/* sim_video.c: Bitmap video output Copyright (c) 2011-2013, Matt Burke Permission is hereby granted, free of charge, to any person obtaining a copy of this software and associated documentation files (the "Software"), to deal in the Software without restriction, including without limitation the rights to use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of the Software, and to permit persons to whom the Software is furnished to do so, subject to the following conditions: The above copyright notice and this permission notice shall be included in all copies or substantial portions of the Software. THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. Except as contained in this notice, the name of the author shall not be used in advertising or otherwise to promote the sale, use or other dealings in this Software without prior written authorization from the author. 08-Nov-2013 MB Added globals for current mouse status 11-Jun-2013 MB First version */ #if defined(HAVE_LIBPNG) && defined(USE_SIM_VIDEO) && defined(HAVE_LIBSDL) #include #endif #include "sim_video.h" #include "scp.h" int vid_active = 0; int32 vid_cursor_x; int32 vid_cursor_y; t_bool vid_mouse_b1 = FALSE; t_bool vid_mouse_b2 = FALSE; t_bool vid_mouse_b3 = FALSE; static VID_QUIT_CALLBACK vid_quit_callback = NULL; static VID_GAMEPAD_CALLBACK motion_callback[10]; static VID_GAMEPAD_CALLBACK button_callback[10]; static int vid_gamepad_inited = 0; t_stat vid_register_quit_callback (VID_QUIT_CALLBACK callback) { vid_quit_callback = callback; return SCPE_OK; } static t_stat register_callback (void **array, int n, void *callback) { int i, j = -1; if (!vid_gamepad_inited) { return SCPE_NOATT; } for (i = 0; i < n; i++) { if (array[i] == callback) return SCPE_ALATT; if (array[i] == NULL) j = i; } if (j != -1) { array[j] = callback; return SCPE_OK; } return SCPE_NXM; } t_stat vid_register_gamepad_motion_callback (VID_GAMEPAD_CALLBACK callback) { int n = sizeof (motion_callback) / sizeof (callback); return register_callback ((void **)motion_callback, n, (void *)callback); } t_stat vid_register_gamepad_button_callback (VID_GAMEPAD_CALLBACK callback) { int n = sizeof (button_callback) / sizeof (callback); return register_callback ((void **)button_callback, n, (void *)callback); } t_stat vid_show (FILE* st, DEVICE *dptr, UNIT* uptr, int32 val, CONST char* desc) { return vid_show_video (st, uptr, val, desc); } #if defined(USE_SIM_VIDEO) && defined(HAVE_LIBSDL) static const char *vid_dname (DEVICE *dev) { return dev ? sim_dname(dev) : "Video Device"; } static int vid_gamepad_ok = 0; /* Or else just joysticks. */ char vid_release_key[64] = "Ctrl-Right-Shift"; #include #include static const char *key_names[] = {"F1", "F2", "F3", "F4", "F5", "F6", "F7", "F8", "F9", "F10", "F11", "F12", "0", "1", "2", "3", "4", "5", "6", "7", "8", "9", "A", "B", "C", "D", "E", "F", "G", "H", "I", "J", "K", "L", "M", "N", "O", "P", "Q", "R", "S", "T", "U", "V", "W", "X", "Y", "Z", "BACKQUOTE", "MINUS", "EQUALS", "LEFT_BRACKET", "RIGHT_BRACKET", "SEMICOLON", "SINGLE_QUOTE", "BACKSLASH", "LEFT_BACKSLASH", "COMMA", "PERIOD", "SLASH", "PRINT", "SCRL_LOCK", "PAUSE", "ESC", "BACKSPACE", "TAB", "ENTER", "SPACE", "INSERT", "DELETE", "HOME", "END", "PAGE_UP", "PAGE_DOWN", "UP", "DOWN", "LEFT", "RIGHT", "CAPS_LOCK", "NUM_LOCK", "ALT_L", "ALT_R", "CTRL_L", "CTRL_R", "SHIFT_L", "SHIFT_R", "WIN_L", "WIN_R", "MENU", "KP_ADD", "KP_SUBTRACT", "KP_END", "KP_DOWN", "KP_PAGE_DOWN", "KP_LEFT", "KP_RIGHT", "KP_HOME", "KP_UP", "KP_PAGE_UP", "KP_INSERT", "KP_DELETE", "KP_5", "KP_ENTER", "KP_MULTIPLY", "KP_DIVIDE" }; const char *vid_key_name (uint32 key) { static char tmp_key_name[40]; if (key < sizeof(key_names)/sizeof(key_names[0])) sprintf (tmp_key_name, "SIM_KEY_%s", key_names[key]); else sprintf (tmp_key_name, "UNKNOWN KEY: %d", key); return tmp_key_name; } #if defined(HAVE_LIBPNG) /* From: https://github.com/driedfruit/SDL_SavePNG */ /* * Save an SDL_Surface as a PNG file. * * Returns 0 success or -1 on failure, the error message is then retrievable * via SDL_GetError(). */ #define SDL_SavePNG(surface, file) \ SDL_SavePNG_RW(surface, SDL_RWFromFile(file, "wb"), 1) /* * SDL_SavePNG -- libpng-based SDL_Surface writer. * * This code is free software, available under zlib/libpng license. * http://www.libpng.org/pub/png/src/libpng-LICENSE.txt */ #include #include #define SUCCESS 0 #define ERROR -1 #define USE_ROW_POINTERS #if SDL_BYTEORDER == SDL_BIG_ENDIAN #define rmask 0xFF000000 #define gmask 0x00FF0000 #define bmask 0x0000FF00 #define amask 0x000000FF #else #define rmask 0x000000FF #define gmask 0x0000FF00 #define bmask 0x00FF0000 #define amask 0xFF000000 #endif /* libpng callbacks */ static void png_error_SDL(png_structp ctx, png_const_charp str) { SDL_SetError("libpng: %s\n", str); } static void png_write_SDL(png_structp png_ptr, png_bytep data, png_size_t length) { SDL_RWops *rw = (SDL_RWops*)png_get_io_ptr(png_ptr); SDL_RWwrite(rw, data, sizeof(png_byte), length); } static SDL_Surface *SDL_PNGFormatAlpha(SDL_Surface *src) { SDL_Surface *surf; SDL_Rect rect = { 0 }; /* NO-OP for images < 32bpp and 32bpp images that already have Alpha channel */ if (src->format->BitsPerPixel <= 24 || src->format->Amask) { src->refcount++; return src; } /* Convert 32bpp alpha-less image to 24bpp alpha-less image */ rect.w = src->w; rect.h = src->h; surf = SDL_CreateRGBSurface(src->flags, src->w, src->h, 24, src->format->Rmask, src->format->Gmask, src->format->Bmask, 0); SDL_LowerBlit(src, &rect, surf, &rect); return surf; } static int SDL_SavePNG_RW(SDL_Surface *surface, SDL_RWops *dst, int freedst) { png_structp png_ptr; png_infop info_ptr; png_colorp pal_ptr; SDL_Palette *pal; int i, colortype; #ifdef USE_ROW_POINTERS png_bytep *row_pointers; #endif /* Initialize and do basic error checking */ if (!dst) { SDL_SetError("Argument 2 to SDL_SavePNG_RW can't be NULL, expecting SDL_RWops*\n"); return (ERROR); } if (!surface) { SDL_SetError("Argument 1 to SDL_SavePNG_RW can't be NULL, expecting SDL_Surface*\n"); if (freedst) SDL_RWclose(dst); return (ERROR); } png_ptr = png_create_write_struct(PNG_LIBPNG_VER_STRING, NULL, png_error_SDL, NULL); /* err_ptr, err_fn, warn_fn */ if (!png_ptr) { SDL_SetError("Unable to png_create_write_struct on %s\n", PNG_LIBPNG_VER_STRING); if (freedst) SDL_RWclose(dst); return (ERROR); } info_ptr = png_create_info_struct(png_ptr); if (!info_ptr) { SDL_SetError("Unable to png_create_info_struct\n"); png_destroy_write_struct(&png_ptr, NULL); if (freedst) SDL_RWclose(dst); return (ERROR); } if (setjmp(png_jmpbuf(png_ptr))) /* All other errors, see also "png_error_SDL" */ { png_destroy_write_struct(&png_ptr, &info_ptr); if (freedst) SDL_RWclose(dst); return (ERROR); } /* Setup our RWops writer */ png_set_write_fn(png_ptr, dst, png_write_SDL, NULL); /* w_ptr, write_fn, flush_fn */ /* Prepare chunks */ colortype = PNG_COLOR_MASK_COLOR; if (surface->format->BytesPerPixel > 0 && surface->format->BytesPerPixel <= 8 && (pal = surface->format->palette)) { colortype |= PNG_COLOR_MASK_PALETTE; pal_ptr = (png_colorp)malloc(pal->ncolors * sizeof(png_color)); for (i = 0; i < pal->ncolors; i++) { pal_ptr[i].red = pal->colors[i].r; pal_ptr[i].green = pal->colors[i].g; pal_ptr[i].blue = pal->colors[i].b; } png_set_PLTE(png_ptr, info_ptr, pal_ptr, pal->ncolors); free(pal_ptr); } else if (surface->format->BytesPerPixel > 3 || surface->format->Amask) colortype |= PNG_COLOR_MASK_ALPHA; png_set_IHDR(png_ptr, info_ptr, surface->w, surface->h, 8, colortype, PNG_INTERLACE_NONE, PNG_COMPRESSION_TYPE_DEFAULT, PNG_FILTER_TYPE_DEFAULT); // png_set_packing(png_ptr); /* Allow BGR surfaces */ if (surface->format->Rmask == bmask && surface->format->Gmask == gmask && surface->format->Bmask == rmask) png_set_bgr(png_ptr); /* Write everything */ png_write_info(png_ptr, info_ptr); #ifdef USE_ROW_POINTERS row_pointers = (png_bytep*) malloc(sizeof(png_bytep)*surface->h); for (i = 0; i < surface->h; i++) row_pointers[i] = (png_bytep)(Uint8*)surface->pixels + i * surface->pitch; png_write_image(png_ptr, row_pointers); free(row_pointers); #else for (i = 0; i < surface->h; i++) png_write_row(png_ptr, (png_bytep)(Uint8*)surface->pixels + i * surface->pitch); #endif png_write_end(png_ptr, info_ptr); /* Done */ png_destroy_write_struct(&png_ptr, &info_ptr); if (freedst) SDL_RWclose(dst); return (SUCCESS); } #endif /* defined(HAVE_LIBPNG) */ /* Some platforms (OS X), require that ALL input event processing be performed by the main thread of the process. To satisfy this requirement, we leverage the SDL_MAIN functionality which does: #defines main SDL_main and we define the main() entry point here. Locally, we run the application's SDL_main in a separate thread, and while that thread is running, the main thread performs event handling and dispatch. */ #define EVENT_REDRAW 1 /* redraw event for SDL */ #define EVENT_CLOSE 2 /* close event for SDL */ #define EVENT_CURSOR 3 /* new cursor for SDL */ #define EVENT_WARP 4 /* warp mouse position for SDL */ #define EVENT_DRAW 5 /* draw/blit region for SDL */ #define EVENT_SHOW 6 /* show SDL capabilities */ #define EVENT_OPEN 7 /* vid_open request */ #define EVENT_EXIT 8 /* program exit */ #define EVENT_SCREENSHOT 9 /* produce screenshot of video window */ #define EVENT_BEEP 10 /* audio beep */ #define EVENT_FULLSCREEN 11 /* fullscreen */ #define EVENT_SIZE 12 /* set window size */ #define EVENT_LOGICAL 13 /* set window logical size */ #define MAX_EVENTS 20 /* max events in queue */ typedef struct { SIM_KEY_EVENT events[MAX_EVENTS]; SDL_sem *sem; int32 head; int32 tail; int32 count; } KEY_EVENT_QUEUE; typedef struct { SIM_MOUSE_EVENT events[MAX_EVENTS]; SDL_sem *sem; int32 head; int32 tail; int32 count; } MOUSE_EVENT_QUEUE; int vid_thread (void* arg); int vid_video_events (VID_DISPLAY *vptr); void vid_show_video_event (void); void vid_screenshot_event (void); void vid_beep_event (void); static void vid_beep_setup (int duration_ms, int tone_frequency); static void vid_beep_cleanup (void); static void vid_controllers_setup (DEVICE *dptr); static void vid_controllers_cleanup (void); struct VID_DISPLAY { t_bool vid_active_window; t_bool vid_mouse_captured; int32 vid_flags; /* Open Flags */ int32 vid_width; int32 vid_height; t_bool vid_ready; char vid_title[128]; SDL_Texture *vid_texture; /* video buffer in GPU */ SDL_Renderer *vid_renderer; SDL_Window *vid_window; /* window handle */ SDL_PixelFormat *vid_format; uint32 vid_windowID; SDL_mutex *vid_draw_mutex; /* window update mutex */ SDL_Cursor *vid_cursor; /* current cursor */ t_bool vid_cursor_visible; /* cursor visibility state */ DEVICE *vid_dev; t_bool vid_key_state[SDL_NUM_SCANCODES]; VID_DISPLAY *next; t_bool vid_blending; SDL_Rect *vid_dst_last; SDL_Rect vid_rect; uint32 *vid_data_last; }; SDL_Thread *vid_thread_handle = NULL; /* event thread handle */ static VID_DISPLAY vid_first; KEY_EVENT_QUEUE vid_key_events; /* keyboard events */ MOUSE_EVENT_QUEUE vid_mouse_events; /* mouse events */ static VID_DISPLAY *vid_get_event_window (SDL_Event *ev, Uint32 windowID) { static Uint32 lastID = 0xffffffff; static VID_DISPLAY *last_display = NULL; VID_DISPLAY *vptr; SDL_KeyboardEvent *kev; SDL_MouseButtonEvent *bev; SDL_MouseMotionEvent *mev; SDL_WindowEvent *wev; SDL_UserEvent *uev; SDL_version ver; if (windowID == lastID) return last_display; for (vptr = &vid_first; vptr != NULL; vptr = vptr->next) { if (windowID == vptr->vid_windowID) { lastID = windowID; return last_display = vptr; } } switch (ev->type) { case SDL_KEYDOWN: case SDL_KEYUP: kev = (SDL_KeyboardEvent *)ev; sim_messagef (SCPE_OK, "Unrecognized key event.\n"); sim_messagef (SCPE_OK, " type = %u\n", kev->type); sim_messagef (SCPE_OK, " timestamp = %u\n", kev->timestamp); sim_messagef (SCPE_OK, " windowID = %u\n", kev->windowID); sim_messagef (SCPE_OK, " state = %u\n", kev->state); sim_messagef (SCPE_OK, " repeat = %u\n", kev->repeat); sim_messagef (SCPE_OK, " scancode = %d\n", kev->keysym.scancode); sim_messagef (SCPE_OK, " sym = %d\n", kev->keysym.sym); sim_messagef (SCPE_OK, " mod = %u\n", kev->keysym.mod); break; case SDL_MOUSEBUTTONDOWN: case SDL_MOUSEBUTTONUP: bev = (SDL_MouseButtonEvent *)ev; sim_messagef (SCPE_OK, "Unrecognized mouse button event.\n"); sim_messagef (SCPE_OK, " type = %u\n", bev->type); sim_messagef (SCPE_OK, " timestamp = %u\n", bev->timestamp); sim_messagef (SCPE_OK, " windowID = %u\n", bev->windowID); sim_messagef (SCPE_OK, " which = %u\n", bev->which); sim_messagef (SCPE_OK, " button = %u\n", bev->button); sim_messagef (SCPE_OK, " state = %u\n", bev->state); sim_messagef (SCPE_OK, " clicks = %u\n", bev->clicks); sim_messagef (SCPE_OK, " x = %d\n", bev->x); sim_messagef (SCPE_OK, " y = %d\n", bev->y); break; case SDL_MOUSEMOTION: mev = (SDL_MouseMotionEvent *)ev; sim_messagef (SCPE_OK, "Unrecognized mouse motion event.\n"); sim_messagef (SCPE_OK, " type = %u\n", mev->type); sim_messagef (SCPE_OK, " timestamp = %u\n", mev->timestamp); sim_messagef (SCPE_OK, " windowID = %u\n", mev->windowID); sim_messagef (SCPE_OK, " which = %u\n", mev->which); sim_messagef (SCPE_OK, " state = %u\n", mev->state); sim_messagef (SCPE_OK, " x = %d\n", mev->x); sim_messagef (SCPE_OK, " y = %d\n", mev->y); sim_messagef (SCPE_OK, " xrel = %d\n", mev->xrel); sim_messagef (SCPE_OK, " yrel = %d\n", mev->yrel); break; case SDL_WINDOWEVENT: wev = (SDL_WindowEvent *)ev; sim_messagef (SCPE_OK, "Unrecognized window event.\n"); sim_messagef (SCPE_OK, " type = %u\n", wev->type); sim_messagef (SCPE_OK, " timestamp = %u\n", wev->timestamp); sim_messagef (SCPE_OK, " windowID = %u\n", wev->windowID); sim_messagef (SCPE_OK, " event = %u\n", wev->event); sim_messagef (SCPE_OK, " data1 = %d\n", wev->data1); sim_messagef (SCPE_OK, " data2 = %d\n", wev->data2); break; case SDL_USEREVENT: uev = (SDL_UserEvent *)ev; sim_messagef (SCPE_OK, "Unrecognized user event.\n"); sim_messagef (SCPE_OK, " type = %u\n", uev->type); sim_messagef (SCPE_OK, " timestamp = %u\n", uev->timestamp); sim_messagef (SCPE_OK, " windowID = %u\n", uev->windowID); sim_messagef (SCPE_OK, " code = %d\n", uev->code); sim_messagef (SCPE_OK, " data1 = %p\n", uev->data1); sim_messagef (SCPE_OK, " data2 = %p\n", uev->data2); break; default: sim_messagef (SCPE_OK, "Unrecognized event type %u\n", ev->type); break; } SDL_GetVersion(&ver); sim_messagef (SCPE_OK, "\nSIMH has encountered a bug in SDL2. An upgrade to SDL2\n" "version 2.0.14 should fix this problem. You are running " "version %d.%d.%d.\n", ver.major, ver.minor, ver.patch); return NULL; } #if defined (SDL_MAIN_AVAILABLE) #if defined (main) #undef main #endif static int main_argc; static char **main_argv; static SDL_Thread *vid_main_thread_handle; int main_thread (void *arg) { SDL_Event user_event; int stat; stat = SDL_main (main_argc, main_argv); user_event.type = SDL_USEREVENT; user_event.user.code = EVENT_EXIT; user_event.user.data1 = NULL; user_event.user.data2 = NULL; while (SDL_PushEvent (&user_event) < 0) sim_os_ms_sleep (10); return stat; } int main (int argc, char *argv[]) { SDL_Event event; int status; main_argc = argc; main_argv = argv; SDL_SetHint (SDL_HINT_RENDER_DRIVER, "software"); #if defined (SDL_HINT_VIDEO_ALLOW_SCREENSAVER) /* If this hint is defined, the default is to disable the screen saver. We want to leave the screen saver enabled. */ SDL_SetHint (SDL_HINT_VIDEO_ALLOW_SCREENSAVER, "1"); #endif status = SDL_Init (SDL_INIT_EVENTS); if (status) { fprintf (stderr, "SDL Video subsystem can't initialize: %s\n", SDL_GetError ()); exit (1); } vid_main_thread_handle = SDL_CreateThread (main_thread , "simh-main", NULL); if (vid_main_thread_handle == NULL) { fprintf (stderr, "SDL_CreateThread failed: %s\n", SDL_GetError ()); exit (1); } vid_beep_setup (400, 660); memset (&event, 0, sizeof (event)); while (1) { int status = SDL_WaitEvent (&event); if (status == 1) { if (event.type == SDL_USEREVENT) { if (event.user.code == EVENT_EXIT) break; if (event.user.code == EVENT_OPEN) { SDL_Init (SDL_INIT_VIDEO); vid_video_events ((VID_DISPLAY *)event.user.data1); } else { if (event.user.code == EVENT_SHOW) vid_show_video_event (); else { if (event.user.code == EVENT_SCREENSHOT) vid_screenshot_event (); else { sim_printf ("main(): Unexpected User event: %d\n", event.user.code); break; } } } } else { // sim_printf ("main(): Ignoring unexpected event: %d\n", event.type); } } else { if (status < 0) sim_printf ("main() - ` error: %s\n", SDL_GetError()); } } SDL_WaitThread (vid_main_thread_handle, &status); vid_beep_cleanup (); SDL_Quit (); return status; } static t_stat vid_create_window (VID_DISPLAY *vptr) { int wait_count = 0; SDL_Event user_event; vptr->vid_ready = FALSE; user_event.type = SDL_USEREVENT; user_event.user.code = EVENT_OPEN; user_event.user.data1 = vptr; user_event.user.data2 = NULL; SDL_PushEvent (&user_event); while ((!vptr->vid_ready) && (++wait_count < 20)) sim_os_ms_sleep (100); if (!vptr->vid_ready) { vid_close (); return SCPE_OPENERR; } return SCPE_OK; } #else static int vid_create_window (VID_DISPLAY *vptr) { int wait_count = 0; if (vid_thread_handle == NULL) vid_thread_handle = SDL_CreateThread (vid_thread, "vid-thread", vptr); else { SDL_Event user_event; vptr->vid_ready = FALSE; user_event.type = SDL_USEREVENT; user_event.user.code = EVENT_OPEN; user_event.user.data1 = vptr; user_event.user.data2 = NULL; SDL_PushEvent (&user_event); } if (vid_thread_handle == NULL) { vid_close (); return SCPE_OPENERR; } while ((!vptr->vid_ready) && (++wait_count < 20)) sim_os_ms_sleep (100); if (!vptr->vid_ready) { vid_close (); return SCPE_OPENERR; } return SCPE_OK; } #endif static void vid_controllers_setup (DEVICE *dev) { SDL_Joystick *y; SDL_version ver; int i, n; if (vid_gamepad_inited++) return; /* Check that the SDL_GameControllerFromInstanceID function is available at run time. */ SDL_GetVersion(&ver); vid_gamepad_ok = (ver.major > 2 || (ver.major == 2 && (ver.minor > 0 || ver.patch >= 4))); sim_debug (SIM_VID_DBG_VIDEO|SIM_VID_DBG_JOYSTICK, dev, "SDL %d.%d.%d %s support game controllers.\n", ver.major, ver.minor, ver.patch, vid_gamepad_ok ? "DOES" : "DOES NOT"); if (vid_gamepad_ok) SDL_InitSubSystem(SDL_INIT_GAMECONTROLLER); else SDL_InitSubSystem(SDL_INIT_JOYSTICK); if (SDL_JoystickEventState (SDL_ENABLE) < 0) { if (vid_gamepad_ok) SDL_QuitSubSystem(SDL_INIT_GAMECONTROLLER); else SDL_QuitSubSystem(SDL_INIT_JOYSTICK); sim_printf ("%s: vid_controllers_setup(): SDL_JoystickEventState error: %s\n", vid_dname(dev), SDL_GetError()); return; } if (vid_gamepad_ok && SDL_GameControllerEventState (SDL_ENABLE) < 0) { if (vid_gamepad_ok) SDL_QuitSubSystem(SDL_INIT_GAMECONTROLLER); else SDL_QuitSubSystem(SDL_INIT_JOYSTICK); sim_printf ("%s: vid_controllers_setup(): SDL_GameControllerEventState error: %s\n", vid_dname(dev), SDL_GetError()); return; } n = SDL_NumJoysticks(); sim_debug (SIM_VID_DBG_VIDEO|SIM_VID_DBG_JOYSTICK, dev, "Game controllers found: %d\n", n); for (i = 0; i < n; i++) { if (vid_gamepad_ok && SDL_IsGameController (i)) { SDL_GameController *x = SDL_GameControllerOpen (i); if (x != NULL) { sim_debug (SIM_VID_DBG_VIDEO|SIM_VID_DBG_JOYSTICK, dev, "Game controller: %s\n", SDL_GameControllerNameForIndex(i)); } } else { y = SDL_JoystickOpen (i); if (y != NULL) { sim_debug (SIM_VID_DBG_VIDEO|SIM_VID_DBG_JOYSTICK, dev, "%s\n", SDL_JoystickNameForIndex(i)); sim_debug (SIM_VID_DBG_VIDEO|SIM_VID_DBG_JOYSTICK, dev, "Number of axes: %d, buttons: %d\n", SDL_JoystickNumAxes(y), SDL_JoystickNumButtons(y)); } } } } static void vid_controllers_cleanup (void) { if (0 == (--vid_gamepad_inited)) { memset (motion_callback, 0, sizeof motion_callback); memset (button_callback, 0, sizeof button_callback); if (vid_gamepad_ok) SDL_QuitSubSystem(SDL_INIT_GAMECONTROLLER); else SDL_QuitSubSystem(SDL_INIT_JOYSTICK); } } static t_stat vid_init_window (VID_DISPLAY *vptr, DEVICE *dptr, const char *title, uint32 width, uint32 height, int flags) { t_stat stat; if ((strlen(sim_name) + 7 + (dptr ? strlen (dptr->name) : 0) + (title ? strlen (title) : 0)) < sizeof (vptr->vid_title)) sprintf (vptr->vid_title, "%s%s%s%s%s", sim_name, dptr ? " - " : "", dptr ? dptr->name : "", title ? " - " : "", title ? title : ""); else sprintf (vptr->vid_title, "%s", sim_name); vptr->vid_flags = flags; vptr->vid_active_window = TRUE; vptr->vid_width = width; vptr->vid_height = height; vptr->vid_mouse_captured = FALSE; vptr->vid_cursor_visible = (vptr->vid_flags & SIM_VID_INPUTCAPTURED); vptr->vid_blending = FALSE; vptr->vid_ready = FALSE; if (!vid_active) { vid_key_events.head = 0; vid_key_events.tail = 0; vid_key_events.count = 0; vid_key_events.sem = SDL_CreateSemaphore (1); vid_mouse_events.head = 0; vid_mouse_events.tail = 0; vid_mouse_events.count = 0; vid_mouse_events.sem = SDL_CreateSemaphore (1); } vptr->vid_dev = dptr; memset (motion_callback, 0, sizeof motion_callback); memset (button_callback, 0, sizeof button_callback); stat = vid_create_window (vptr); if (stat != SCPE_OK) return stat; sim_debug (SIM_VID_DBG_VIDEO|SIM_VID_DBG_KEY|SIM_VID_DBG_MOUSE, vptr->vid_dev, "vid_open() - Success\n"); return SCPE_OK; } t_stat vid_open_window (VID_DISPLAY **vptr, DEVICE *dptr, const char *title, uint32 width, uint32 height, int flags) { t_stat r; *vptr = (VID_DISPLAY *)malloc (sizeof (VID_DISPLAY)); if (*vptr == NULL) return SCPE_NXM; (*vptr)->next = vid_first.next; vid_first.next = *vptr; r = vid_init_window (*vptr, dptr, title, width, height, flags); if (r != SCPE_OK) { vid_first.next = (*vptr)->next; free (*vptr); *vptr = NULL; return r; } return SCPE_OK; } t_stat vid_open (DEVICE *dptr, const char *title, uint32 width, uint32 height, int flags) { if (!vid_first.vid_active_window) return vid_init_window (&vid_first, dptr, title, width, height, flags); return SCPE_OK; } t_stat vid_close_window (VID_DISPLAY *vptr) { SDL_Event user_event; int status; if (vptr->vid_ready) { sim_debug (SIM_VID_DBG_VIDEO|SIM_VID_DBG_KEY|SIM_VID_DBG_MOUSE, vptr->vid_dev, "vid_close()\n"); user_event.type = SDL_USEREVENT; user_event.user.windowID = vptr->vid_windowID; user_event.user.code = EVENT_CLOSE; user_event.user.data1 = NULL; user_event.user.data2 = NULL; while (SDL_PushEvent (&user_event) < 0) sim_os_ms_sleep (10); vptr->vid_dev = NULL; } if (vid_thread_handle && vid_active <= 1) { SDL_WaitThread (vid_thread_handle, &status); vid_thread_handle = NULL; } while (vptr->vid_ready) sim_os_ms_sleep (10); vptr->vid_active_window = FALSE; if (!vid_active && vid_mouse_events.sem) { SDL_DestroySemaphore(vid_mouse_events.sem); vid_mouse_events.sem = NULL; } if (!vid_active && vid_key_events.sem) { SDL_DestroySemaphore(vid_key_events.sem); vid_key_events.sem = NULL; } return SCPE_OK; } t_stat vid_close (void) { if (vid_first.vid_active_window) return vid_close_window (&vid_first); return SCPE_OK; } t_stat vid_close_all (void) { VID_DISPLAY *vptr; vid_close (); for (vptr = vid_first.next; vptr != NULL; vptr = vptr->next) vid_close_window (vptr); return SCPE_OK; } t_stat vid_poll_kb (SIM_KEY_EVENT *ev) { if (SDL_SemTryWait (vid_key_events.sem) == 0) { /* get lock */ if (vid_key_events.count > 0) { /* events in queue? */ *ev = vid_key_events.events[vid_key_events.head++]; vid_key_events.count--; if (vid_key_events.head == MAX_EVENTS) vid_key_events.head = 0; SDL_SemPost (vid_key_events.sem); return SCPE_OK; } SDL_SemPost (vid_key_events.sem); } return SCPE_EOF; } t_stat vid_poll_mouse (SIM_MOUSE_EVENT *ev) { t_stat stat = SCPE_EOF; SIM_MOUSE_EVENT *nev; if (SDL_SemTryWait (vid_mouse_events.sem) == 0) { if (vid_mouse_events.count > 0) { stat = SCPE_OK; *ev = vid_mouse_events.events[vid_mouse_events.head++]; vid_mouse_events.count--; if (vid_mouse_events.head == MAX_EVENTS) vid_mouse_events.head = 0; nev = &vid_mouse_events.events[vid_mouse_events.head]; if ((vid_mouse_events.count > 0) && (0 == (ev->x_rel + nev->x_rel)) && (0 == (ev->y_rel + nev->y_rel)) && (ev->b1_state == nev->b1_state) && (ev->b2_state == nev->b2_state) && (ev->b3_state == nev->b3_state)) { if ((++vid_mouse_events.head) == MAX_EVENTS) vid_mouse_events.head = 0; vid_mouse_events.count--; stat = SCPE_EOF; sim_debug (SIM_VID_DBG_MOUSE, ev->dev, "vid_poll_mouse: ignoring bouncing events\n"); } } if (SDL_SemPost (vid_mouse_events.sem)) sim_printf ("vid_poll_mouse(): SDL_SemPost error: %s\n", SDL_GetError()); } return stat; } uint32 vid_map_rgb_window (VID_DISPLAY *vptr, uint8 r, uint8 g, uint8 b) { return SDL_MapRGB (vptr->vid_format, r, g, b); } uint32 vid_map_rgb (uint8 r, uint8 g, uint8 b) { return vid_map_rgb_window (&vid_first, r, g, b); } uint32 vid_map_rgba_window (VID_DISPLAY *vptr, uint8 r, uint8 g, uint8 b, uint8 a) { return SDL_MapRGBA (vptr->vid_format, r, g, b, a); } void vid_draw_window (VID_DISPLAY *vptr, int32 x, int32 y, int32 w, int32 h, uint32 *buf) { SDL_Event user_event; SDL_Rect *vid_dst, *last; uint32 *vid_data; sim_debug (SIM_VID_DBG_VIDEO, vptr->vid_dev, "vid_draw(%d, %d, %d, %d)\n", x, y, w, h); SDL_LockMutex (vptr->vid_draw_mutex); /* Synchronize to check region dimensions */ last = vptr->vid_dst_last; if (last && /* As yet unprocessed draw rectangle? */ (last->x == x) && (last->y == y) && /* AND identical position? */ (last->w == w) && (last->h == h)) { /* AND identical dimensions? */ memcpy (vptr->vid_data_last, buf, w*h*sizeof(*buf));/* Replace region contents */ SDL_UnlockMutex (vptr->vid_draw_mutex); /* Done */ return; } SDL_UnlockMutex (vptr->vid_draw_mutex); vid_dst = (SDL_Rect *)malloc (sizeof(*vid_dst)); if (!vid_dst) { sim_printf ("%s: vid_draw() memory allocation error\n", vid_dname(vptr->vid_dev)); return; } vid_dst->x = x; vid_dst->y = y; vid_dst->w = w; vid_dst->h = h; vid_data = (uint32 *)malloc (w*h*sizeof(*buf)); if (!vid_data) { sim_printf ("%s: vid_draw() memory allocation error\n", vid_dname(vptr->vid_dev)); free (vid_dst); return; } memcpy (vid_data, buf, w*h*sizeof(*buf)); user_event.type = SDL_USEREVENT; user_event.user.windowID = vptr->vid_windowID; user_event.user.code = EVENT_DRAW; user_event.user.data1 = (void *)vid_dst; user_event.user.data2 = (void *)vid_data; SDL_LockMutex (vptr->vid_draw_mutex); /* protect vid_dst_last & vid_data_last */ vptr->vid_dst_last = vid_dst; vptr->vid_data_last = vid_data; SDL_UnlockMutex (vptr->vid_draw_mutex); /* done protection */ if (SDL_PushEvent (&user_event) < 0) { sim_printf ("%s: vid_draw() SDL_PushEvent error: %s\n", vid_dname(vptr->vid_dev), SDL_GetError()); free (vid_dst); free (vid_data); } } void vid_draw (int32 x, int32 y, int32 w, int32 h, uint32 *buf) { vid_draw_window (&vid_first, x, y, w, h, buf); } t_stat vid_set_cursor_window (VID_DISPLAY *vptr, t_bool visible, uint32 width, uint32 height, uint8 *data, uint8 *mask, uint32 hot_x, uint32 hot_y) { SDL_Cursor *cursor = SDL_CreateCursor (data, mask, width, height, hot_x, hot_y); SDL_Event user_event; sim_debug (SIM_VID_DBG_CURSOR, vptr->vid_dev, "vid_set_cursor(%s, %d, %d) Setting New Cursor\n", visible ? "visible" : "invisible", width, height); if (sim_deb) { uint32 i, j; for (i=0; ivid_dev, "Cursor: "); for (j=0; j> 3; int bit = 7 - ((j + i*width) & 0x7); static char mode[] = "TWIB"; sim_debug (SIM_VID_DBG_CURSOR, vptr->vid_dev, "%c", mode[(((data[byte]>>bit)&1)<<1)|((mask[byte]>>bit)&1)]); } sim_debug (SIM_VID_DBG_CURSOR, vptr->vid_dev, "\n"); } } user_event.type = SDL_USEREVENT; user_event.user.windowID = vptr->vid_windowID; user_event.user.code = EVENT_CURSOR; user_event.user.data1 = cursor; user_event.user.data2 = (void *)((size_t)visible); if (SDL_PushEvent (&user_event) < 0) { sim_printf ("%s: vid_set_cursor() SDL_PushEvent error: %s\n", vid_dname(vptr->vid_dev), SDL_GetError()); SDL_FreeCursor (cursor); } return SCPE_OK; } t_stat vid_set_cursor (t_bool visible, uint32 width, uint32 height, uint8 *data, uint8 *mask, uint32 hot_x, uint32 hot_y) { return vid_set_cursor_window (&vid_first, visible, width, height, data, mask, hot_x, hot_y); } void vid_set_cursor_position_window (VID_DISPLAY *vptr, int32 x, int32 y) { int32 x_delta = vid_cursor_x - x; int32 y_delta = vid_cursor_y - y; if (vptr->vid_flags & SIM_VID_INPUTCAPTURED) return; if ((x_delta) || (y_delta)) { sim_debug (SIM_VID_DBG_CURSOR, vptr->vid_dev, "vid_set_cursor_position(%d, %d) - Cursor position changed\n", x, y); /* Any queued mouse motion events need to have their relative positions adjusted since they were queued based on different info. */ if (SDL_SemWait (vid_mouse_events.sem) == 0) { int32 i; SIM_MOUSE_EVENT *ev; for (i=0; ivid_dev, "Pending Mouse Motion Event Adjusted from: (%d, %d) to (%d, %d)\n", ev->x_rel, ev->y_rel, ev->x_rel + x_delta, ev->y_rel + y_delta); ev->x_rel += x_delta; ev->y_rel += y_delta; } if (SDL_SemPost (vid_mouse_events.sem)) sim_printf ("%s: vid_set_cursor_position(): SDL_SemPost error: %s\n", vid_dname(vptr->vid_dev), SDL_GetError()); } else { sim_printf ("%s: vid_set_cursor_position(): SDL_SemWait error: %s\n", vid_dname(vptr->vid_dev), SDL_GetError()); } vid_cursor_x = x; vid_cursor_y = y; if (vptr->vid_cursor_visible) { SDL_Event user_event; user_event.type = SDL_USEREVENT; user_event.user.windowID = vptr->vid_windowID; user_event.user.code = EVENT_WARP; user_event.user.data1 = NULL; user_event.user.data2 = NULL; if (SDL_PushEvent (&user_event) < 0) sim_printf ("%s: vid_set_cursor_position() SDL_PushEvent error: %s\n", vid_dname(vptr->vid_dev), SDL_GetError()); sim_debug (SIM_VID_DBG_CURSOR, vptr->vid_dev, "vid_set_cursor_position() - Warp Queued\n"); } else { sim_debug (SIM_VID_DBG_CURSOR, vptr->vid_dev, "vid_set_cursor_position() - Warp Skipped\n"); } } } void vid_set_cursor_position (int32 x, int32 y) { vid_set_cursor_position_window (&vid_first, x, y); } void vid_refresh_window (VID_DISPLAY *vptr) { SDL_Event user_event; sim_debug (SIM_VID_DBG_VIDEO, vptr->vid_dev, "vid_refresh() - Queueing Refresh Event\n"); user_event.type = SDL_USEREVENT; user_event.user.windowID = vptr->vid_windowID; user_event.user.code = EVENT_REDRAW; user_event.user.data1 = NULL; user_event.user.data2 = NULL; if (SDL_PushEvent (&user_event) < 0) sim_printf ("%s: vid_refresh() SDL_PushEvent error: %s\n", vid_dname(vptr->vid_dev), SDL_GetError()); } void vid_refresh (void) { vid_refresh_window (&vid_first); } int vid_map_key (int key) { switch (key) { case SDLK_BACKSPACE: return SIM_KEY_BACKSPACE; case SDLK_TAB: return SIM_KEY_TAB; case SDLK_RETURN: return SIM_KEY_ENTER; case SDLK_ESCAPE: return SIM_KEY_ESC; case SDLK_SPACE: return SIM_KEY_SPACE; case SDLK_QUOTE: return SIM_KEY_SINGLE_QUOTE; case SDLK_COMMA: return SIM_KEY_COMMA; case SDLK_MINUS: return SIM_KEY_MINUS; case SDLK_PERIOD: return SIM_KEY_PERIOD; case SDLK_SLASH: return SIM_KEY_SLASH; case SDLK_0: return SIM_KEY_0; case SDLK_1: return SIM_KEY_1; case SDLK_2: return SIM_KEY_2; case SDLK_3: return SIM_KEY_3; case SDLK_4: return SIM_KEY_4; case SDLK_5: return SIM_KEY_5; case SDLK_6: return SIM_KEY_6; case SDLK_7: return SIM_KEY_7; case SDLK_8: return SIM_KEY_8; case SDLK_9: return SIM_KEY_9; case SDLK_SEMICOLON: return SIM_KEY_SEMICOLON; case SDLK_EQUALS: return SIM_KEY_EQUALS; case SDLK_LEFTBRACKET: return SIM_KEY_LEFT_BRACKET; case SDLK_BACKSLASH: return SIM_KEY_BACKSLASH; case SDLK_RIGHTBRACKET: return SIM_KEY_RIGHT_BRACKET; case SDLK_BACKQUOTE: return SIM_KEY_BACKQUOTE; case SDLK_a: return SIM_KEY_A; case SDLK_b: return SIM_KEY_B; case SDLK_c: return SIM_KEY_C; case SDLK_d: return SIM_KEY_D; case SDLK_e: return SIM_KEY_E; case SDLK_f: return SIM_KEY_F; case SDLK_g: return SIM_KEY_G; case SDLK_h: return SIM_KEY_H; case SDLK_i: return SIM_KEY_I; case SDLK_j: return SIM_KEY_J; case SDLK_k: return SIM_KEY_K; case SDLK_l: return SIM_KEY_L; case SDLK_m: return SIM_KEY_M; case SDLK_n: return SIM_KEY_N; case SDLK_o: return SIM_KEY_O; case SDLK_p: return SIM_KEY_P; case SDLK_q: return SIM_KEY_Q; case SDLK_r: return SIM_KEY_R; case SDLK_s: return SIM_KEY_S; case SDLK_t: return SIM_KEY_T; case SDLK_u: return SIM_KEY_U; case SDLK_v: return SIM_KEY_V; case SDLK_w: return SIM_KEY_W; case SDLK_x: return SIM_KEY_X; case SDLK_y: return SIM_KEY_Y; case SDLK_z: return SIM_KEY_Z; case SDLK_DELETE: return SIM_KEY_DELETE; case SDLK_KP_0: return SIM_KEY_KP_INSERT; case SDLK_KP_1: return SIM_KEY_KP_END; case SDLK_KP_2: return SIM_KEY_KP_DOWN; case SDLK_KP_3: return SIM_KEY_KP_PAGE_DOWN; case SDLK_KP_4: return SIM_KEY_KP_LEFT; case SDLK_KP_5: return SIM_KEY_KP_5; case SDLK_KP_6: return SIM_KEY_KP_RIGHT; case SDLK_KP_7: return SIM_KEY_KP_HOME; case SDLK_KP_8: return SIM_KEY_KP_UP; case SDLK_KP_9: return SIM_KEY_KP_PAGE_UP; case SDLK_KP_PERIOD: return SIM_KEY_KP_DELETE; case SDLK_KP_DIVIDE: return SIM_KEY_KP_DIVIDE; case SDLK_KP_MULTIPLY: return SIM_KEY_KP_MULTIPLY; case SDLK_KP_MINUS: return SIM_KEY_KP_SUBTRACT; case SDLK_KP_PLUS: return SIM_KEY_KP_ADD; case SDLK_KP_ENTER: return SIM_KEY_KP_ENTER; case SDLK_UP: return SIM_KEY_UP; case SDLK_DOWN: return SIM_KEY_DOWN; case SDLK_RIGHT: return SIM_KEY_RIGHT; case SDLK_LEFT: return SIM_KEY_LEFT; case SDLK_INSERT: return SIM_KEY_INSERT; case SDLK_HOME: return SIM_KEY_HOME; case SDLK_END: return SIM_KEY_END; case SDLK_PAGEUP: return SIM_KEY_PAGE_UP; case SDLK_PAGEDOWN: return SIM_KEY_PAGE_DOWN; case SDLK_F1: return SIM_KEY_F1; case SDLK_F2: return SIM_KEY_F2; case SDLK_F3: return SIM_KEY_F3; case SDLK_F4: return SIM_KEY_F4; case SDLK_F5: return SIM_KEY_F5; case SDLK_F6: return SIM_KEY_F6; case SDLK_F7: return SIM_KEY_F7; case SDLK_F8: return SIM_KEY_F8; case SDLK_F9: return SIM_KEY_F9; case SDLK_F10: return SIM_KEY_F10; case SDLK_F11: return SIM_KEY_F11; case SDLK_F12: return SIM_KEY_F12; case SDLK_NUMLOCKCLEAR: return SIM_KEY_NUM_LOCK; case SDLK_CAPSLOCK: return SIM_KEY_CAPS_LOCK; case SDLK_SCROLLLOCK: return SIM_KEY_SCRL_LOCK; case SDLK_RSHIFT: return SIM_KEY_SHIFT_R; case SDLK_LSHIFT: return SIM_KEY_SHIFT_L; case SDLK_RCTRL: return SIM_KEY_CTRL_R; case SDLK_LCTRL: return SIM_KEY_CTRL_L; case SDLK_RALT: return SIM_KEY_ALT_R; case SDLK_LALT: return SIM_KEY_ALT_L; case SDLK_LGUI: return SIM_KEY_WIN_L; case SDLK_RGUI: return SIM_KEY_WIN_R; case SDLK_PRINTSCREEN: return SIM_KEY_PRINT; case SDLK_PAUSE: return SIM_KEY_PAUSE; case SDLK_MENU: return SIM_KEY_MENU; default: return SIM_KEY_UNKNOWN; } } void vid_joy_motion (SDL_JoyAxisEvent *event) { int n = sizeof motion_callback / sizeof (VID_GAMEPAD_CALLBACK); int i; for (i = 0; i < n; i++) { if (motion_callback[i]) { motion_callback[i](event->which, event->axis, event->value); } } } void vid_joy_button (SDL_JoyButtonEvent *event) { int n = sizeof button_callback / sizeof (VID_GAMEPAD_CALLBACK); int i; for (i = 0; i < n; i++) { if (button_callback[i]) { button_callback[i](event->which, event->button, event->state); } } } void vid_controller_motion (SDL_ControllerAxisEvent *event) { SDL_JoyAxisEvent e; e.which = event->which; e.axis = event->axis; e.value = event->value; vid_joy_motion (&e); } void vid_controller_button (SDL_ControllerButtonEvent *event) { /* SDL_GameControllerFromInstanceID is only available from SDL version 2.0.4, so check the version at compile time. The version is also checked at run time. */ #if (SDL_MAJOR_VERSION > 2) || (SDL_MAJOR_VERSION == 2 && \ (SDL_MINOR_VERSION > 0) || (SDL_PATCHLEVEL >= 4)) SDL_JoyButtonEvent e; SDL_GameControllerButtonBind b; SDL_GameController *c; SDL_GameControllerButton button = (SDL_GameControllerButton)event->button; c = SDL_GameControllerFromInstanceID (event->which); b = SDL_GameControllerGetBindForButton (c, button); e.which = event->which; e.button = b.value.button; e.state = event->state; vid_joy_button (&e); #endif } void vid_key (SDL_KeyboardEvent *event) { SIM_KEY_EVENT ev; VID_DISPLAY *vptr = vid_get_event_window ((SDL_Event *)event, event->windowID); if (vptr == NULL) return; if (vptr->vid_mouse_captured) { static const Uint8 *KeyStates = NULL; static int numkeys; if (!KeyStates) KeyStates = SDL_GetKeyboardState(&numkeys); if ((vptr->vid_flags & SIM_VID_INPUTCAPTURED) && (event->state == SDL_PRESSED) && KeyStates[SDL_SCANCODE_RSHIFT] && (KeyStates[SDL_SCANCODE_LCTRL] || KeyStates[SDL_SCANCODE_RCTRL])) { sim_debug (SIM_VID_DBG_KEY, vptr->vid_dev, "vid_key() - Cursor Release\n"); if (SDL_SetRelativeMouseMode(SDL_FALSE) < 0) /* release cursor, show cursor */ sim_printf ("%s: vid_key(): SDL_SetRelativeMouseMode error: %s\n", vid_dname(vptr->vid_dev), SDL_GetError()); vptr->vid_mouse_captured = FALSE; return; } } if (!sim_is_running) return; if (SDL_SemWait (vid_key_events.sem) == 0) { if (vid_key_events.count < MAX_EVENTS) { ev.key = vid_map_key (event->keysym.sym); ev.dev = vptr->vid_dev; ev.vptr = vptr; sim_debug (SIM_VID_DBG_KEY, vptr->vid_dev, "Keyboard Event: State: %s, Keysym(scancode,sym): (%d,%d) - %s\n", (event->state == SDL_PRESSED) ? "PRESSED" : "RELEASED", event->keysym.scancode, event->keysym.sym, vid_key_name(ev.key)); if (event->state == SDL_PRESSED) { if (!vptr->vid_key_state[event->keysym.scancode]) {/* Key was not down before */ vptr->vid_key_state[event->keysym.scancode] = TRUE; ev.state = SIM_KEYPRESS_DOWN; } else ev.state = SIM_KEYPRESS_REPEAT; } else { vptr->vid_key_state[event->keysym.scancode] = FALSE; ev.state = SIM_KEYPRESS_UP; } vid_key_events.events[vid_key_events.tail++] = ev; vid_key_events.count++; if (vid_key_events.tail == MAX_EVENTS) vid_key_events.tail = 0; } else { sim_debug (SIM_VID_DBG_KEY, vptr->vid_dev, "Keyboard Event DISCARDED: State: %s, Keysym: Scancode: %d, Keysym: %d\n", (event->state == SDL_PRESSED) ? "PRESSED" : "RELEASED", event->keysym.scancode, event->keysym.sym); } if (SDL_SemPost (vid_key_events.sem)) sim_printf ("%s: vid_key(): SDL_SemPost error: %s\n", vid_dname(vptr->vid_dev), SDL_GetError()); } } void vid_mouse_move (SDL_MouseMotionEvent *event) { SDL_Event dummy_event; SDL_MouseMotionEvent *dev = (SDL_MouseMotionEvent *)&dummy_event; SIM_MOUSE_EVENT ev; VID_DISPLAY *vptr = vid_get_event_window ((SDL_Event *)event, event->windowID); if (vptr == NULL) return; if ((!vptr->vid_mouse_captured) && (vptr->vid_flags & SIM_VID_INPUTCAPTURED)) return; if (!sim_is_running) return; if (!vptr->vid_cursor_visible) return; sim_debug (SIM_VID_DBG_MOUSE, vptr->vid_dev, "Mouse Move Event: pos:(%d,%d) rel:(%d,%d) buttons:(%d,%d,%d)\n", event->x, event->y, event->xrel, event->yrel, (event->state & SDL_BUTTON(SDL_BUTTON_LEFT)) ? 1 : 0, (event->state & SDL_BUTTON(SDL_BUTTON_MIDDLE)) ? 1 : 0, (event->state & SDL_BUTTON(SDL_BUTTON_RIGHT)) ? 1 : 0); while (SDL_PeepEvents (&dummy_event, 1, SDL_GETEVENT, SDL_MOUSEMOTION, SDL_MOUSEMOTION)) { /* Coalesce motion activity to avoid thrashing */ event->xrel += dev->xrel; event->yrel += dev->yrel; event->x = dev->x; event->y = dev->y; event->state = dev->state; sim_debug (SIM_VID_DBG_MOUSE, vptr->vid_dev, "Mouse Move Event: Additional Event Coalesced:pos:(%d,%d) rel:(%d,%d) buttons:(%d,%d,%d)\n", dev->x, dev->y, dev->xrel, dev->yrel, (dev->state & SDL_BUTTON(SDL_BUTTON_LEFT)) ? 1 : 0, (dev->state & SDL_BUTTON(SDL_BUTTON_MIDDLE)) ? 1 : 0, (dev->state & SDL_BUTTON(SDL_BUTTON_RIGHT)) ? 1 : 0); }; if (SDL_SemWait (vid_mouse_events.sem) == 0) { if (!vptr->vid_mouse_captured) { event->xrel = (event->x - vid_cursor_x); event->yrel = (event->y - vid_cursor_y); } vid_mouse_b1 = (event->state & SDL_BUTTON(SDL_BUTTON_LEFT)) ? TRUE : FALSE; vid_mouse_b2 = (event->state & SDL_BUTTON(SDL_BUTTON_MIDDLE)) ? TRUE : FALSE; vid_mouse_b3 = (event->state & SDL_BUTTON(SDL_BUTTON_RIGHT)) ? TRUE : FALSE; sim_debug (SIM_VID_DBG_MOUSE, vptr->vid_dev, "Mouse Move Event: pos:(%d,%d) rel:(%d,%d) buttons:(%d,%d,%d) - Count: %d vid_cursor:(%d,%d)\n", event->x, event->y, event->xrel, event->yrel, (event->state & SDL_BUTTON(SDL_BUTTON_LEFT)) ? 1 : 0, (event->state & SDL_BUTTON(SDL_BUTTON_MIDDLE)) ? 1 : 0, (event->state & SDL_BUTTON(SDL_BUTTON_RIGHT)) ? 1 : 0, vid_mouse_events.count, vid_cursor_x, vid_cursor_y); if (vid_mouse_events.count < MAX_EVENTS) { SIM_MOUSE_EVENT *tail = &vid_mouse_events.events[(vid_mouse_events.tail+MAX_EVENTS-1)%MAX_EVENTS]; ev.dev = vptr->vid_dev; ev.x_rel = event->xrel; ev.y_rel = event->yrel; ev.b1_state = vid_mouse_b1; ev.b2_state = vid_mouse_b2; ev.b3_state = vid_mouse_b3; ev.x_pos = event->x; ev.y_pos = event->y; if ((vid_mouse_events.count > 0) && /* Is there a tail event? */ (ev.b1_state == tail->b1_state) && /* With the same button state? */ (ev.b2_state == tail->b2_state) && (ev.b3_state == tail->b3_state)) { /* Merge the motion */ tail->x_rel += ev.x_rel; tail->y_rel += ev.y_rel; tail->x_pos = ev.x_pos; tail->y_pos = ev.y_pos; sim_debug (SIM_VID_DBG_MOUSE, vptr->vid_dev, "Mouse Move Event: Coalesced into pending event: (%d,%d)\n", tail->x_rel, tail->y_rel); } else { /* Add a new event */ vid_mouse_events.events[vid_mouse_events.tail++] = ev; vid_mouse_events.count++; if (vid_mouse_events.tail == MAX_EVENTS) vid_mouse_events.tail = 0; } } else { sim_debug (SIM_VID_DBG_MOUSE, vptr->vid_dev, "Mouse Move Event Discarded: Count: %d\n", vid_mouse_events.count); } if (SDL_SemPost (vid_mouse_events.sem)) sim_printf ("%s: vid_mouse_move(): SDL_SemPost error: %s\n", vid_dname(vptr->vid_dev), SDL_GetError()); } } void vid_mouse_button (SDL_MouseButtonEvent *event) { SDL_Event dummy_event; SIM_MOUSE_EVENT ev; t_bool state; VID_DISPLAY *vptr = vid_get_event_window ((SDL_Event *)event, event->windowID); if (vptr == NULL) return; if ((!vptr->vid_mouse_captured) && (vptr->vid_flags & SIM_VID_INPUTCAPTURED)) { if ((event->state == SDL_PRESSED) && (event->button == SDL_BUTTON_LEFT)) { /* left click and cursor not captured? */ sim_debug (SIM_VID_DBG_KEY, vptr->vid_dev, "vid_mouse_button() - Cursor Captured\n"); if (SDL_SetRelativeMouseMode (SDL_TRUE) < 0) /* lock cursor to window, hide cursor */ sim_printf ("%s: vid_mouse_button(): SDL_SetRelativeMouseMode error: %s\n", vid_dname(vptr->vid_dev), SDL_GetError()); SDL_WarpMouseInWindow (NULL, vptr->vid_width/2, vptr->vid_height/2);/* back to center */ SDL_PumpEvents (); while (SDL_PeepEvents (&dummy_event, 1, SDL_GETEVENT, SDL_MOUSEMOTION, SDL_MOUSEMOTION)) {}; vptr->vid_mouse_captured = TRUE; } return; } if (!sim_is_running) return; state = (event->state == SDL_PRESSED) ? TRUE : FALSE; if (SDL_SemWait (vid_mouse_events.sem) == 0) { switch (event->button) { case SDL_BUTTON_LEFT: vid_mouse_b1 = state; break; case SDL_BUTTON_MIDDLE: vid_mouse_b2 = state; break; case SDL_BUTTON_RIGHT: vid_mouse_b3 = state; break; } sim_debug (SIM_VID_DBG_MOUSE, vptr->vid_dev, "Mouse Button Event: State: %d, Button: %d, (%d,%d)\n", event->state, event->button, event->x, event->y); if (vid_mouse_events.count < MAX_EVENTS) { ev.dev = vptr->vid_dev; ev.x_rel = 0; ev.y_rel = 0; ev.x_pos = event->x; ev.y_pos = event->y; ev.b1_state = vid_mouse_b1; ev.b2_state = vid_mouse_b2; ev.b3_state = vid_mouse_b3; vid_mouse_events.events[vid_mouse_events.tail++] = ev; vid_mouse_events.count++; if (vid_mouse_events.tail == MAX_EVENTS) vid_mouse_events.tail = 0; } else { sim_debug (SIM_VID_DBG_MOUSE, vptr->vid_dev, "Mouse Button Event Discarded: Count: %d\n", vid_mouse_events.count); } if (SDL_SemPost (vid_mouse_events.sem)) sim_printf ("%s: Mouse Button Event: SDL_SemPost error: %s\n", vid_dname(vptr->vid_dev), SDL_GetError()); } } void vid_set_window_size (VID_DISPLAY *vptr, int32 w, int32 h) { SDL_Event user_event; vptr->vid_rect.h = h; vptr->vid_rect.w = w; user_event.type = SDL_USEREVENT; user_event.user.windowID = vptr->vid_windowID; user_event.user.code = EVENT_SIZE; user_event.user.data1 = NULL; user_event.user.data2 = NULL; #if defined (SDL_MAIN_AVAILABLE) while (SDL_PushEvent (&user_event) < 0) sim_os_ms_sleep (100); #else SDL_SetWindowSize(vptr->vid_window, w, h); #endif } void vid_render_set_logical_size (VID_DISPLAY *vptr, int32 w, int32 h) { SDL_Event user_event; vptr->vid_rect.h = h; vptr->vid_rect.w = w; user_event.type = SDL_USEREVENT; user_event.user.windowID = vptr->vid_windowID; user_event.user.code = EVENT_LOGICAL; user_event.user.data1 = NULL; user_event.user.data2 = NULL; #if defined (SDL_MAIN_AVAILABLE) while (SDL_PushEvent (&user_event) < 0) sim_os_ms_sleep (100); #else SDL_RenderSetLogicalSize(vptr->vid_renderer, w, h); #endif } t_bool vid_is_fullscreen_window (VID_DISPLAY *vptr) { return SDL_GetWindowFlags (vptr->vid_window) & SDL_WINDOW_FULLSCREEN_DESKTOP; } t_bool vid_is_fullscreen (void) { return vid_is_fullscreen_window (&vid_first); } t_stat vid_set_fullscreen_window (VID_DISPLAY *vptr, t_bool flag) { SDL_Event user_event; user_event.type = SDL_USEREVENT; user_event.user.windowID = vptr->vid_windowID; user_event.user.code = EVENT_FULLSCREEN; user_event.user.data1 = (flag) ? vptr : NULL; user_event.user.data2 = NULL; #if defined (SDL_MAIN_AVAILABLE) while (SDL_PushEvent (&user_event) < 0) sim_os_ms_sleep (100); #else if (flag) SDL_SetWindowFullscreen (vptr->vid_window, SDL_WINDOW_FULLSCREEN_DESKTOP); else SDL_SetWindowFullscreen (vptr->vid_window, 0); #endif return SCPE_OK; } t_stat vid_set_fullscreen (t_bool flag) { return vid_set_fullscreen_window (&vid_first, flag); } static void vid_stretch(VID_DISPLAY *vptr, SDL_Rect *r) { /* Return in r a rectangle with the same aspect ratio as the video buffer but scaled to fit precisely in the output window. Normally, the buffer and the window have the same sizes, but if the window is resized, or fullscreen is in effect, they are not. */ int w, h; SDL_GetRendererOutputSize(vptr->vid_renderer, &w, &h); if ((double)h / vptr->vid_height < (double)w / vptr->vid_width) { r->w = vptr->vid_width * h / vptr->vid_height; r->h = h; r->x = (w - r->w) / 2; r->y = 0; } else { r->w = w; r->h = vptr->vid_height * w / vptr->vid_width; r->x = 0; r->y = (h - r->h) / 2; } if (vptr->vid_flags & SIM_VID_IGNORE_VBAR) { r->w = w; r->h = h; r->x = 0; r->y = 0; } } void vid_update (VID_DISPLAY *vptr) { SDL_Rect vid_dst; vid_stretch(vptr, &vid_dst); sim_debug (SIM_VID_DBG_VIDEO, vptr->vid_dev, "Video Update Event: \n"); if (sim_deb) fflush (sim_deb); if (vptr->vid_blending) SDL_RenderPresent (vptr->vid_renderer); else { if (SDL_RenderClear (vptr->vid_renderer)) sim_printf ("%s: Video Update Event: SDL_RenderClear error: %s\n", vid_dname(vptr->vid_dev), SDL_GetError()); if (SDL_RenderCopy (vptr->vid_renderer, vptr->vid_texture, NULL, &vid_dst)) sim_printf ("%s: Video Update Event: SDL_RenderCopy error: %s\n", vid_dname(vptr->vid_dev), SDL_GetError()); SDL_RenderPresent (vptr->vid_renderer); } } void vid_update_cursor (VID_DISPLAY *vptr, SDL_Cursor *cursor, t_bool visible) { if (!cursor) return; sim_debug (SIM_VID_DBG_VIDEO, vptr->vid_dev, "Cursor Update Event: Previously %s, Now %s, New Cursor object at: %p, Old Cursor object at: %p\n", SDL_ShowCursor(-1) ? "visible" : "invisible", visible ? "visible" : "invisible", cursor, vptr->vid_cursor); SDL_SetCursor (cursor); if ((vptr->vid_window == SDL_GetMouseFocus ()) && visible) SDL_WarpMouseInWindow (NULL, vid_cursor_x, vid_cursor_y);/* sync position */ if ((vptr->vid_cursor != cursor) && (vptr->vid_cursor)) SDL_FreeCursor (vptr->vid_cursor); vptr->vid_cursor = cursor; SDL_ShowCursor (visible); vptr->vid_cursor_visible = visible; } void vid_warp_position (VID_DISPLAY *vptr) { sim_debug (SIM_VID_DBG_VIDEO, vptr->vid_dev, "Mouse Warp Event: Warp to: (%d,%d)\n", vid_cursor_x, vid_cursor_y); SDL_PumpEvents (); SDL_WarpMouseInWindow (NULL, vid_cursor_x, vid_cursor_y); SDL_PumpEvents (); } void vid_draw_region (VID_DISPLAY *vptr, SDL_UserEvent *event) { SDL_Rect *vid_dst = (SDL_Rect *)event->data1; uint32 *buf = (uint32 *)event->data2; sim_debug (SIM_VID_DBG_VIDEO, vptr->vid_dev, "Draw Region Event: (%d,%d,%d,%d)\n", vid_dst->x, vid_dst->x, vid_dst->w, vid_dst->h); SDL_LockMutex (vptr->vid_draw_mutex); if (vid_dst == vptr->vid_dst_last) { vptr->vid_dst_last = NULL; vptr->vid_data_last = NULL; } SDL_UnlockMutex (vptr->vid_draw_mutex); if (vptr->vid_blending) { SDL_UpdateTexture(vptr->vid_texture, vid_dst, buf, vid_dst->w*sizeof(*buf)); SDL_RenderCopy (vptr->vid_renderer, vptr->vid_texture, vid_dst, vid_dst); } else if (SDL_UpdateTexture(vptr->vid_texture, vid_dst, buf, vid_dst->w*sizeof(*buf))) sim_printf ("%s: vid_draw_region() - SDL_UpdateTexture error: %s\n", vid_dname(vptr->vid_dev), SDL_GetError()); free (vid_dst); free (buf); event->data1 = NULL; } static int vid_new_window (VID_DISPLAY *vptr) { SDL_CreateWindowAndRenderer (vptr->vid_width, vptr->vid_height, SDL_WINDOW_SHOWN, &vptr->vid_window, &vptr->vid_renderer); if ((vptr->vid_window == NULL) || (vptr->vid_renderer == NULL)) { sim_printf ("%s: Error Creating Video Window: %s\n", vid_dname(vptr->vid_dev), SDL_GetError()); SDL_Quit (); return 0; } vptr->vid_draw_mutex = SDL_CreateMutex(); if (vptr->vid_draw_mutex == NULL) { fprintf (stderr, "%s: SDL_CreateMutex failed: %s\n", vid_dname(vptr->vid_dev), SDL_GetError ()); SDL_Quit (); return 0; } SDL_SetRenderDrawColor (vptr->vid_renderer, 0, 0, 0, 255); SDL_RenderClear (vptr->vid_renderer); SDL_RenderPresent (vptr->vid_renderer); vptr->vid_texture = SDL_CreateTexture (vptr->vid_renderer, SDL_PIXELFORMAT_ARGB8888, SDL_TEXTUREACCESS_STREAMING, vptr->vid_width, vptr->vid_height); if (!vptr->vid_texture) { sim_printf ("%s: Error configuring Video environment: %s\n", vid_dname(vptr->vid_dev), SDL_GetError()); SDL_DestroyRenderer(vptr->vid_renderer); vptr->vid_renderer = NULL; SDL_DestroyWindow(vptr->vid_window); vptr->vid_window = NULL; SDL_Quit (); return 0; } vptr->vid_format = SDL_AllocFormat (SDL_PIXELFORMAT_ARGB8888); #ifdef SDL_WINDOW_RESIZABLE if (vptr->vid_flags & SIM_VID_RESIZABLE) { SDL_SetWindowResizable(vptr->vid_window, SDL_TRUE); SDL_RenderSetIntegerScale(vptr->vid_renderer, SDL_TRUE); } #endif SDL_StopTextInput (); vptr->vid_windowID = SDL_GetWindowID (vptr->vid_window); if (vptr->vid_flags & SIM_VID_INPUTCAPTURED) { char title[150]; memset (title, 0, sizeof(title)); strlcpy (title, vptr->vid_title, sizeof(title)); strlcat (title, " ReleaseKey=", sizeof(title)); strlcat (title, vid_release_key, sizeof(title)); SDL_SetWindowTitle (vptr->vid_window, title); } else SDL_SetWindowTitle (vptr->vid_window, vptr->vid_title); memset (&vptr->vid_key_state, 0, sizeof(vptr->vid_key_state)); vptr->vid_dst_last = NULL; vptr->vid_data_last = NULL; vid_active++; return 1; } t_stat vid_set_alpha_mode (VID_DISPLAY *vptr, int mode) { SDL_BlendMode x; switch (mode) { case SIM_ALPHA_NONE: vptr->vid_blending = FALSE; x = SDL_BLENDMODE_NONE; break; case SIM_ALPHA_BLEND: vptr->vid_blending = TRUE; x = SDL_BLENDMODE_BLEND; break; case SIM_ALPHA_ADD: vptr->vid_blending = TRUE; x = SDL_BLENDMODE_ADD; break; case SIM_ALPHA_MOD: vptr->vid_blending = TRUE; x = SDL_BLENDMODE_MOD; break; default: return SCPE_ARG; } if (SDL_SetTextureBlendMode (vptr->vid_texture, x)) return SCPE_IERR; if (SDL_SetRenderDrawBlendMode (vptr->vid_renderer, x)) return SCPE_IERR; return SCPE_OK; } static void vid_destroy (VID_DISPLAY *vptr) { VID_DISPLAY *parent; vptr->vid_ready = FALSE; if (vptr->vid_cursor) { SDL_FreeCursor (vptr->vid_cursor); vptr->vid_cursor = NULL; } SDL_DestroyTexture(vptr->vid_texture); vptr->vid_texture = NULL; SDL_DestroyRenderer(vptr->vid_renderer); vptr->vid_renderer = NULL; SDL_DestroyWindow(vptr->vid_window); vptr->vid_window = NULL; SDL_DestroyMutex (vptr->vid_draw_mutex); vptr->vid_draw_mutex = NULL; for (parent = &vid_first; parent != NULL; parent = parent->next) { if (parent->next == vptr) parent->next = vptr->next; } vid_active--; } int vid_video_events (VID_DISPLAY *vptr0) { SDL_Event event; static const char *eventtypes[SDL_LASTEVENT]; static const char *windoweventtypes[256]; static t_bool initialized = FALSE; if (!initialized) { initialized = TRUE; eventtypes[SDL_QUIT] = "QUIT"; /**< User-requested quit */ /* These application events have special meaning on iOS, see README-ios.txt for details */ eventtypes[SDL_APP_TERMINATING] = "APP_TERMINATING"; /**< The application is being terminated by the OS Called on iOS in applicationWillTerminate() Called on Android in onDestroy() */ eventtypes[SDL_APP_LOWMEMORY] = "APP_LOWMEMORY"; /**< The application is low on memory, free memory if possible. Called on iOS in applicationDidReceiveMemoryWarning() Called on Android in onLowMemory() */ eventtypes[SDL_APP_WILLENTERBACKGROUND] = "APP_WILLENTERBACKGROUND"; /**< The application is about to enter the background Called on iOS in applicationWillResignActive() Called on Android in onPause() */ eventtypes[SDL_APP_DIDENTERBACKGROUND] = "APP_DIDENTERBACKGROUND"; /**< The application did enter the background and may not get CPU for some time Called on iOS in applicationDidEnterBackground() Called on Android in onPause() */ eventtypes[SDL_APP_WILLENTERFOREGROUND] = "APP_WILLENTERFOREGROUND"; /**< The application is about to enter the foreground Called on iOS in applicationWillEnterForeground() Called on Android in onResume() */ eventtypes[SDL_APP_DIDENTERFOREGROUND] = "APP_DIDENTERFOREGROUND"; /**< The application is now interactive Called on iOS in applicationDidBecomeActive() Called on Android in onResume() */ /* Window events */ eventtypes[SDL_WINDOWEVENT] = "WINDOWEVENT"; /**< Window state change */ eventtypes[SDL_SYSWMEVENT] = "SYSWMEVENT"; /**< System specific event */ windoweventtypes[SDL_WINDOWEVENT_NONE] = "NONE"; /**< Never used */ windoweventtypes[SDL_WINDOWEVENT_SHOWN] = "SHOWN"; /**< Window has been shown */ windoweventtypes[SDL_WINDOWEVENT_HIDDEN] = "HIDDEN"; /**< Window has been hidden */ windoweventtypes[SDL_WINDOWEVENT_EXPOSED] = "EXPOSED"; /**< Window has been exposed and should be redrawn */ windoweventtypes[SDL_WINDOWEVENT_MOVED] = "MOVED"; /**< Window has been moved to data1, data2 */ windoweventtypes[SDL_WINDOWEVENT_RESIZED] = "RESIZED"; /**< Window has been resized to data1xdata2 */ windoweventtypes[SDL_WINDOWEVENT_SIZE_CHANGED] = "SIZE_CHANGED";/**< The window size has changed, either as a result of an API call or through the system or user changing the window size. */ windoweventtypes[SDL_WINDOWEVENT_MINIMIZED] = "MINIMIZED"; /**< Window has been minimized */ windoweventtypes[SDL_WINDOWEVENT_MAXIMIZED] = "MAXIMIZED"; /**< Window has been maximized */ windoweventtypes[SDL_WINDOWEVENT_RESTORED] = "RESTORED"; /**< Window has been restored to normal size and position */ windoweventtypes[SDL_WINDOWEVENT_ENTER] = "ENTER"; /**< Window has gained mouse focus */ windoweventtypes[SDL_WINDOWEVENT_LEAVE] = "LEAVE"; /**< Window has lost mouse focus */ windoweventtypes[SDL_WINDOWEVENT_FOCUS_GAINED] = "FOCUS_GAINED";/**< Window has gained keyboard focus */ windoweventtypes[SDL_WINDOWEVENT_FOCUS_LOST] = "FOCUS_LOST"; /**< Window has lost keyboard focus */ windoweventtypes[SDL_WINDOWEVENT_CLOSE] = "CLOSE"; /**< The window manager requests that the window be closed */ /* Keyboard events */ eventtypes[SDL_KEYDOWN] = "KEYDOWN"; /**< Key pressed */ eventtypes[SDL_KEYUP] = "KEYUP"; /**< Key released */ eventtypes[SDL_TEXTEDITING] = "TEXTEDITING"; /**< Keyboard text editing (composition) */ eventtypes[SDL_TEXTINPUT] = "TEXTINPUT"; /**< Keyboard text input */ /* Mouse events */ eventtypes[SDL_MOUSEMOTION] = "MOUSEMOTION"; /**< Mouse moved */ eventtypes[SDL_MOUSEBUTTONDOWN] = "MOUSEBUTTONDOWN"; /**< Mouse button pressed */ eventtypes[SDL_MOUSEBUTTONUP] = "MOUSEBUTTONUP"; /**< Mouse button released */ eventtypes[SDL_MOUSEWHEEL] = "MOUSEWHEEL"; /**< Mouse wheel motion */ /* Joystick events */ eventtypes[SDL_JOYAXISMOTION] = "JOYAXISMOTION"; /**< Joystick axis motion */ eventtypes[SDL_JOYBALLMOTION] = "JOYBALLMOTION"; /**< Joystick trackball motion */ eventtypes[SDL_JOYHATMOTION] = "JOYHATMOTION"; /**< Joystick hat position change */ eventtypes[SDL_JOYBUTTONDOWN] = "JOYBUTTONDOWN"; /**< Joystick button pressed */ eventtypes[SDL_JOYBUTTONUP] = "JOYBUTTONUP"; /**< Joystick button released */ eventtypes[SDL_JOYDEVICEADDED] = "JOYDEVICEADDED"; /**< A new joystick has been inserted into the system */ eventtypes[SDL_JOYDEVICEREMOVED] = "JOYDEVICEREMOVED"; /**< An opened joystick has been removed */ /* Game controller events */ eventtypes[SDL_CONTROLLERAXISMOTION] = "CONTROLLERAXISMOTION"; /**< Game controller axis motion */ eventtypes[SDL_CONTROLLERBUTTONDOWN] = "CONTROLLERBUTTONDOWN"; /**< Game controller button pressed */ eventtypes[SDL_CONTROLLERBUTTONUP] = "CONTROLLERBUTTONUP"; /**< Game controller button released */ eventtypes[SDL_CONTROLLERDEVICEADDED] = "CONTROLLERDEVICEADDED"; /**< A new Game controller has been inserted into the system */ eventtypes[SDL_CONTROLLERDEVICEREMOVED] = "CONTROLLERDEVICEREMOVED"; /**< An opened Game controller has been removed */ eventtypes[SDL_CONTROLLERDEVICEREMAPPED] = "CONTROLLERDEVICEREMAPPED"; /**< The controller mapping was updated */ /* Touch events */ eventtypes[SDL_FINGERDOWN] = "FINGERDOWN"; eventtypes[SDL_FINGERUP] = "FINGERUP"; eventtypes[SDL_FINGERMOTION] = "FINGERMOTION"; /* Gesture events */ eventtypes[SDL_DOLLARGESTURE] = "DOLLARGESTURE"; eventtypes[SDL_DOLLARRECORD] = "DOLLARRECORD"; eventtypes[SDL_MULTIGESTURE] = "MULTIGESTURE"; /* Clipboard events */ eventtypes[SDL_CLIPBOARDUPDATE] = "CLIPBOARDUPDATE"; /**< The clipboard changed */ /* Drag and drop events */ eventtypes[SDL_DROPFILE] = "DROPFILE"; /**< The system requests a file open */ #if (SDL_MINOR_VERSION > 0) || (SDL_PATCHLEVEL >= 3) /* Render events */ eventtypes[SDL_RENDER_TARGETS_RESET] = "RENDER_TARGETS_RESET"; /**< The render targets have been reset */ #endif #if (SDL_MINOR_VERSION > 0) || (SDL_PATCHLEVEL >= 4) /* Render events */ eventtypes[SDL_RENDER_DEVICE_RESET] = "RENDER_DEVICE_RESET"; /**< The render device has been reset */ #endif /** Events ::SDL_USEREVENT through ::SDL_LASTEVENT are for your use, * and should be allocated with SDL_RegisterEvents() */ eventtypes[SDL_USEREVENT] = "USEREVENT"; } sim_debug (SIM_VID_DBG_VIDEO|SIM_VID_DBG_KEY|SIM_VID_DBG_MOUSE, vptr0->vid_dev, "vid_thread() - Starting\n"); sim_os_set_thread_priority (PRIORITY_ABOVE_NORMAL); if (!vid_new_window (vptr0)) { return 0; } vid_beep_setup (400, 660); vid_controllers_setup (vptr0->vid_dev); vptr0->vid_ready = TRUE; sim_debug (SIM_VID_DBG_VIDEO|SIM_VID_DBG_KEY|SIM_VID_DBG_MOUSE|SIM_VID_DBG_CURSOR, vptr0->vid_dev, "vid_thread() - Started\n"); while (vid_active) { int status = SDL_WaitEvent (&event); if (status == 1) { VID_DISPLAY *vptr; switch (event.type) { case SDL_KEYDOWN: case SDL_KEYUP: vid_key (&event.key); break; case SDL_MOUSEBUTTONDOWN: case SDL_MOUSEBUTTONUP: vid_mouse_button (&event.button); break; case SDL_MOUSEMOTION: vid_mouse_move (&event.motion); break; case SDL_JOYAXISMOTION: vid_joy_motion (&event.jaxis); break; case SDL_JOYBUTTONUP: case SDL_JOYBUTTONDOWN: vid_joy_button (&event.jbutton); break; case SDL_CONTROLLERAXISMOTION: vid_controller_motion (&event.caxis); break; case SDL_CONTROLLERBUTTONUP: case SDL_CONTROLLERBUTTONDOWN: vid_controller_button (&event.cbutton); break; case SDL_WINDOWEVENT: vptr = vid_get_event_window (&event, event.window.windowID); if (vptr != NULL) { sim_debug (SIM_VID_DBG_VIDEO|SIM_VID_DBG_KEY|SIM_VID_DBG_MOUSE|SIM_VID_DBG_CURSOR, vptr->vid_dev, "vid_thread() - Window Event: %d - %s\n", event.window.event, windoweventtypes[event.window.event]); switch (event.window.event) { case SDL_WINDOWEVENT_ENTER: if (vptr->vid_flags & SIM_VID_INPUTCAPTURED) SDL_WarpMouseInWindow (NULL, vptr->vid_width/2, vptr->vid_height/2); /* center position */ break; case SDL_WINDOWEVENT_EXPOSED: vid_update (vptr); break; case SDL_WINDOWEVENT_SIZE_CHANGED: vid_update (vptr); break; default: sim_debug (SIM_VID_DBG_VIDEO, vptr->vid_dev, "Did not handle window event: %d - %s\n", event.window.event, windoweventtypes[event.window.event]); break; } } break; case SDL_USEREVENT: /* There are 11 user events generated */ /* EVENT_REDRAW to update the display */ /* EVENT_DRAW to update a region in the display texture */ /* EVENT_SHOW to display the current SDL video capabilities */ /* EVENT_CURSOR to change the current cursor */ /* EVENT_WARP to warp the cursor position */ /* EVENT_OPEN to open a new window */ /* EVENT_CLOSE to wake up this thread and let */ /* it notice vid_active has changed */ /* EVENT_SCREENSHOT to take a screenshot */ /* EVENT_BEEP to emit a beep sound */ /* EVENT_FULLSCREEN to change fullscreen */ /* EVENT_SIZE to change screen size */ /* EVENT_LOGICAL to change screen size */ while (vid_active && event.user.code) { /* Handle Beep first since it isn't a window oriented event */ if (event.user.code == EVENT_BEEP) { vid_beep_event (); event.user.code = 0; /* Mark as done */ continue; } if (event.user.code != EVENT_OPEN) { vptr = vid_get_event_window (&event, event.user.windowID); if (vptr == NULL) { sim_printf ("vid_thread() - Ignored event not bound to a window\n"); event.user.code = 0; /* Mark as done */ break; } } if (event.user.code == EVENT_REDRAW) { vid_update (vptr); event.user.code = 0; /* Mark as done */ while (SDL_PeepEvents (&event, 1, SDL_GETEVENT, SDL_USEREVENT, SDL_USEREVENT)) { if ((event.user.code == EVENT_REDRAW) && (vptr == vid_get_event_window (&event, event.user.windowID))) { /* Only do a single video update to the same window between waiting for events */ sim_debug (SIM_VID_DBG_VIDEO, vptr->vid_dev, "vid_thread() - Ignored extra REDRAW Event\n"); event.user.code = 0; /* Mark as done */ continue; } vptr = vid_get_event_window (&event, event.user.windowID); break; } } if (event.user.code == EVENT_CURSOR) { vid_update_cursor (vptr, (SDL_Cursor *)(event.user.data1), (t_bool)((size_t)event.user.data2)); event.user.data1 = NULL; event.user.code = 0; /* Mark as done */ } if (event.user.code == EVENT_WARP) { vid_warp_position (vptr); event.user.code = 0; /* Mark as done */ } if (event.user.code == EVENT_CLOSE) { vid_destroy (vptr); event.user.code = 0; /* Mark as done */ } if (event.user.code == EVENT_DRAW) { vid_draw_region (vptr, (SDL_UserEvent*)&event); event.user.code = 0; /* Mark as done */ } if (event.user.code == EVENT_SHOW) { vid_show_video_event (); event.user.code = 0; /* Mark as done */ } if (event.user.code == EVENT_SCREENSHOT) { vid_screenshot_event (); event.user.code = 0; /* Mark as done */ } if (event.user.code == EVENT_SIZE) { SDL_SetWindowSize (vptr->vid_window, vptr->vid_rect.w, vptr->vid_rect.h); event.user.code = 0; /* Mark as done */ } if (event.user.code == EVENT_LOGICAL) { SDL_RenderSetLogicalSize (vptr->vid_renderer, vptr->vid_rect.w, vptr->vid_rect.h); event.user.code = 0; /* Mark as done */ } if (event.user.code == EVENT_FULLSCREEN) { if (event.user.data1 != NULL) SDL_SetWindowFullscreen (vptr->vid_window, SDL_WINDOW_FULLSCREEN_DESKTOP); else SDL_SetWindowFullscreen (vptr->vid_window, 0); event.user.code = 0; /* Mark as done */ } if (event.user.code == EVENT_BEEP) { vid_beep_event (); event.user.code = 0; /* Mark as done */ } if (event.user.code == EVENT_OPEN) { VID_DISPLAY *vptr = (VID_DISPLAY *)event.user.data1; vid_new_window (vptr); vptr->vid_ready = TRUE; event.user.code = 0; /* Mark as done */ } if (event.user.code != 0) { sim_printf ("vid_thread(): Unexpected user event code: %d\n", event.user.code); } } break; case SDL_QUIT: sim_debug (SIM_VID_DBG_VIDEO|SIM_VID_DBG_KEY|SIM_VID_DBG_MOUSE|SIM_VID_DBG_CURSOR, vptr0->vid_dev, "vid_thread() - QUIT Event - %s\n", vid_quit_callback ? "Signaled" : "Ignored"); if (vid_quit_callback) vid_quit_callback (); break; default: sim_debug (SIM_VID_DBG_VIDEO|SIM_VID_DBG_KEY|SIM_VID_DBG_MOUSE|SIM_VID_DBG_CURSOR, vptr0->vid_dev, "vid_thread() - Ignored Event: Type: %s(%d)\n", eventtypes[event.type], event.type); break; } } else { if (status < 0) sim_printf ("%s: vid_thread() - SDL_WaitEvent error: %s\n", vid_dname(vptr0->vid_dev), SDL_GetError()); } } vid_controllers_cleanup (); vid_beep_cleanup (); sim_debug (SIM_VID_DBG_VIDEO|SIM_VID_DBG_KEY|SIM_VID_DBG_MOUSE|SIM_VID_DBG_CURSOR, vptr0->vid_dev, "vid_thread() - Exiting\n"); return 0; } int vid_thread (void *arg) { VID_DISPLAY *vptr = (VID_DISPLAY *)arg; int stat; SDL_SetHint (SDL_HINT_RENDER_DRIVER, "software"); #if defined (SDL_HINT_VIDEO_ALLOW_SCREENSAVER) /* If this hint is defined, the default is to disable the screen saver. We want to leave the screen saver enabled. */ SDL_SetHint (SDL_HINT_VIDEO_ALLOW_SCREENSAVER, "1"); #endif stat = SDL_Init (SDL_INIT_VIDEO); if (stat) { sim_printf ("SDL Video subsystem can't initialize\n"); return 0; } vid_video_events (vptr); SDL_Quit (); return 0; } const char *vid_version(void) { static char SDLVersion[160]; SDL_version compiled = { 0, }, running = { 0, }; SDL_GetVersion(&running); SDL_VERSION(&compiled); SDLVersion[sizeof (SDLVersion) - 1] = '\0'; if ((compiled.major == running.major) && (compiled.minor == running.minor) && (compiled.patch == running.patch)) snprintf(SDLVersion, sizeof (SDLVersion) - 1, "SDL Version %d.%d.%d", compiled.major, compiled.minor, compiled.patch); else snprintf(SDLVersion, sizeof (SDLVersion) - 1, "SDL Version (Compiled: %d.%d.%d, Runtime: %d.%d.%d)", compiled.major, compiled.minor, compiled.patch, running.major, running.minor, running.patch); #if defined (HAVE_LIBPNG) if (1) { png_structp png = png_create_read_struct(PNG_LIBPNG_VER_STRING, NULL, NULL, NULL); if (strcmp (PNG_LIBPNG_VER_STRING, png_get_libpng_ver (png))) snprintf(&SDLVersion[strlen (SDLVersion)], sizeof (SDLVersion) - (strlen (SDLVersion) + 1), ", PNG Version (Compiled: %s, Runtime: %s)", PNG_LIBPNG_VER_STRING, png_get_libpng_ver (png)); else snprintf(&SDLVersion[strlen (SDLVersion)], sizeof (SDLVersion) - (strlen (SDLVersion) + 1), ", PNG Version %s", PNG_LIBPNG_VER_STRING); png_destroy_read_struct(&png, NULL, NULL); #if defined (ZLIB_VERSION) if (strcmp (ZLIB_VERSION, zlibVersion ())) snprintf(&SDLVersion[strlen (SDLVersion)], sizeof (SDLVersion) - (strlen (SDLVersion) + 1), ", zlib: (Compiled: %s, Runtime: %s)", ZLIB_VERSION, zlibVersion ()); else snprintf(&SDLVersion[strlen (SDLVersion)], sizeof (SDLVersion) - (strlen (SDLVersion) + 1), ", zlib: %s", ZLIB_VERSION); #endif } #endif return (const char *)SDLVersion; } t_stat vid_set_release_key (FILE* st, UNIT* uptr, int32 val, CONST void* desc) { return SCPE_NOFNC; } t_stat vid_show_release_key (FILE* st, UNIT* uptr, int32 val, CONST void* desc) { VID_DISPLAY *vptr; for (vptr = &vid_first; vptr != NULL; vptr = vptr->next) { if (vptr->vid_flags & SIM_VID_INPUTCAPTURED) { fprintf (st, "ReleaseKey=%s", vid_release_key); return SCPE_OK; } } return SCPE_OK; } static t_stat _vid_show_video (FILE* st, UNIT* uptr, int32 val, CONST void* desc) { int i; VID_DISPLAY *vptr; fprintf (st, "Video support using SDL: %s\n", vid_version()); #if defined (SDL_MAIN_AVAILABLE) fprintf (st, " SDL Events being processed on the main process thread\n"); #endif if (!vid_active) { #if !defined (SDL_MAIN_AVAILABLE) int stat = SDL_Init(SDL_INIT_VIDEO); if (stat) return sim_messagef (SCPE_OPENERR, "SDL_Init() failed. Video subsystem is unavailable.\n"); #endif } else { for (vptr = &vid_first; vptr != NULL; vptr = vptr->next) { if (!vptr->vid_active_window) continue; fprintf (st, " Currently Active Video Window: (%d by %d pixels)\n", vptr->vid_width, vptr->vid_height); fprintf (st, " "); vid_show_release_key (st, uptr, val, desc); } fprintf (st, "\n"); fprintf (st, " SDL Video Driver: %s\n", SDL_GetCurrentVideoDriver()); } for (i = 0; i < SDL_GetNumVideoDisplays(); ++i) { SDL_DisplayMode display; if (SDL_GetCurrentDisplayMode(i, &display)) { fprintf (st, "Could not get display mode for video display #%d: %s", i, SDL_GetError()); } else { fprintf (st, " Display %s(#%d): current display mode is %dx%dpx @ %dhz. \n", SDL_GetDisplayName(i), i, display.w, display.h, display.refresh_rate); } } fprintf (st, " Available SDL Renderers:\n"); for (i = 0; i < SDL_GetNumRenderDrivers(); ++i) { SDL_RendererInfo info; if (SDL_GetRenderDriverInfo (i, &info)) { fprintf (st, "Could not get render driver info for driver #%d: %s", i, SDL_GetError()); } else { uint32 j, k; static struct {uint32 format; const char *name;} PixelFormats[] = { {SDL_PIXELFORMAT_INDEX1LSB, "Index1LSB"}, {SDL_PIXELFORMAT_INDEX1MSB, "Index1MSB"}, {SDL_PIXELFORMAT_INDEX4LSB, "Index4LSB"}, {SDL_PIXELFORMAT_INDEX4MSB, "Index4MSB"}, {SDL_PIXELFORMAT_INDEX8, "Index8"}, {SDL_PIXELFORMAT_RGB332, "RGB332"}, {SDL_PIXELFORMAT_RGB444, "RGB444"}, {SDL_PIXELFORMAT_RGB555, "RGB555"}, {SDL_PIXELFORMAT_BGR555, "BGR555"}, {SDL_PIXELFORMAT_ARGB4444, "ARGB4444"}, {SDL_PIXELFORMAT_RGBA4444, "RGBA4444"}, {SDL_PIXELFORMAT_ABGR4444, "ABGR4444"}, {SDL_PIXELFORMAT_BGRA4444, "BGRA4444"}, {SDL_PIXELFORMAT_ARGB1555, "ARGB1555"}, {SDL_PIXELFORMAT_RGBA5551, "RGBA5551"}, {SDL_PIXELFORMAT_ABGR1555, "ABGR1555"}, {SDL_PIXELFORMAT_BGRA5551, "BGRA5551"}, {SDL_PIXELFORMAT_RGB565, "RGB565"}, {SDL_PIXELFORMAT_BGR565, "BGR565"}, {SDL_PIXELFORMAT_RGB24, "RGB24"}, {SDL_PIXELFORMAT_BGR24, "BGR24"}, {SDL_PIXELFORMAT_RGB888, "RGB888"}, {SDL_PIXELFORMAT_RGBX8888, "RGBX8888"}, {SDL_PIXELFORMAT_BGR888, "BGR888"}, {SDL_PIXELFORMAT_BGRX8888, "BGRX8888"}, {SDL_PIXELFORMAT_ARGB8888, "ARGB8888"}, {SDL_PIXELFORMAT_RGBA8888, "RGBA8888"}, {SDL_PIXELFORMAT_ABGR8888, "ABGR8888"}, {SDL_PIXELFORMAT_BGRA8888, "BGRA8888"}, {SDL_PIXELFORMAT_ARGB2101010, "ARGB2101010"}, {SDL_PIXELFORMAT_YV12, "YV12"}, {SDL_PIXELFORMAT_IYUV, "IYUV"}, {SDL_PIXELFORMAT_YUY2, "YUY2"}, {SDL_PIXELFORMAT_UYVY, "UYVY"}, {SDL_PIXELFORMAT_YVYU, "YVYU"}, {SDL_PIXELFORMAT_UNKNOWN, "Unknown"}}; fprintf (st, " Render #%d - %s\n", i, info.name); fprintf (st, " Flags: 0x%X - ", info.flags); if (info.flags & SDL_RENDERER_SOFTWARE) fprintf (st, "Software|"); if (info.flags & SDL_RENDERER_ACCELERATED) fprintf (st, "Accelerated|"); if (info.flags & SDL_RENDERER_PRESENTVSYNC) fprintf (st, "PresentVSync|"); if (info.flags & SDL_RENDERER_TARGETTEXTURE) fprintf (st, "TargetTexture|"); fprintf (st, "\n"); if ((info.max_texture_height != 0) || (info.max_texture_width != 0)) fprintf (st, " Max Texture: %d by %d\n", info.max_texture_height, info.max_texture_width); fprintf (st, " Pixel Formats:\n"); for (j=0; jnext) { if (vptr->vid_active_window) { SDL_GetRendererInfo (vptr->vid_renderer, &info); break; } } fprintf (st, " Currently Active Renderer: %s\n", info.name); } if (1) { static const char *hints[] = { #if defined (SDL_HINT_FRAMEBUFFER_ACCELERATION) SDL_HINT_FRAMEBUFFER_ACCELERATION , #endif #if defined (SDL_HINT_RENDER_DRIVER) SDL_HINT_RENDER_DRIVER , #endif #if defined (SDL_HINT_RENDER_OPENGL_SHADERS) SDL_HINT_RENDER_OPENGL_SHADERS , #endif #if defined (SDL_HINT_RENDER_DIRECT3D_THREADSAFE) SDL_HINT_RENDER_DIRECT3D_THREADSAFE , #endif #if defined (SDL_HINT_RENDER_DIRECT3D11_DEBUG) SDL_HINT_RENDER_DIRECT3D11_DEBUG , #endif #if defined (SDL_HINT_RENDER_SCALE_QUALITY) SDL_HINT_RENDER_SCALE_QUALITY , #endif #if defined (SDL_HINT_RENDER_VSYNC) SDL_HINT_RENDER_VSYNC , #endif #if defined (SDL_HINT_VIDEO_ALLOW_SCREENSAVER) SDL_HINT_VIDEO_ALLOW_SCREENSAVER , #endif #if defined (SDL_HINT_VIDEO_X11_XVIDMODE) SDL_HINT_VIDEO_X11_XVIDMODE , #endif #if defined (SDL_HINT_VIDEO_X11_XINERAMA) SDL_HINT_VIDEO_X11_XINERAMA , #endif #if defined (SDL_HINT_VIDEO_X11_XRANDR) SDL_HINT_VIDEO_X11_XRANDR , #endif #if defined (SDL_HINT_GRAB_KEYBOARD) SDL_HINT_GRAB_KEYBOARD , #endif #if defined (SDL_HINT_MOUSE_RELATIVE_MODE_WARP) SDL_HINT_MOUSE_RELATIVE_MODE_WARP , #endif #if defined (SDL_HINT_VIDEO_MINIMIZE_ON_FOCUS_LOSS) SDL_HINT_VIDEO_MINIMIZE_ON_FOCUS_LOSS , #endif #if defined (SDL_HINT_IDLE_TIMER_DISABLED) SDL_HINT_IDLE_TIMER_DISABLED , #endif #if defined (SDL_HINT_ORIENTATIONS) SDL_HINT_ORIENTATIONS , #endif #if defined (SDL_HINT_ACCELEROMETER_AS_JOYSTICK) SDL_HINT_ACCELEROMETER_AS_JOYSTICK , #endif #if defined (SDL_HINT_XINPUT_ENABLED) SDL_HINT_XINPUT_ENABLED , #endif #if defined (SDL_HINT_GAMECONTROLLERCONFIG) SDL_HINT_GAMECONTROLLERCONFIG , #endif #if defined (SDL_HINT_JOYSTICK_ALLOW_BACKGROUND_EVENTS) SDL_HINT_JOYSTICK_ALLOW_BACKGROUND_EVENTS , #endif #if defined (SDL_HINT_ALLOW_TOPMOST) SDL_HINT_ALLOW_TOPMOST , #endif #if defined (SDL_HINT_TIMER_RESOLUTION) SDL_HINT_TIMER_RESOLUTION , #endif #if defined (SDL_HINT_VIDEO_HIGHDPI_DISABLED) SDL_HINT_VIDEO_HIGHDPI_DISABLED , #endif #if defined (SDL_HINT_MAC_CTRL_CLICK_EMULATE_RIGHT_CLICK) SDL_HINT_MAC_CTRL_CLICK_EMULATE_RIGHT_CLICK , #endif #if defined (SDL_HINT_VIDEO_WIN_D3DCOMPILER) SDL_HINT_VIDEO_WIN_D3DCOMPILER , #endif #if defined (SDL_HINT_VIDEO_WINDOW_SHARE_PIXEL_FORMAT) SDL_HINT_VIDEO_WINDOW_SHARE_PIXEL_FORMAT , #endif #if defined (SDL_HINT_WINRT_PRIVACY_POLICY_URL) SDL_HINT_WINRT_PRIVACY_POLICY_URL , #endif #if defined (SDL_HINT_WINRT_PRIVACY_POLICY_LABEL) SDL_HINT_WINRT_PRIVACY_POLICY_LABEL , #endif #if defined (SDL_HINT_WINRT_HANDLE_BACK_BUTTON) SDL_HINT_WINRT_HANDLE_BACK_BUTTON , #endif #if defined (SDL_HINT_VIDEO_MAC_FULLSCREEN_SPACES) SDL_HINT_VIDEO_MAC_FULLSCREEN_SPACES, #endif NULL}; fprintf (st, " Currently Active SDL Hints:\n"); for (i=0; hints[i]; i++) { if (SDL_GetHint (hints[i])) fprintf (st, " %s = %s\n", hints[i], SDL_GetHint (hints[i])); } } #if !defined (SDL_MAIN_AVAILABLE) if (!vid_active) SDL_Quit(); #endif return SCPE_OK; } static t_stat _show_stat; static FILE *_show_st; static UNIT *_show_uptr; static int32 _show_val; static CONST void *_show_desc; void vid_show_video_event (void) { _show_stat = _vid_show_video (_show_st, _show_uptr, _show_val, _show_desc); } t_stat vid_show_video (FILE* st, UNIT* uptr, int32 val, CONST void* desc) { SDL_Event user_event; _show_stat = -1; _show_st = st; _show_uptr = uptr; _show_val = val; _show_desc = desc; user_event.type = SDL_USEREVENT; user_event.user.code = EVENT_SHOW; user_event.user.data1 = NULL; user_event.user.data2 = NULL; #if defined (SDL_MAIN_AVAILABLE) while (SDL_PushEvent (&user_event) < 0) sim_os_ms_sleep (10); #else vid_show_video_event (); #endif while (_show_stat == -1) SDL_Delay (20); return _show_stat; } static t_stat _vid_screenshot (VID_DISPLAY *vptr, const char *filename) { int stat; char *fullname = NULL; if (!vid_active) { sim_printf ("No video display is active\n"); return SCPE_UDIS | SCPE_NOMESSAGE; } fullname = (char *)malloc (strlen(filename) + 5); if (!fullname) return SCPE_MEM; if (1) { SDL_Surface *sshot = sim_end ? SDL_CreateRGBSurface(0, vptr->vid_width, vptr->vid_height, 32, 0x00ff0000, 0x0000ff00, 0x000000ff, 0xff000000) : SDL_CreateRGBSurface(0, vptr->vid_width, vptr->vid_height, 32, 0x0000ff00, 0x000ff000, 0xff000000, 0x000000ff) ; SDL_RenderReadPixels(vptr->vid_renderer, NULL, SDL_PIXELFORMAT_ARGB8888, sshot->pixels, sshot->pitch); #if defined(HAVE_LIBPNG) if (!match_ext (filename, "bmp")) { sprintf (fullname, "%s%s", filename, match_ext (filename, "png") ? "" : ".png"); stat = SDL_SavePNG(sshot, fullname); } else { sprintf (fullname, "%s", filename); stat = SDL_SaveBMP(sshot, fullname); } #else sprintf (fullname, "%s%s", filename, match_ext (filename, "bmp") ? "" : ".bmp"); stat = SDL_SaveBMP(sshot, fullname); #endif /* defined(HAVE_LIBPNG) */ SDL_FreeSurface(sshot); } if (stat) { sim_printf ("Error saving screenshot to %s: %s\n", fullname, SDL_GetError()); free (fullname); return SCPE_IOERR | SCPE_NOMESSAGE; } else { if (!sim_quiet) sim_printf ("Screenshot saved to %s\n", fullname); free (fullname); return SCPE_OK; } } static t_stat _screenshot_stat; static const char *_screenshot_filename; void vid_screenshot_event (void) { VID_DISPLAY *vptr; int i = 0, n; char *name = (char *)malloc (strlen (_screenshot_filename) + 5); char *extension = strrchr ((char *)_screenshot_filename, '.'); if (name == NULL) { _screenshot_stat = SCPE_NXM; return; } if (extension) n = extension - _screenshot_filename; else { n = strlen (_screenshot_filename); extension = (char *)""; } strncpy (name, _screenshot_filename, n); for (vptr = &vid_first; vptr != NULL; vptr = vptr->next) { if (vid_active > 1) sprintf (name + n, "%d%s", i++, extension); else sprintf (name + n, "%s", extension); _screenshot_stat = _vid_screenshot (vptr, name); if (_screenshot_stat != SCPE_OK) { free (name); return; } } free (name); } t_stat vid_screenshot (const char *filename) { SDL_Event user_event; _screenshot_stat = -1; _screenshot_filename = filename; user_event.type = SDL_USEREVENT; user_event.user.code = EVENT_SCREENSHOT; user_event.user.data1 = NULL; user_event.user.data2 = NULL; #if defined (SDL_MAIN_AVAILABLE) while (SDL_PushEvent (&user_event) < 0) sim_os_ms_sleep (10); #else vid_screenshot_event (); #endif while (_screenshot_stat == -1) SDL_Delay (20); return _screenshot_stat; } #include #include const int AMPLITUDE = 20000; const int SAMPLE_FREQUENCY = 11025; static int16 *vid_beep_data; static int vid_beep_offset; static int vid_beep_duration; static int vid_beep_samples; static void vid_audio_callback(void *ctx, Uint8 *stream, int length) { int i, sum, remnant = ((vid_beep_samples - vid_beep_offset) * sizeof (*vid_beep_data)); if (length > remnant) { memset (stream + remnant, 0, length - remnant); length = remnant; if (remnant == 0) { SDL_PauseAudio(1); return; } } memcpy (stream, &vid_beep_data[vid_beep_offset], length); for (i=sum=0; i