ref: 7b95fbbff4196c7e05249af6e92ac7ae9de0c5df
dir: /textscreen/txt_sdl.c/
// // Copyright(C) 2005-2014 Simon Howard // // This program is free software; you can redistribute it and/or // modify it under the terms of the GNU General Public License // as published by the Free Software Foundation; either version 2 // of the License, or (at your option) any later version. // // This program is distributed in the hope that it will be useful, // but WITHOUT ANY WARRANTY; without even the implied warranty of // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the // GNU General Public License for more details. // // // Text mode emulation in SDL // #include "SDL.h" #include <ctype.h> #include <stdio.h> #include <stdlib.h> #include <string.h> #include "doomkeys.h" #include "txt_main.h" #include "txt_sdl.h" #if defined(_MSC_VER) && !defined(__cplusplus) #define inline __inline #endif typedef struct { unsigned char *data; unsigned int w; unsigned int h; } txt_font_t; // Fonts: #include "txt_font.h" #include "txt_largefont.h" #include "txt_smallfont.h" // Time between character blinks in ms #define BLINK_PERIOD 250 static SDL_Surface *screen; static SDL_Surface *screenbuffer; static unsigned char *screendata; static int key_mapping = 1; static TxtSDLEventCallbackFunc event_callback; static void *event_callback_data; static int modifier_state[TXT_NUM_MODIFIERS]; // Font we are using: static txt_font_t *font; //#define TANGO #ifndef TANGO static SDL_Color ega_colors[] = { {0x00, 0x00, 0x00, 0x00}, // 0: Black {0x00, 0x00, 0xa8, 0x00}, // 1: Blue {0x00, 0xa8, 0x00, 0x00}, // 2: Green {0x00, 0xa8, 0xa8, 0x00}, // 3: Cyan {0xa8, 0x00, 0x00, 0x00}, // 4: Red {0xa8, 0x00, 0xa8, 0x00}, // 5: Magenta {0xa8, 0x54, 0x00, 0x00}, // 6: Brown {0xa8, 0xa8, 0xa8, 0x00}, // 7: Grey {0x54, 0x54, 0x54, 0x00}, // 8: Dark grey {0x54, 0x54, 0xfe, 0x00}, // 9: Bright blue {0x54, 0xfe, 0x54, 0x00}, // 10: Bright green {0x54, 0xfe, 0xfe, 0x00}, // 11: Bright cyan {0xfe, 0x54, 0x54, 0x00}, // 12: Bright red {0xfe, 0x54, 0xfe, 0x00}, // 13: Bright magenta {0xfe, 0xfe, 0x54, 0x00}, // 14: Yellow {0xfe, 0xfe, 0xfe, 0x00}, // 15: Bright white }; #else // Colors that fit the Tango desktop guidelines: see // http://tango.freedesktop.org/ also // http://uwstopia.nl/blog/2006/07/tango-terminal static SDL_Color ega_colors[] = { {0x2e, 0x34, 0x36, 0x00}, // 0: Black {0x34, 0x65, 0xa4, 0x00}, // 1: Blue {0x4e, 0x9a, 0x06, 0x00}, // 2: Green {0x06, 0x98, 0x9a, 0x00}, // 3: Cyan {0xcc, 0x00, 0x00, 0x00}, // 4: Red {0x75, 0x50, 0x7b, 0x00}, // 5: Magenta {0xc4, 0xa0, 0x00, 0x00}, // 6: Brown {0xd3, 0xd7, 0xcf, 0x00}, // 7: Grey {0x55, 0x57, 0x53, 0x00}, // 8: Dark grey {0x72, 0x9f, 0xcf, 0x00}, // 9: Bright blue {0x8a, 0xe2, 0x34, 0x00}, // 10: Bright green {0x34, 0xe2, 0xe2, 0x00}, // 11: Bright cyan {0xef, 0x29, 0x29, 0x00}, // 12: Bright red {0x34, 0xe2, 0xe2, 0x00}, // 13: Bright magenta {0xfc, 0xe9, 0x4f, 0x00}, // 14: Yellow {0xee, 0xee, 0xec, 0x00}, // 15: Bright white }; #endif #ifdef _WIN32 #define WIN32_LEAN_AND_MEAN #include <windows.h> // Examine system DPI settings to determine whether to use the large font. static int Win32_UseLargeFont(void) { HDC hdc = GetDC(NULL); int dpix; if (!hdc) { return 0; } dpix = GetDeviceCaps(hdc, LOGPIXELSX); ReleaseDC(NULL, hdc); // 144 is the DPI when using "150%" scaling. If the user has this set // then consider this an appropriate threshold for using the large font. return dpix >= 144; } #endif static txt_font_t *FontForName(char *name) { if (!strcmp(name, "small")) { return &small_font; } else if (!strcmp(name, "normal")) { return &main_font; } else if (!strcmp(name, "large")) { return &large_font; } else { return NULL; } } // // Select the font to use, based on screen resolution // // If the highest screen resolution available is less than // 640x480, use the small font. // static void ChooseFont(void) { const SDL_VideoInfo *info; char *env; // Allow normal selection to be overridden from an environment variable: env = getenv("TEXTSCREEN_FONT"); if (env != NULL) { font = FontForName(env); if (font != NULL) { return; } } // Get desktop resolution: info = SDL_GetVideoInfo(); // If in doubt and we can't get a list, always prefer to // fall back to the normal font: if (info == NULL) { font = &main_font; return; } // On tiny low-res screens (eg. palmtops) use the small font. // If the screen resolution is at least 1920x1080, this is // a modern high-resolution display, and we can use the // large font. if (info->current_w < 640 || info->current_h < 480) { font = &small_font; } #ifdef _WIN32 // On Windows we can use the system DPI settings to make a // more educated guess about whether to use the large font. else if (Win32_UseLargeFont()) { font = &large_font; } #endif // TODO: Detect high DPI on Linux by inquiring about Gtk+ scale // settings. This looks like it should just be a case of shelling // out to invoke the 'gsettings' command, eg. // gsettings get org.gnome.desktop.interface text-scaling-factor // and using large_font if the result is >= 2. else { font = &main_font; } } // // Initialize text mode screen // // Returns 1 if successful, 0 if an error occurred // int TXT_Init(void) { if (SDL_InitSubSystem(SDL_INIT_VIDEO) < 0) { return 0; } ChooseFont(); // Always create the screen at the native screen depth (bpp=0); // some systems nowadays don't seem to support true 8-bit palettized // screen modes very well and we end up with screwed up colors. screen = SDL_SetVideoMode(TXT_SCREEN_W * font->w, TXT_SCREEN_H * font->h, 0, 0); if (screen == NULL) return 0; // Instead, we draw everything into an intermediate 8-bit surface // the same dimensions as the screen. SDL then takes care of all the // 8->32 bit (or whatever depth) color conversions for us. screenbuffer = SDL_CreateRGBSurface(0, TXT_SCREEN_W * font->w, TXT_SCREEN_H * font->h, 8, 0, 0, 0, 0); SDL_SetColors(screenbuffer, ega_colors, 0, 16); SDL_EnableUNICODE(1); screendata = malloc(TXT_SCREEN_W * TXT_SCREEN_H * 2); memset(screendata, 0, TXT_SCREEN_W * TXT_SCREEN_H * 2); // Ignore all mouse motion events // SDL_EventState(SDL_MOUSEMOTION, SDL_IGNORE); // Repeat key presses so we can hold down arrows to scroll down the // menu, for example. This is what setup.exe does. SDL_EnableKeyRepeat(SDL_DEFAULT_REPEAT_DELAY, SDL_DEFAULT_REPEAT_INTERVAL); return 1; } void TXT_Shutdown(void) { free(screendata); screendata = NULL; SDL_FreeSurface(screenbuffer); screenbuffer = NULL; SDL_QuitSubSystem(SDL_INIT_VIDEO); } unsigned char *TXT_GetScreenData(void) { return screendata; } static inline void UpdateCharacter(int x, int y) { unsigned char character; unsigned char *p; unsigned char *s, *s1; unsigned int bit, bytes; int bg, fg; unsigned int x1, y1; p = &screendata[(y * TXT_SCREEN_W + x) * 2]; character = p[0]; fg = p[1] & 0xf; bg = (p[1] >> 4) & 0xf; if (bg & 0x8) { // blinking bg &= ~0x8; if (((SDL_GetTicks() / BLINK_PERIOD) % 2) == 0) { fg = bg; } } // How many bytes per line? bytes = (font->w + 7) / 8; p = &font->data[character * font->h * bytes]; s = ((unsigned char *) screenbuffer->pixels) + (y * font->h * screenbuffer->pitch) + (x * font->w); for (y1=0; y1<font->h; ++y1) { s1 = s; bit = 0; for (x1=0; x1<font->w; ++x1) { if (*p & (1 << (7-bit))) { *s1++ = fg; } else { *s1++ = bg; } ++bit; if (bit == 8) { ++p; bit = 0; } } if (bit != 0) { ++p; } s += screenbuffer->pitch; } } static int LimitToRange(int val, int min, int max) { if (val < min) { return min; } else if (val > max) { return max; } else { return val; } } void TXT_UpdateScreenArea(int x, int y, int w, int h) { SDL_Rect rect; int x1, y1; int x_end; int y_end; x_end = LimitToRange(x + w, 0, TXT_SCREEN_W); y_end = LimitToRange(y + h, 0, TXT_SCREEN_H); x = LimitToRange(x, 0, TXT_SCREEN_W); y = LimitToRange(y, 0, TXT_SCREEN_H); for (y1=y; y1<y_end; ++y1) { for (x1=x; x1<x_end; ++x1) { UpdateCharacter(x1, y1); } } rect.x = x * font->w; rect.y = y * font->h; rect.w = (x_end - x) * font->w; rect.h = (y_end - y) * font->h; SDL_BlitSurface(screenbuffer, &rect, screen, &rect); SDL_UpdateRects(screen, 1, &rect); } void TXT_UpdateScreen(void) { TXT_UpdateScreenArea(0, 0, TXT_SCREEN_W, TXT_SCREEN_H); } void TXT_GetMousePosition(int *x, int *y) { SDL_GetMouseState(x, y); *x /= font->w; *y /= font->h; } // // Translates the SDL key // static int TranslateKey(SDL_keysym *sym) { switch(sym->sym) { case SDLK_LEFT: return KEY_LEFTARROW; case SDLK_RIGHT: return KEY_RIGHTARROW; case SDLK_DOWN: return KEY_DOWNARROW; case SDLK_UP: return KEY_UPARROW; case SDLK_ESCAPE: return KEY_ESCAPE; case SDLK_RETURN: return KEY_ENTER; case SDLK_TAB: return KEY_TAB; case SDLK_F1: return KEY_F1; case SDLK_F2: return KEY_F2; case SDLK_F3: return KEY_F3; case SDLK_F4: return KEY_F4; case SDLK_F5: return KEY_F5; case SDLK_F6: return KEY_F6; case SDLK_F7: return KEY_F7; case SDLK_F8: return KEY_F8; case SDLK_F9: return KEY_F9; case SDLK_F10: return KEY_F10; case SDLK_F11: return KEY_F11; case SDLK_F12: return KEY_F12; case SDLK_PRINT: return KEY_PRTSCR; case SDLK_BACKSPACE: return KEY_BACKSPACE; case SDLK_DELETE: return KEY_DEL; case SDLK_PAUSE: return KEY_PAUSE; case SDLK_LSHIFT: case SDLK_RSHIFT: return KEY_RSHIFT; case SDLK_LCTRL: case SDLK_RCTRL: return KEY_RCTRL; case SDLK_LALT: case SDLK_RALT: case SDLK_LMETA: case SDLK_RMETA: return KEY_RALT; case SDLK_CAPSLOCK: return KEY_CAPSLOCK; case SDLK_SCROLLOCK: return KEY_SCRLCK; case SDLK_HOME: return KEY_HOME; case SDLK_INSERT: return KEY_INS; case SDLK_END: return KEY_END; case SDLK_PAGEUP: return KEY_PGUP; case SDLK_PAGEDOWN: return KEY_PGDN; #ifdef SDL_HAVE_APP_KEYS case SDLK_APP1: return KEY_F1; case SDLK_APP2: return KEY_F2; case SDLK_APP3: return KEY_F3; case SDLK_APP4: return KEY_F4; case SDLK_APP5: return KEY_F5; case SDLK_APP6: return KEY_F6; #endif default: break; } // Returned value is different, depending on whether key mapping is // enabled. Key mapping is preferable most of the time, for typing // in text, etc. However, when we want to read raw keyboard codes // for the setup keyboard configuration dialog, we want the raw // key code. if (key_mapping) { // Unicode characters beyond the ASCII range need to be // mapped up into textscreen's Unicode range. if (sym->unicode < 128) { return sym->unicode; } else { return sym->unicode - 128 + TXT_UNICODE_BASE; } } else { // Keypad mapping is only done when we want a raw value: // most of the time, the keypad should behave as it normally // does. switch (sym->sym) { case SDLK_KP0: return KEYP_0; case SDLK_KP1: return KEYP_1; case SDLK_KP2: return KEYP_2; case SDLK_KP3: return KEYP_3; case SDLK_KP4: return KEYP_4; case SDLK_KP5: return KEYP_5; case SDLK_KP6: return KEYP_6; case SDLK_KP7: return KEYP_7; case SDLK_KP8: return KEYP_8; case SDLK_KP9: return KEYP_9; case SDLK_KP_PERIOD: return KEYP_PERIOD; case SDLK_KP_MULTIPLY: return KEYP_MULTIPLY; case SDLK_KP_PLUS: return KEYP_PLUS; case SDLK_KP_MINUS: return KEYP_MINUS; case SDLK_KP_DIVIDE: return KEYP_DIVIDE; case SDLK_KP_EQUALS: return KEYP_EQUALS; case SDLK_KP_ENTER: return KEYP_ENTER; default: return tolower(sym->sym); } } } // Convert an SDL button index to textscreen button index. // // Note special cases because 2 == mid in SDL, 3 == mid in textscreen/setup static int SDLButtonToTXTButton(int button) { switch (button) { case SDL_BUTTON_LEFT: return TXT_MOUSE_LEFT; case SDL_BUTTON_RIGHT: return TXT_MOUSE_RIGHT; case SDL_BUTTON_MIDDLE: return TXT_MOUSE_MIDDLE; default: return TXT_MOUSE_BASE + button - 1; } } static int MouseHasMoved(void) { static int last_x = 0, last_y = 0; int x, y; TXT_GetMousePosition(&x, &y); if (x != last_x || y != last_y) { last_x = x; last_y = y; return 1; } else { return 0; } } // Examine a key press/release and update the modifier key state // if necessary. static void UpdateModifierState(SDL_keysym *sym, int pressed) { txt_modifier_t mod; switch (sym->sym) { case SDLK_LSHIFT: case SDLK_RSHIFT: mod = TXT_MOD_SHIFT; break; case SDLK_LCTRL: case SDLK_RCTRL: mod = TXT_MOD_CTRL; break; case SDLK_LALT: case SDLK_RALT: case SDLK_LMETA: case SDLK_RMETA: mod = TXT_MOD_ALT; break; default: return; } if (pressed) { ++modifier_state[mod]; } else { --modifier_state[mod]; } } signed int TXT_GetChar(void) { SDL_Event ev; while (SDL_PollEvent(&ev)) { // If there is an event callback, allow it to intercept this // event. if (event_callback != NULL) { if (event_callback(&ev, event_callback_data)) { continue; } } // Process the event. switch (ev.type) { case SDL_MOUSEBUTTONDOWN: if (ev.button.button < TXT_MAX_MOUSE_BUTTONS) { return SDLButtonToTXTButton(ev.button.button); } break; case SDL_KEYDOWN: UpdateModifierState(&ev.key.keysym, 1); return TranslateKey(&ev.key.keysym); case SDL_KEYUP: UpdateModifierState(&ev.key.keysym, 0); break; case SDL_QUIT: // Quit = escape return 27; case SDL_MOUSEMOTION: if (MouseHasMoved()) { return 0; } default: break; } } return -1; } int TXT_GetModifierState(txt_modifier_t mod) { if (mod < TXT_NUM_MODIFIERS) { return modifier_state[mod] > 0; } return 0; } static const char *SpecialKeyName(int key) { switch (key) { case ' ': return "SPACE"; case KEY_RIGHTARROW: return "RIGHT"; case KEY_LEFTARROW: return "LEFT"; case KEY_UPARROW: return "UP"; case KEY_DOWNARROW: return "DOWN"; case KEY_ESCAPE: return "ESC"; case KEY_ENTER: return "ENTER"; case KEY_TAB: return "TAB"; case KEY_F1: return "F1"; case KEY_F2: return "F2"; case KEY_F3: return "F3"; case KEY_F4: return "F4"; case KEY_F5: return "F5"; case KEY_F6: return "F6"; case KEY_F7: return "F7"; case KEY_F8: return "F8"; case KEY_F9: return "F9"; case KEY_F10: return "F10"; case KEY_F11: return "F11"; case KEY_F12: return "F12"; case KEY_BACKSPACE: return "BKSP"; case KEY_PAUSE: return "PAUSE"; case KEY_EQUALS: return "EQUALS"; case KEY_MINUS: return "MINUS"; case KEY_RSHIFT: return "SHIFT"; case KEY_RCTRL: return "CTRL"; case KEY_RALT: return "ALT"; case KEY_CAPSLOCK: return "CAPS"; case KEY_SCRLCK: return "SCRLCK"; case KEY_HOME: return "HOME"; case KEY_END: return "END"; case KEY_PGUP: return "PGUP"; case KEY_PGDN: return "PGDN"; case KEY_INS: return "INS"; case KEY_DEL: return "DEL"; case KEY_PRTSCR: return "PRTSC"; /* case KEYP_0: return "PAD0"; case KEYP_1: return "PAD1"; case KEYP_2: return "PAD2"; case KEYP_3: return "PAD3"; case KEYP_4: return "PAD4"; case KEYP_5: return "PAD5"; case KEYP_6: return "PAD6"; case KEYP_7: return "PAD7"; case KEYP_8: return "PAD8"; case KEYP_9: return "PAD9"; case KEYP_UPARROW: return "PAD_U"; case KEYP_DOWNARROW: return "PAD_D"; case KEYP_LEFTARROW: return "PAD_L"; case KEYP_RIGHTARROW: return "PAD_R"; case KEYP_MULTIPLY: return "PAD*"; case KEYP_PLUS: return "PAD+"; case KEYP_MINUS: return "PAD-"; case KEYP_DIVIDE: return "PAD/"; */ default: return NULL; } } void TXT_GetKeyDescription(int key, char *buf, size_t buf_len) { const char *keyname; keyname = SpecialKeyName(key); if (keyname != NULL) { TXT_StringCopy(buf, keyname, buf_len); } else if (isprint(key)) { TXT_snprintf(buf, buf_len, "%c", toupper(key)); } else { TXT_snprintf(buf, buf_len, "??%i", key); } } // Searches the desktop screen buffer to determine whether there are any // blinking characters. int TXT_ScreenHasBlinkingChars(void) { int x, y; unsigned char *p; // Check all characters in screen buffer for (y=0; y<TXT_SCREEN_H; ++y) { for (x=0; x<TXT_SCREEN_W; ++x) { p = &screendata[(y * TXT_SCREEN_W + x) * 2]; if (p[1] & 0x80) { // This character is blinking return 1; } } } // None found return 0; } // Sleeps until an event is received, the screen needs to be redrawn, // or until timeout expires (if timeout != 0) void TXT_Sleep(int timeout) { unsigned int start_time; if (TXT_ScreenHasBlinkingChars()) { int time_to_next_blink; time_to_next_blink = BLINK_PERIOD - (SDL_GetTicks() % BLINK_PERIOD); // There are blinking characters on the screen, so we // must time out after a while if (timeout == 0 || timeout > time_to_next_blink) { // Add one so it is always positive timeout = time_to_next_blink + 1; } } if (timeout == 0) { // We can just wait forever until an event occurs SDL_WaitEvent(NULL); } else { // Sit in a busy loop until the timeout expires or we have to // redraw the blinking screen start_time = SDL_GetTicks(); while (SDL_GetTicks() < start_time + timeout) { if (SDL_PollEvent(NULL) != 0) { // Received an event, so stop waiting break; } // Don't hog the CPU SDL_Delay(1); } } } void TXT_EnableKeyMapping(int enable) { key_mapping = enable; } void TXT_SetWindowTitle(char *title) { SDL_WM_SetCaption(title, NULL); } void TXT_SDL_SetEventCallback(TxtSDLEventCallbackFunc callback, void *user_data) { event_callback = callback; event_callback_data = user_data; } // Safe string functions. void TXT_StringCopy(char *dest, const char *src, size_t dest_len) { if (dest_len < 1) { return; } dest[dest_len - 1] = '\0'; strncpy(dest, src, dest_len - 1); } void TXT_StringConcat(char *dest, const char *src, size_t dest_len) { size_t offset; offset = strlen(dest); if (offset > dest_len) { offset = dest_len; } TXT_StringCopy(dest + offset, src, dest_len - offset); } // On Windows, vsnprintf() is _vsnprintf(). #ifdef _WIN32 #if _MSC_VER < 1400 /* not needed for Visual Studio 2008 */ #define vsnprintf _vsnprintf #endif #endif // Safe, portable vsnprintf(). int TXT_vsnprintf(char *buf, size_t buf_len, const char *s, va_list args) { int result; if (buf_len < 1) { return 0; } // Windows (and other OSes?) has a vsnprintf() that doesn't always // append a trailing \0. So we must do it, and write into a buffer // that is one byte shorter; otherwise this function is unsafe. result = vsnprintf(buf, buf_len, s, args); // If truncated, change the final char in the buffer to a \0. // A negative result indicates a truncated buffer on Windows. if (result < 0 || result >= buf_len) { buf[buf_len - 1] = '\0'; result = buf_len - 1; } return result; } // Safe, portable snprintf(). int TXT_snprintf(char *buf, size_t buf_len, const char *s, ...) { va_list args; int result; va_start(args, s); result = TXT_vsnprintf(buf, buf_len, s, args); va_end(args); return result; }