FALSE; } else { GUI.blit_screen_pitch = (SNES_WIDTH * 2) * 2; GUI.blit_screen = GUI.filter_buffer; GUI.need_convert = TRUE; } if (GUI.need_convert) { printf("\tImage conversion needed before blit.\n"); } S9xGraphicsInit(); } static void TakedownImage (void) { if (GUI.filter_buffer) { free(GUI.filter_buffer); GUI.filter_buffer = NULL; } if (GUI.image) { #ifdef USE_XVIDEO if (GUI.use_xvideo) TakedownXvImage(); else #endif TakedownXImage(); free(GUI.image); GUI.image = NULL; } S9xGraphicsDeinit(); } static void SetupXImage (void) { #ifdef MITSHM GUI.use_shared_memory = TRUE; int major, minor; Bool shared; if (!XShmQueryVersion(GUI.display, &major, &minor, &shared) || !shared) GUI.image->ximage = NULL; else GUI.image->ximage = XShmCreateImage(GUI.display, GUI.visual, GUI.depth, ZPixmap, NULL, &GUI.sm_info, SNES_WIDTH * 2, SNES_HEIGHT_EXTENDED * 2); if (!GUI.image->ximage) GUI.use_shared_memory = FALSE; else { // set main Image struct vars GUI.image->height = GUI.image->ximage->height; GUI.image->bytes_per_line = GUI.image->ximage->bytes_per_line; GUI.image->data_size = GUI.image->bytes_per_line * GUI.image->height; GUI.sm_info.shmid = shmget(IPC_PRIVATE, GUI.image->data_size, IPC_CREAT | 0777); if (GUI.sm_info.shmid < 0) { XDestroyImage(GUI.image->ximage); GUI.use_shared_memory = FALSE; } else { GUI.image->ximage->data = GUI.sm_info.shmaddr = (char *) shmat(GUI.sm_info.shmid, 0, 0); if (!GUI.image->ximage->data) { XDestroyImage(GUI.image->ximage); shmctl(GUI.sm_info.shmid, IPC_RMID, 0); GUI.use_shared_memory = FALSE; } else { GUI.sm_info.readOnly = False; XSetErrorHandler(ErrorHandler); XShmAttach(GUI.display, &GUI.sm_info); XSync(GUI.display, False); // X Error handler might clear GUI.use_shared_memory if XShmAttach failed. if (!GUI.use_shared_memory) { XDestroyImage(GUI.image->ximage); shmdt(GUI.sm_info.shmaddr); shmctl(GUI.sm_info.shmid, IPC_RMID, 0); } else printf("Created XShmImage, size %d\n",GUI.image->data_size); } } } if (!GUI.use_shared_memory) { fprintf(stderr, "use_shared_memory failed, switching to XPutImage.\n"); #endif GUI.image->ximage = XCreateImage(GUI.display, GUI.visual, GUI.depth, ZPixmap, 0, NULL, SNES_WIDTH * 2, SNES_HEIGHT_EXTENDED * 2, BitmapUnit(GUI.display), 0); // set main Image struct vars GUI.image->height = GUI.image->ximage->height; GUI.image->bytes_per_line = GUI.image->ximage->bytes_per_line; GUI.image->data_size = GUI.image->bytes_per_line * GUI.image->height; GUI.image->ximage->data = (char *) malloc(GUI.image->data_size); if (!GUI.image->ximage || !GUI.image->ximage->data) FatalError("XCreateImage failed."); printf("Created XImage, size %d\n",GUI.image->data_size); #ifdef MITSHM } #endif // Set final values GUI.image->bits_per_pixel = GUI.image->ximage->bits_per_pixel; GUI.image->data = GUI.image->ximage->data; #ifdef LSB_FIRST GUI.image->ximage->byte_order = LSBFirst; #else GUI.image->ximage->byte_order = MSBFirst; #endif } static void TakedownXImage (void) { if (GUI.image->ximage) { #ifdef MITSHM if (GUI.use_shared_memory) { XShmDetach(GUI.display, &GUI.sm_info); GUI.image->ximage->data = NULL; XDestroyImage(GUI.image->ximage); if (GUI.sm_info.shmaddr) shmdt(GUI.sm_info.shmaddr); if (GUI.sm_info.shmid >= 0) shmctl(GUI.sm_info.shmid, IPC_RMID, 0); GUI.image->ximage = NULL; } else #endif { XDestroyImage(GUI.image->ximage); GUI.image->ximage = NULL; } } } #ifdef USE_XVIDEO static void SetupXvImage (void) { #ifdef MITSHM GUI.use_shared_memory = TRUE; int major, minor; Bool shared; if (!XShmQueryVersion(GUI.display, &major, &minor, &shared) || !shared) GUI.image->xvimage = NULL; else GUI.image->xvimage = XvShmCreateImage(GUI.display, GUI.xv_port, GUI.xv_format, NULL, SNES_WIDTH * 2, SNES_HEIGHT_EXTENDED * 2, &GUI.sm_info); if (!GUI.image->xvimage) GUI.use_shared_memory = FALSE; else { GUI.image->height = SNES_HEIGHT_EXTENDED * 2; GUI.image->data_size = GUI.image->xvimage->data_size; GUI.image->bytes_per_line = GUI.image->data_size / GUI.image->height; GUI.sm_info.shmid = shmget(IPC_PRIVATE, GUI.image->data_size, IPC_CREAT | 0777); if (GUI.sm_info.shmid < 0) { XFree(GUI.image->xvimage); GUI.use_shared_memory = FALSE; } else { GUI.image->xvimage->data = GUI.sm_info.shmaddr = (char *) shmat(GUI.sm_info.shmid, 0, 0); if (!GUI.image->xvimage->data) { XFree(GUI.image->xvimage); shmctl(GUI.sm_info.shmid, IPC_RMID, 0); GUI.use_shared_memory = FALSE; } else { GUI.sm_info.readOnly = False; XSetErrorHandler(ErrorHandler); XShmAttach(GUI.display, &GUI.sm_info); XSync(GUI.display, False); // X Error handler might clear GUI.use_shared_memory if XShmAttach failed. if (!GUI.use_shared_memory) { XFree(GUI.image->xvimage); shmdt(GUI.sm_info.shmaddr); shmctl(GUI.sm_info.shmid, IPC_RMID, 0); } else printf("Created XvShmImage, size %d\n",GUI.image->data_size); } } } if (!GUI.use_shared_memory) { fprintf(stderr, "use_shared_memory failed, switching to XvPutImage.\n"); #endif GUI.image->xvimage = XvCreateImage(GUI.display, GUI.xv_port, GUI.xv_format, NULL, SNES_WIDTH * 2, SNES_HEIGHT_EXTENDED * 2); GUI.image->height = SNES_HEIGHT_EXTENDED * 2; GUI.image->data_size = GUI.image->xvimage->data_size; GUI.image->bytes_per_line = GUI.image->data_size / GUI.image->height; GUI.image->xvimage->data = (char *) malloc(GUI.image->data_size); if (!GUI.image->xvimage || !GUI.image->xvimage->data) { fprintf(stderr, "XvCreateImage failed, falling back to software blit.\n"); GUI.use_xvideo = FALSE; return; } printf("Created XvImage, size %d\n",GUI.image->data_size); #ifdef MITSHM } #endif // Set final values GUI.image->bits_per_pixel = GUI.xv_bpp; GUI.image->data = GUI.image->xvimage->data; } static void TakedownXvImage (void) { if (GUI.image->xvimage) { #ifdef MITSHM if (GUI.use_shared_memory) { XShmDetach(GUI.display, &GUI.sm_info); GUI.image->xvimage->data = NULL; XFree(GUI.image->xvimage); if (GUI.sm_info.shmaddr) shmdt(GUI.sm_info.shmaddr); if (GUI.sm_info.shmid >= 0) shmctl(GUI.sm_info.shmid, IPC_RMID, 0); GUI.image->xvimage = NULL; } else #endif { free(GUI.image->xvimage->data); //GUI.image->xvimage->data = NULL; XFree(GUI.image->xvimage); GUI.image->xvimage = NULL; } } } #endif #if defined(USE_XVIDEO) && !defined(USE_LIBYUV) void rgb565ToRgb24(uint8 *dest, uint8 *s, int width, int height) { for (int i=0, j=0; i< width * height * 2 ; i+=2) { uint16 c = s[i] + (s[i+1]<<8); uint8 r = uint8(((c & 0xF800) >> 11) << 3); uint8 g = uint8(((c & 0x7E0) >> 5) << 2); uint8 b = uint8(((c & 0x1F)) << 3); dest[j++]=r; dest[j++]=g; dest[j++]=b; } } void rgb24ToI420(uint8 *dest, uint8 *rgb, int width, int height) { int image_size = width * height; int upos = image_size; int vpos = upos + upos / 4; int i = 0; for (int line = 0; line < height; ++line) { if( !(line % 2) ) { for ( int x = 0; x < width; x += 2 ) { uint8 r = rgb[3 * i]; uint8 g = rgb[3 * i + 1]; uint8 b = rgb[3 * i + 2]; dest[i++] = ((66*r + 129*g + 25*b) >> 8) + 16; dest[upos++] = ((-38*r + -74*g + 112*b) >> 8) + 128; dest[vpos++] = ((112*r + -94*g + -18*b) >> 8) + 128; r = rgb[3 * i]; g = rgb[3 * i + 1]; b = rgb[3 * i + 2]; dest[i++] = ((66*r + 129*g + 25*b) >> 8) + 16; } } else { for (int x = 0; x < width; x += 1) { uint8 r = rgb[3 * i]; uint8 g = rgb[3 * i + 1]; uint8 b = rgb[3 * i + 2]; dest[i++] = ((66*r + 129*g + 25*b) >> 8) + 16; } } } } #endif void S9xPutImage (int width, int height) { static int prevWidth = 0, prevHeight = 0; int copyWidth, copyHeight; Blitter blitFn = NULL; if (GUI.video_mode == VIDEOMODE_BLOCKY || GUI.video_mode == VIDEOMODE_TV || GUI.video_mode == VIDEOMODE_SMOOTH) if ((width <= SNES_WIDTH) && ((prevWidth != width) || (prevHeight != height))) S9xBlitClearDelta(); if (width <= SNES_WIDTH) { if (height > SNES_HEIGHT_EXTENDED) { copyWidth = width * 2; copyHeight = height; blitFn = S9xBlitPixSimple2x1; } else { copyWidth = width * 2; copyHeight = height * 2; switch (GUI.video_mode) { case VIDEOMODE_BLOCKY: blitFn = S9xBlitPixSimple2x2; break; case VIDEOMODE_TV: blitFn = S9xBlitPixTV2x2; break; case VIDEOMODE_SMOOTH: blitFn = S9xBlitPixSmooth2x2; break; case VIDEOMODE_SUPEREAGLE: blitFn = S9xBlitPixSuperEagle16; break; case VIDEOMODE_2XSAI: blitFn = S9xBlitPix2xSaI16; break; case VIDEOMODE_SUPER2XSAI: blitFn = S9xBlitPixSuper2xSaI16; break; case VIDEOMODE_EPX: blitFn = S9xBlitPixEPX16; break; case VIDEOMODE_HQ2X: blitFn = S9xBlitPixHQ2x16; break; } } } else if (height <= SNES_HEIGHT_EXTENDED) { copyWidth = width; copyHeight = height * 2; switch (GUI.video_mode) { default: blitFn = S9xBlitPixSimple1x2; break; case VIDEOMODE_TV: blitFn = S9xBlitPixTV1x2; break; } } else { copyWidth = width; copyHeight = height; blitFn = S9xBlitPixSimple1x1; } blitFn((uint8 *) GFX.Screen, GFX.Pitch, GUI.blit_screen, GUI.blit_screen_pitch, width, height); if (height < prevHeight) { int p = GUI.blit_screen_pitch >> 2; for (int y = SNES_HEIGHT * 2; y < SNES_HEIGHT_EXTENDED * 2; y++) { uint32 *d = (uint32 *) (GUI.blit_screen + y * GUI.blit_screen_pitch); for (int x = 0; x < p; x++) *d++ = 0; } } #ifdef USE_XVIDEO // Adjust source blit region if SNES would only fill half the screen. if (height <= SNES_HEIGHT_EXTENDED) GUI.imageHeight = height * 2; if (GUI.use_xvideo && (GUI.xv_format == FOURCC_YUY2)) { uint16 *s = (uint16 *)GUI.blit_screen; uint8 *d = (uint8 *)GUI.image->data; // convert GUI.blit_screen and copy to XV image for (int y = 0; y < copyHeight; y++) { for (int x = 0; x < SNES_WIDTH * 2; x += 2) { // Read two RGB pxls // Now that we are RGB565 throughout, need to drop the Green LSB unsigned short rgb1 = (*s & 0xFFC0) >> 1 | (*s & 0x001F); s++; unsigned short rgb2 = (*s & 0xFFC0) >> 1 | (*s & 0x001F); s++; // put two YUYV pxls // lum1 *d = GUI.y_table[rgb1]; d++; // U *d = (GUI.u_table[rgb1] + GUI.u_table[rgb2]) / 2; d++; // lum2 *d = GUI.y_table[rgb2]; d++; // V *d = (GUI.v_table[rgb1] + GUI.v_table[rgb2]) / 2; d++; } } } else if (GUI.use_xvideo && (GUI.xv_format == FOURCC_I420)) { uint8 *s = (uint8 *)GUI.blit_screen; uint8 *d = (uint8 *)GUI.image->data; int tw = SNES_WIDTH * 2; int th = SNES_HEIGHT_EXTENDED * 2; #ifdef USE_LIBYUV libyuv::RGB565ToI420( s, tw*2, d, tw, d + tw*th, tw/2, d + tw*th + tw*th/4, tw/2, tw, th); #else uint8 *ns = (uint8 *) calloc(tw*th*3, 1); //convert to RGB24 rgb565ToRgb24(ns, s, tw, th); //convert to I420 rgb24ToI420(d, ns, tw, th); free(ns); #endif GUI.need_convert =0; } else #endif if (GUI.need_convert) { if (GUI.bytes_per_pixel == 3) Convert16To24Packed(copyWidth, copyHeight); else Convert16To24(copyWidth, copyHeight); } Repaint(TRUE); prevWidth = width; prevHeight = height; } static void Convert16To24 (int width, int height) { if (GUI.pixel_format == 565) { for (int y = 0; y < height; y++) { uint16 *s = (uint16 *) (GUI.blit_screen + y * GUI.blit_screen_pitch); uint32 *d = (uint32 *) (GUI.image->data + y * GUI.image->bytes_per_line); for (int x = 0; x < width; x++) { uint32 pixel = *s++; *d++ = (((pixel >> 11) & 0x1f) << (GUI.red_shift + 3)) | (((pixel >> 6) & 0x1f) << (GUI.green_shift + 3)) | ((pixel & 0x1f) << (GUI.blue_shift + 3)); } } } else { for (int y = 0; y < height; y++) { uint16 *s = (uint16 *) (GUI.blit_screen + y * GUI.blit_screen_pitch); uint32 *d = (uint32 *) (GUI.image->data + y * GUI.image->bytes_per_line); for (int x = 0; x < width; x++) { uint32 pixel = *s++; *d++ = (((pixel >> 10) & 0x1f) << (GUI.red_shift + 3)) | (((pixel >> 5) & 0x1f) << (GUI.green_shift + 3)) | ((pixel & 0x1f) << (GUI.blue_shift + 3)); } } } } static void Convert16To24Packed (int width, int height) { if (GUI.pixel_format == 565) { for (int y = 0; y < height; y++) { uint16 *s = (uint16 *) (GUI.blit_screen + y * GUI.blit_screen_pitch); uint8 *d = (uint8 *) (GUI.image->data + y * GUI.image->bytes_per_line); #ifdef LSB_FIRST if (GUI.red_shift < GUI.blue_shift) #else if (GUI.red_shift > GUI.blue_shift) #endif { for (int x = 0; x < width; x++) { uint32 pixel = *s++; *d++ = (pixel >> (11 - 3)) & 0xf8; *d++ = (pixel >> (6 - 3)) & 0xf8; *d++ = (pixel & 0x1f) << 3; } } else { for (int x = 0; x < width; x++) { uint32 pixel = *s++; *d++ = (pixel & 0x1f) << 3; *d++ = (pixel >> (6 - 3)) & 0xf8; *d++ = (pixel >> (11 - 3)) & 0xf8; } } } } else { for (int y = 0; y < height; y++) { uint16 *s = (uint16 *) (GUI.blit_screen + y * GUI.blit_screen_pitch); uint8 *d = (uint8 *) (GUI.image->data + y * GUI.image->bytes_per_line); #ifdef LSB_FIRST if (GUI.red_shift < GUI.blue_shift) #else if (GUI.red_shift > GUI.blue_shift) #endif { for (int x = 0; x < width; x++) { uint32 pixel = *s++; *d++ = (pixel >> (10 - 3)) & 0xf8; *d++ = (pixel >> (5 - 3)) & 0xf8; *d++ = (pixel & 0x1f) << 3; } } else { for (int x = 0; x < width; x++) { uint32 pixel = *s++; *d++ = (pixel & 0x1f) << 3; *d++ = (pixel >> (5 - 3)) & 0xf8; *d++ = (pixel >> (10 - 3)) & 0xf8; } } } } } static void Repaint (bool8 isFrameBoundry) { #ifdef USE_XVIDEO if (GUI.use_xvideo) { #ifdef MITSHM if (GUI.use_shared_memory) { XvShmPutImage(GUI.display, GUI.xv_port, GUI.window, GUI.gc, GUI.image->xvimage, 0, 0, SNES_WIDTH * 2, GUI.imageHeight, GUI.x_offset, GUI.y_offset, GUI.scale_w, GUI.scale_h, False); } else #endif XvPutImage(GUI.display, GUI.xv_port, GUI.window, GUI.gc, GUI.image->xvimage, 0, 0, SNES_WIDTH * 2, GUI.imageHeight, GUI.x_offset, GUI.y_offset, GUI.scale_w, GUI.scale_h); } else #endif #ifdef MITSHM if (GUI.use_shared_memory) { XShmPutImage(GUI.display, GUI.window, GUI.gc, GUI.image->ximage, 0, 0, GUI.x_offset, GUI.y_offset, SNES_WIDTH * 2, SNES_HEIGHT_EXTENDED * 2, False); XSync(GUI.display, False); // Is this double-sync? See XQueryPointer below... } else #endif XPutImage(GUI.display, GUI.window, GUI.gc, GUI.image->ximage, 0, 0, GUI.x_offset, GUI.y_offset, SNES_WIDTH * 2, SNES_HEIGHT_EXTENDED * 2); Window root, child; int root_x, root_y, x, y; unsigned int mask; // Use QueryPointer to sync X server and as a side effect also gets current pointer position for SNES mouse emulation. XQueryPointer(GUI.display, GUI.window, &root, &child, &root_x, &root_y, &x, &y, &mask); if (x >= 0 && y >= 0 && x < SNES_WIDTH * 2 && y < SNES_HEIGHT_EXTENDED * 2) { GUI.mouse_x = x >> 1; GUI.mouse_y = y >> 1; if (mask & Mod1Mask) { if (!GUI.mod1_pressed) { GUI.mod1_pressed = TRUE; XDefineCursor(GUI.display, GUI.window, GUI.cross_hair_cursor); } } else if (GUI.mod1_pressed) { GUI.mod1_pressed = FALSE; XDefineCursor(GUI.display, GUI.window, GUI.point_cursor); } } } void S9xTextMode (void) { SetXRepeat(TRUE); } void S9xGraphicsMode (void) { SetXRepeat(FALSE); } static bool8 CheckForPendingXEvents (Display *display) { #ifdef SELECT_BROKEN_FOR_SIGNALS int arg = 0; return (XEventsQueued(display, QueuedAlready) || (ioctl(ConnectionNumber(display), FIONREAD, &arg) == 0 && arg)); #else return (XPending(display)); #endif } void S9xLatchJSEvent () { // record that a JS event happened and was reported to the engine GUI.js_event_latch = TRUE; } void S9xProcessEvents (bool8 block) { // Kick the screensaver if a joystick event occurred if (GUI.js_event_latch == TRUE) { XWarpPointer(GUI.display, None, None, 0, 0, 0, 0, 0, 0); GUI.js_event_latch = FALSE; } // Process all other X events while (block || CheckForPendingXEvents(GUI.display)) { XEvent event; XNextEvent(GUI.display, &event); block = FALSE; switch (event.type) { case KeyPress: case KeyRelease: S9xReportButton(((event.xkey.state & (ShiftMask | Mod1Mask | ControlMask | Mod4Mask)) << 8) | event.xkey.keycode, event.type == KeyPress); #if 1 { KeyCode kc = XKeysymToKeycode(GUI.display, XKeycodeToKeysym(GUI.display, event.xkey.keycode, 0)); if (event.xkey.keycode != kc) S9xReportButton(((event.xkey.state & (ShiftMask | Mod1Mask | ControlMask | Mod4Mask)) << 8) | kc, event.type == KeyPress); } #endif break; case FocusIn: SetXRepeat(FALSE); XFlush(GUI.display); break; case FocusOut: SetXRepeat(TRUE); XFlush(GUI.display); break; case ConfigureNotify: break; case ButtonPress: case ButtonRelease: S9xReportButton(0x40000000 | (event.xbutton.button - 1), event.type == ButtonPress); break; case Expose: Repaint(FALSE); break; } } } const char * S9xSelectFilename (const char *def, const char *dir1, const char *ext1, const char *title) { return (NULL); } void S9xMessage (int type, int number, const char *message) { const int max = 36 * 3; static char buffer[max + 1]; fprintf(stdout, "%s\n", message); strncpy(buffer, message, max + 1); buffer[max] = 0; S9xSetInfoString(buffer); } const char * S9xStringInput (const char *message) { static char buffer[256]; printf("%s: ", message); fflush(stdout); if (fgets(buffer, sizeof(buffer) - 2, stdin)) return (buffer); return (NULL); } void S9xSetTitle (const char *string) { XStoreName(GUI.display, GUI.window, string); XFlush(GUI.display); } static void SetXRepeat (bool8 state) { if (state) XAutoRepeatOn(GUI.display); else XAutoRepeatOff(GUI.display); } s9xcommand_t S9xGetDisplayCommandT (const char *n) { s9xcommand_t cmd; cmd.type = S9xBadMapping; cmd.multi_press = 0; cmd.button_norpt = 0; cmd.port[0] = 0xff; cmd.port[1] = 0; cmd.port[2] = 0; cmd.port[3] = 0; return (cmd); } char * S9xGetDisplayCommandName (s9xcommand_t cmd) { return (strdup("None")); } void S9xHandleDisplayCommand (s9xcommand_t cmd, int16 data1, int16 data2) { return; } bool8 S9xMapDisplayInput (const char *n, s9xcommand_t *cmd) { int i, d; if (!isdigit(n[1]) || !isdigit(n[2]) || n[3] != ':') goto unrecog; d = ((n[1] - '0') * 10 + (n[2] - '0')) << 24; switch (n[0]) { case 'K': { KeyCode kc; KeySym ks; d |= 0x00000000; for (i = 4; n[i] != '\0' && n[i] != '+'; i++) ; if (n[i] == '\0' || i == 4) i = 4; else { for (i = 4; n[i] != '+'; i++) { switch (n[i]) { case 'S': d |= ShiftMask << 8; break; case 'C': d |= ControlMask << 8; break; case 'A': d |= Mod1Mask << 8; break; case 'M': d |= Mod4Mask << 8; break; default: goto unrecog; } } i++; } if ((ks = XStringToKeysym(n + i)) == NoSymbol) goto unrecog; if ((kc = XKeysymToKeycode(GUI.display, ks)) == 0) goto unrecog; d |= kc & 0xff; return (S9xMapButton(d, *cmd, false)); } case 'M': { char *c; int j; d |= 0x40000000; if (!strncmp(n + 4, "Pointer", 7)) { d |= 0x8000; if (n[11] == '\0') return (S9xMapPointer(d, *cmd, true)); i = 11; } else if (n[4] == 'B') i = 5; else goto unrecog; d |= j = strtol(n + i, &c, 10); if ((c != NULL && *c != '\0') || j > 0x7fff) goto unrecog; if (d & 0x8000) return (S9xMapPointer(d, *cmd, true)); return (S9xMapButton(d, *cmd, false)); } default: break; } unrecog: char *err = new char[strlen(n) + 34]; sprintf(err, "Unrecognized input device name '%s'", n); perror(err); delete [] err; return (false); } bool S9xDisplayPollButton (uint32 id, bool *pressed) { return (false); } bool S9xDisplayPollAxis (uint32 id, int16 *value) { return (false); } bool S9xDisplayPollPointer (uint32 id, int16 *x, int16 *y) { if ((id & 0xc0008000) != 0x40008000) return (false); int d = (id >> 24) & 0x3f, n = id & 0x7fff; if (d != 0 || n != 0) return (false); *x = GUI.mouse_x; *y = GUI.mouse_y; return (true); }