/* ** st_start.cpp ** Handles the startup screen. ** **--------------------------------------------------------------------------- ** Copyright 2006-2007 Randy Heit ** All rights reserved. ** ** Redistribution and use in source and binary forms, with or without ** modification, are permitted provided that the following conditions ** are met: ** ** 1. Redistributions of source code must retain the above copyright ** notice, this list of conditions and the following disclaimer. ** 2. Redistributions in binary form must reproduce the above copyright ** notice, this list of conditions and the following disclaimer in the ** documentation and/or other materials provided with the distribution. ** 3. The name of the author may not be used to endorse or promote products ** derived from this software without specific prior written permission. ** ** THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR ** IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES ** OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. ** IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, ** INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT ** NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, ** DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY ** THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT ** (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF ** THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. **--------------------------------------------------------------------------- ** */ #include #include #include "st_start.h" #include "m_alloc.h" #include "filesystem.h" #include "s_soundinternal.h" #include "s_music.h" #include "startupinfo.h" #include "palutil.h" #include "i_interface.h" void I_GetEvent(); // i_input.h pulls in too much garbage. void ST_Util_InvalidateRect(BitmapInfo* bitmap_info, int left, int top, int right, int bottom); bool ST_Util_CreateStartupWindow(); static const uint16_t IBM437ToUnicode[] = { 0x0000, //#NULL 0x0001, //#START OF HEADING 0x0002, //#START OF TEXT 0x0003, //#END OF TEXT 0x0004, //#END OF TRANSMISSION 0x0005, //#ENQUIRY 0x0006, //#ACKNOWLEDGE 0x0007, //#BELL 0x0008, //#BACKSPACE 0x0009, //#HORIZONTAL TABULATION 0x000a, //#LINE FEED 0x000b, //#VERTICAL TABULATION 0x000c, //#FORM FEED 0x000d, //#CARRIAGE RETURN 0x000e, //#SHIFT OUT 0x000f, //#SHIFT IN 0x0010, //#DATA LINK ESCAPE 0x0011, //#DEVICE CONTROL ONE 0x0012, //#DEVICE CONTROL TWO 0x0013, //#DEVICE CONTROL THREE 0x0014, //#DEVICE CONTROL FOUR 0x0015, //#NEGATIVE ACKNOWLEDGE 0x0016, //#SYNCHRONOUS IDLE 0x0017, //#END OF TRANSMISSION BLOCK 0x0018, //#CANCEL 0x0019, //#END OF MEDIUM 0x001a, //#SUBSTITUTE 0x001b, //#ESCAPE 0x001c, //#FILE SEPARATOR 0x001d, //#GROUP SEPARATOR 0x001e, //#RECORD SEPARATOR 0x001f, //#UNIT SEPARATOR 0x0020, //#SPACE 0x0021, //#EXCLAMATION MARK 0x0022, //#QUOTATION MARK 0x0023, //#NUMBER SIGN 0x0024, //#DOLLAR SIGN 0x0025, //#PERCENT SIGN 0x0026, //#AMPERSAND 0x0027, //#APOSTROPHE 0x0028, //#LEFT PARENTHESIS 0x0029, //#RIGHT PARENTHESIS 0x002a, //#ASTERISK 0x002b, //#PLUS SIGN 0x002c, //#COMMA 0x002d, //#HYPHEN-MINUS 0x002e, //#FULL STOP 0x002f, //#SOLIDUS 0x0030, //#DIGIT ZERO 0x0031, //#DIGIT ONE 0x0032, //#DIGIT TWO 0x0033, //#DIGIT THREE 0x0034, //#DIGIT FOUR 0x0035, //#DIGIT FIVE 0x0036, //#DIGIT SIX 0x0037, //#DIGIT SEVEN 0x0038, //#DIGIT EIGHT 0x0039, //#DIGIT NINE 0x003a, //#COLON 0x003b, //#SEMICOLON 0x003c, //#LESS-THAN SIGN 0x003d, //#EQUALS SIGN 0x003e, //#GREATER-THAN SIGN 0x003f, //#QUESTION MARK 0x0040, //#COMMERCIAL AT 0x0041, //#LATIN CAPITAL LETTER A 0x0042, //#LATIN CAPITAL LETTER B 0x0043, //#LATIN CAPITAL LETTER C 0x0044, //#LATIN CAPITAL LETTER D 0x0045, //#LATIN CAPITAL LETTER E 0x0046, //#LATIN CAPITAL LETTER F 0x0047, //#LATIN CAPITAL LETTER G 0x0048, //#LATIN CAPITAL LETTER H 0x0049, //#LATIN CAPITAL LETTER I 0x004a, //#LATIN CAPITAL LETTER J 0x004b, //#LATIN CAPITAL LETTER K 0x004c, //#LATIN CAPITAL LETTER L 0x004d, //#LATIN CAPITAL LETTER M 0x004e, //#LATIN CAPITAL LETTER N 0x004f, //#LATIN CAPITAL LETTER O 0x0050, //#LATIN CAPITAL LETTER P 0x0051, //#LATIN CAPITAL LETTER Q 0x0052, //#LATIN CAPITAL LETTER R 0x0053, //#LATIN CAPITAL LETTER S 0x0054, //#LATIN CAPITAL LETTER T 0x0055, //#LATIN CAPITAL LETTER U 0x0056, //#LATIN CAPITAL LETTER V 0x0057, //#LATIN CAPITAL LETTER W 0x0058, //#LATIN CAPITAL LETTER X 0x0059, //#LATIN CAPITAL LETTER Y 0x005a, //#LATIN CAPITAL LETTER Z 0x005b, //#LEFT SQUARE BRACKET 0x005c, //#REVERSE SOLIDUS 0x005d, //#RIGHT SQUARE BRACKET 0x005e, //#CIRCUMFLEX ACCENT 0x005f, //#LOW LINE 0x0060, //#GRAVE ACCENT 0x0061, //#LATIN SMALL LETTER A 0x0062, //#LATIN SMALL LETTER B 0x0063, //#LATIN SMALL LETTER C 0x0064, //#LATIN SMALL LETTER D 0x0065, //#LATIN SMALL LETTER E 0x0066, //#LATIN SMALL LETTER F 0x0067, //#LATIN SMALL LETTER G 0x0068, //#LATIN SMALL LETTER H 0x0069, //#LATIN SMALL LETTER I 0x006a, //#LATIN SMALL LETTER J 0x006b, //#LATIN SMALL LETTER K 0x006c, //#LATIN SMALL LETTER L 0x006d, //#LATIN SMALL LETTER M 0x006e, //#LATIN SMALL LETTER N 0x006f, //#LATIN SMALL LETTER O 0x0070, //#LATIN SMALL LETTER P 0x0071, //#LATIN SMALL LETTER Q 0x0072, //#LATIN SMALL LETTER R 0x0073, //#LATIN SMALL LETTER S 0x0074, //#LATIN SMALL LETTER T 0x0075, //#LATIN SMALL LETTER U 0x0076, //#LATIN SMALL LETTER V 0x0077, //#LATIN SMALL LETTER W 0x0078, //#LATIN SMALL LETTER X 0x0079, //#LATIN SMALL LETTER Y 0x007a, //#LATIN SMALL LETTER Z 0x007b, //#LEFT CURLY BRACKET 0x007c, //#VERTICAL LINE 0x007d, //#RIGHT CURLY BRACKET 0x007e, //#TILDE 0x007f, //#DELETE 0x00c7, //#LATIN CAPITAL LETTER C WITH CEDILLA 0x00fc, //#LATIN SMALL LETTER U WITH DIAERESIS 0x00e9, //#LATIN SMALL LETTER E WITH ACUTE 0x00e2, //#LATIN SMALL LETTER A WITH CIRCUMFLEX 0x00e4, //#LATIN SMALL LETTER A WITH DIAERESIS 0x00e0, //#LATIN SMALL LETTER A WITH GRAVE 0x00e5, //#LATIN SMALL LETTER A WITH RING ABOVE 0x00e7, //#LATIN SMALL LETTER C WITH CEDILLA 0x00ea, //#LATIN SMALL LETTER E WITH CIRCUMFLEX 0x00eb, //#LATIN SMALL LETTER E WITH DIAERESIS 0x00e8, //#LATIN SMALL LETTER E WITH GRAVE 0x00ef, //#LATIN SMALL LETTER I WITH DIAERESIS 0x00ee, //#LATIN SMALL LETTER I WITH CIRCUMFLEX 0x00ec, //#LATIN SMALL LETTER I WITH GRAVE 0x00c4, //#LATIN CAPITAL LETTER A WITH DIAERESIS 0x00c5, //#LATIN CAPITAL LETTER A WITH RING ABOVE 0x00c9, //#LATIN CAPITAL LETTER E WITH ACUTE 0x00e6, //#LATIN SMALL LIGATURE AE 0x00c6, //#LATIN CAPITAL LIGATURE AE 0x00f4, //#LATIN SMALL LETTER O WITH CIRCUMFLEX 0x00f6, //#LATIN SMALL LETTER O WITH DIAERESIS 0x00f2, //#LATIN SMALL LETTER O WITH GRAVE 0x00fb, //#LATIN SMALL LETTER U WITH CIRCUMFLEX 0x00f9, //#LATIN SMALL LETTER U WITH GRAVE 0x00ff, //#LATIN SMALL LETTER Y WITH DIAERESIS 0x00d6, //#LATIN CAPITAL LETTER O WITH DIAERESIS 0x00dc, //#LATIN CAPITAL LETTER U WITH DIAERESIS 0x00a2, //#CENT SIGN 0x00a3, //#POUND SIGN 0x00a5, //#YEN SIGN 0x20a7, //#PESETA SIGN 0x0192, //#LATIN SMALL LETTER F WITH HOOK 0x00e1, //#LATIN SMALL LETTER A WITH ACUTE 0x00ed, //#LATIN SMALL LETTER I WITH ACUTE 0x00f3, //#LATIN SMALL LETTER O WITH ACUTE 0x00fa, //#LATIN SMALL LETTER U WITH ACUTE 0x00f1, //#LATIN SMALL LETTER N WITH TILDE 0x00d1, //#LATIN CAPITAL LETTER N WITH TILDE 0x00aa, //#FEMININE ORDINAL INDICATOR 0x00ba, //#MASCULINE ORDINAL INDICATOR 0x00bf, //#INVERTED QUESTION MARK 0x2310, //#REVERSED NOT SIGN 0x00ac, //#NOT SIGN 0x00bd, //#VULGAR FRACTION ONE HALF 0x00bc, //#VULGAR FRACTION ONE QUARTER 0x00a1, //#INVERTED EXCLAMATION MARK 0x00ab, //#LEFT-POINTING DOUBLE ANGLE QUOTATION MARK 0x00bb, //#RIGHT-POINTING DOUBLE ANGLE QUOTATION MARK 0x2591, //#LIGHT SHADE 0x2592, //#MEDIUM SHADE 0x2593, //#DARK SHADE 0x2502, //#BOX DRAWINGS LIGHT VERTICAL 0x2524, //#BOX DRAWINGS LIGHT VERTICAL AND LEFT 0x2561, //#BOX DRAWINGS VERTICAL SINGLE AND LEFT DOUBLE 0x2562, //#BOX DRAWINGS VERTICAL DOUBLE AND LEFT SINGLE 0x2556, //#BOX DRAWINGS DOWN DOUBLE AND LEFT SINGLE 0x2555, //#BOX DRAWINGS DOWN SINGLE AND LEFT DOUBLE 0x2563, //#BOX DRAWINGS DOUBLE VERTICAL AND LEFT 0x2551, //#BOX DRAWINGS DOUBLE VERTICAL 0x2557, //#BOX DRAWINGS DOUBLE DOWN AND LEFT 0x255d, //#BOX DRAWINGS DOUBLE UP AND LEFT 0x255c, //#BOX DRAWINGS UP DOUBLE AND LEFT SINGLE 0x255b, //#BOX DRAWINGS UP SINGLE AND LEFT DOUBLE 0x2510, //#BOX DRAWINGS LIGHT DOWN AND LEFT 0x2514, //#BOX DRAWINGS LIGHT UP AND RIGHT 0x2534, //#BOX DRAWINGS LIGHT UP AND HORIZONTAL 0x252c, //#BOX DRAWINGS LIGHT DOWN AND HORIZONTAL 0x251c, //#BOX DRAWINGS LIGHT VERTICAL AND RIGHT 0x2500, //#BOX DRAWINGS LIGHT HORIZONTAL 0x253c, //#BOX DRAWINGS LIGHT VERTICAL AND HORIZONTAL 0x255e, //#BOX DRAWINGS VERTICAL SINGLE AND RIGHT DOUBLE 0x255f, //#BOX DRAWINGS VERTICAL DOUBLE AND RIGHT SINGLE 0x255a, //#BOX DRAWINGS DOUBLE UP AND RIGHT 0x2554, //#BOX DRAWINGS DOUBLE DOWN AND RIGHT 0x2569, //#BOX DRAWINGS DOUBLE UP AND HORIZONTAL 0x2566, //#BOX DRAWINGS DOUBLE DOWN AND HORIZONTAL 0x2560, //#BOX DRAWINGS DOUBLE VERTICAL AND RIGHT 0x2550, //#BOX DRAWINGS DOUBLE HORIZONTAL 0x256c, //#BOX DRAWINGS DOUBLE VERTICAL AND HORIZONTAL 0x2567, //#BOX DRAWINGS UP SINGLE AND HORIZONTAL DOUBLE 0x2568, //#BOX DRAWINGS UP DOUBLE AND HORIZONTAL SINGLE 0x2564, //#BOX DRAWINGS DOWN SINGLE AND HORIZONTAL DOUBLE 0x2565, //#BOX DRAWINGS DOWN DOUBLE AND HORIZONTAL SINGLE 0x2559, //#BOX DRAWINGS UP DOUBLE AND RIGHT SINGLE 0x2558, //#BOX DRAWINGS UP SINGLE AND RIGHT DOUBLE 0x2552, //#BOX DRAWINGS DOWN SINGLE AND RIGHT DOUBLE 0x2553, //#BOX DRAWINGS DOWN DOUBLE AND RIGHT SINGLE 0x256b, //#BOX DRAWINGS VERTICAL DOUBLE AND HORIZONTAL SINGLE 0x256a, //#BOX DRAWINGS VERTICAL SINGLE AND HORIZONTAL DOUBLE 0x2518, //#BOX DRAWINGS LIGHT UP AND LEFT 0x250c, //#BOX DRAWINGS LIGHT DOWN AND RIGHT 0x2588, //#FULL BLOCK 0x2584, //#LOWER HALF BLOCK 0x258c, //#LEFT HALF BLOCK 0x2590, //#RIGHT HALF BLOCK 0x2580, //#UPPER HALF BLOCK 0x03b1, //#GREEK SMALL LETTER ALPHA 0x00df, //#LATIN SMALL LETTER SHARP S 0x0393, //#GREEK CAPITAL LETTER GAMMA 0x03c0, //#GREEK SMALL LETTER PI 0x03a3, //#GREEK CAPITAL LETTER SIGMA 0x03c3, //#GREEK SMALL LETTER SIGMA 0x00b5, //#MICRO SIGN 0x03c4, //#GREEK SMALL LETTER TAU 0x03a6, //#GREEK CAPITAL LETTER PHI 0x0398, //#GREEK CAPITAL LETTER THETA 0x03a9, //#GREEK CAPITAL LETTER OMEGA 0x03b4, //#GREEK SMALL LETTER DELTA 0x221e, //#INFINITY 0x03c6, //#GREEK SMALL LETTER PHI 0x03b5, //#GREEK SMALL LETTER EPSILON 0x2229, //#INTERSECTION 0x2261, //#IDENTICAL TO 0x00b1, //#PLUS-MINUS SIGN 0x2265, //#GREATER-THAN OR EQUAL TO 0x2264, //#LESS-THAN OR EQUAL TO 0x2320, //#TOP HALF INTEGRAL 0x2321, //#BOTTOM HALF INTEGRAL 0x00f7, //#DIVISION SIGN 0x2248, //#ALMOST EQUAL TO 0x00b0, //#DEGREE SIGN 0x2219, //#BULLET OPERATOR 0x00b7, //#MIDDLE DOT 0x221a, //#SQUARE ROOT 0x207f, //#SUPERSCRIPT LATIN SMALL LETTER N 0x00b2, //#SUPERSCRIPT TWO 0x25a0, //#BLACK SQUARE 0x00a0, //#NO-BREAK SPACE }; BitmapInfo* StartupBitmap; // Hexen startup screen #define ST_MAX_NOTCHES 32 #define ST_NOTCH_WIDTH 16 #define ST_NOTCH_HEIGHT 23 #define ST_PROGRESS_X 64 // Start of notches x screen pos. #define ST_PROGRESS_Y 441 // Start of notches y screen pos. #define ST_NETPROGRESS_X 288 #define ST_NETPROGRESS_Y 32 #define ST_NETNOTCH_WIDTH 4 #define ST_NETNOTCH_HEIGHT 16 #define ST_MAX_NETNOTCHES 8 // Heretic startup screen #define HERETIC_MINOR_VERSION '3' // Since we're based on Heretic 1.3 #define THERM_X 14 #define THERM_Y 14 #define THERM_LEN 51 #define THERM_COLOR 0xAA // light green #define TEXT_FONT_NAME "vga-rom-font.16" // Strife startup screen #define PEASANT_INDEX 0 #define LASER_INDEX 4 #define BOT_INDEX 6 #define ST_LASERSPACE_X 60 #define ST_LASERSPACE_Y 156 #define ST_LASERSPACE_WIDTH 200 #define ST_LASER_WIDTH 16 #define ST_LASER_HEIGHT 16 #define ST_BOT_X 14 #define ST_BOT_Y 138 #define ST_BOT_WIDTH 48 #define ST_BOT_HEIGHT 48 #define ST_PEASANT_X 262 #define ST_PEASANT_Y 136 #define ST_PEASANT_WIDTH 32 #define ST_PEASANT_HEIGHT 64 // Text mode color values #define LO 85 #define MD 170 #define HI 255 static const RgbQuad TextModePalette[16] = { { 0, 0, 0, 0 }, // 0 black { MD, 0, 0, 0 }, // 1 blue { 0, MD, 0, 0 }, // 2 green { MD, MD, 0, 0 }, // 3 cyan { 0, 0, MD, 0 }, // 4 red { MD, 0, MD, 0 }, // 5 magenta { 0, LO, MD, 0 }, // 6 brown { MD, MD, MD, 0 }, // 7 light gray { LO, LO, LO, 0 }, // 8 dark gray { HI, LO, LO, 0 }, // 9 light blue { LO, HI, LO, 0 }, // A light green { HI, HI, LO, 0 }, // B light cyan { LO, LO, HI, 0 }, // C light red { HI, LO, HI, 0 }, // D light magenta { LO, HI, HI, 0 }, // E yellow { HI, HI, HI, 0 }, // F white }; static const char* StrifeStartupPicNames[4 + 2 + 1] = { "STRTPA1", "STRTPB1", "STRTPC1", "STRTPD1", "STRTLZ1", "STRTLZ2", "STRTBOT" }; static const int StrifeStartupPicSizes[4 + 2 + 1] = { 2048, 2048, 2048, 2048, 256, 256, 2304 }; static void ST_Sound(const char* sndname) { if (sysCallbacks.PlayStartupSound) sysCallbacks.PlayStartupSound(sndname); } //========================================================================== // // FHexenStartupScreen Constructor // // Shows the Hexen startup screen. If the screen doesn't appear to be // valid, it sets hr for a failure. // // The startup graphic is a planar, 4-bit 640x480 graphic preceded by a // 16 entry (48 byte) VGA palette. // //========================================================================== FHexenStartupScreen::FHexenStartupScreen(int max_progress, long& hr) : FGraphicalStartupScreen(max_progress) { int startup_lump = fileSystem.CheckNumForName("STARTUP"); int netnotch_lump = fileSystem.CheckNumForName("NETNOTCH"); int notch_lump = fileSystem.CheckNumForName("NOTCH"); hr = -1; if (startup_lump < 0 || fileSystem.FileLength(startup_lump) != 153648 || !ST_Util_CreateStartupWindow() || netnotch_lump < 0 || fileSystem.FileLength(netnotch_lump) != ST_NETNOTCH_WIDTH / 2 * ST_NETNOTCH_HEIGHT || notch_lump < 0 || fileSystem.FileLength(notch_lump) != ST_NOTCH_WIDTH / 2 * ST_NOTCH_HEIGHT) { NetNotchBits = NotchBits = NULL; return; } NetNotchBits = new uint8_t[ST_NETNOTCH_WIDTH / 2 * ST_NETNOTCH_HEIGHT]; fileSystem.ReadFile(netnotch_lump, NetNotchBits); NotchBits = new uint8_t[ST_NOTCH_WIDTH / 2 * ST_NOTCH_HEIGHT]; fileSystem.ReadFile(notch_lump, NotchBits); uint8_t startup_screen[153648]; union { RgbQuad color; uint32_t quad; } c; fileSystem.ReadFile(startup_lump, startup_screen); c.color.rgbReserved = 0; StartupBitmap = ST_Util_CreateBitmap(640, 480, 4); // Initialize the bitmap palette. for (int i = 0; i < 16; ++i) { c.color.rgbRed = startup_screen[i * 3 + 0]; c.color.rgbGreen = startup_screen[i * 3 + 1]; c.color.rgbBlue = startup_screen[i * 3 + 2]; // Convert from 6-bit per component to 8-bit per component. c.quad = (c.quad << 2) | ((c.quad >> 4) & 0x03030303); StartupBitmap->bmiColors[i] = c.color; } // Fill in the bitmap data. Convert to chunky, because I can't figure out // if Windows actually supports planar images or not, despite the presence // of biPlanes in the BITMAPINFOHEADER. ST_Util_PlanarToChunky4(ST_Util_BitsForBitmap(StartupBitmap), startup_screen + 48, 640, 480); if (!batchrun) { if (GameStartupInfo.Song.IsNotEmpty()) { S_ChangeMusic(GameStartupInfo.Song.GetChars(), true, true); } else { S_ChangeMusic("orb", true, true); } } SetWindowSize(); hr = 0; } //========================================================================== // // FHexenStartupScreen Deconstructor // // Frees the notch pictures. // //========================================================================== FHexenStartupScreen::~FHexenStartupScreen() { if (NotchBits) delete[] NotchBits; if (NetNotchBits) delete[] NetNotchBits; } //========================================================================== // // FHexenStartupScreen :: Progress // // Bumps the progress meter one notch. // //========================================================================== void FHexenStartupScreen::Progress() { int notch_pos, x, y; if (CurPos < MaxPos) { CurPos++; notch_pos = (CurPos * ST_MAX_NOTCHES) / MaxPos; if (notch_pos != NotchPos) { // Time to draw another notch. for (; NotchPos < notch_pos; NotchPos++) { x = ST_PROGRESS_X + ST_NOTCH_WIDTH * NotchPos; y = ST_PROGRESS_Y; ST_Util_DrawBlock(StartupBitmap, NotchBits, x, y, ST_NOTCH_WIDTH / 2, ST_NOTCH_HEIGHT); } ST_Sound("StartupTick"); } } I_GetEvent(); } //========================================================================== // // FHexenStartupScreen :: NetProgress // // Draws the red net noches in addition to the normal progress bar. // //========================================================================== void FHexenStartupScreen::NetProgress(int count) { int oldpos = NetCurPos; int x, y; FGraphicalStartupScreen::NetProgress(count); if (NetMaxPos != 0 && NetCurPos > oldpos) { for (; oldpos < NetCurPos && oldpos < ST_MAX_NETNOTCHES; ++oldpos) { x = ST_NETPROGRESS_X + ST_NETNOTCH_WIDTH * oldpos; y = ST_NETPROGRESS_Y; ST_Util_DrawBlock(StartupBitmap, NetNotchBits, x, y, ST_NETNOTCH_WIDTH / 2, ST_NETNOTCH_HEIGHT); } ST_Sound("misc/netnotch"); I_GetEvent(); } } //========================================================================== // // FHexenStartupScreen :: NetDone // // Aside from the standard processing, also plays a sound. // //========================================================================== void FHexenStartupScreen::NetDone() { ST_Sound("PickupWeapon"); FGraphicalStartupScreen::NetDone(); } //========================================================================== // // FHereticStartupScreen Constructor // // Shows the Heretic startup screen. If the screen doesn't appear to be // valid, it returns a failure code in hr. // // The loading screen is an 80x25 text screen with character data and // attributes intermixed, which means it must be exactly 4000 bytes long. // //========================================================================== FHereticStartupScreen::FHereticStartupScreen(int max_progress, long& hr) : FGraphicalStartupScreen(max_progress) { int loading_lump = fileSystem.CheckNumForName("LOADING"); uint8_t loading_screen[4000]; uint8_t* font; hr = -1; if (loading_lump < 0 || fileSystem.FileLength(loading_lump) != 4000 || !ST_Util_CreateStartupWindow()) { return; } font = ST_Util_LoadFont(TEXT_FONT_NAME); if (font == NULL) { return; } fileSystem.ReadFile(loading_lump, loading_screen); // Slap the Heretic minor version on the loading screen. Heretic // did this inside the executable rather than coming with modified // LOADING screens, so we need to do the same. loading_screen[2 * 160 + 49 * 2] = HERETIC_MINOR_VERSION; // Draw the loading screen to a bitmap. StartupBitmap = ST_Util_AllocTextBitmap(font); ST_Util_DrawTextScreen(StartupBitmap, loading_screen, font); ThermX = THERM_X * 8; ThermY = THERM_Y * font[0]; ThermWidth = THERM_LEN * 8 - 4; ThermHeight = font[0]; HMsgY = 7; SMsgX = 1; ST_Util_FreeFont(font); SetWindowSize(); hr = 0; } //========================================================================== // // FHereticStartupScreen::Progress // // Bumps the progress meter one notch. // //========================================================================== void FHereticStartupScreen::Progress() { int notch_pos; if (CurPos < MaxPos) { CurPos++; notch_pos = (CurPos * ThermWidth) / MaxPos; if (notch_pos != NotchPos && !(notch_pos & 3)) { // Time to draw another notch. int left = NotchPos + ThermX; int top = ThermY; int right = notch_pos + ThermX; int bottom = top + ThermHeight; ST_Util_ClearBlock(StartupBitmap, THERM_COLOR, left, top, right - left, bottom - top); NotchPos = notch_pos; } } I_GetEvent(); } //========================================================================== // // FHereticStartupScreen :: LoadingStatus // // Prints text in the center box of the startup screen. // //========================================================================== void FHereticStartupScreen::LoadingStatus(const char* message, int colors) { uint8_t* font = ST_Util_LoadFont(TEXT_FONT_NAME); if (font != NULL) { int x; for (x = 0; message[x] != '\0'; ++x) { ST_Util_DrawChar(StartupBitmap, font, 17 + x, HMsgY, message[x], colors); } ST_Util_InvalidateRect(StartupBitmap, 17 * 8, HMsgY * font[0], (17 + x) * 8, HMsgY * font[0] + font[0]); ST_Util_FreeFont(font); HMsgY++; I_GetEvent(); } } //========================================================================== // // FHereticStartupScreen :: AppendStatusLine // // Appends text to Heretic's status line. // //========================================================================== void FHereticStartupScreen::AppendStatusLine(const char* status) { uint8_t* font = ST_Util_LoadFont(TEXT_FONT_NAME); if (font != NULL) { int x; for (x = 0; status[x] != '\0'; ++x) { ST_Util_DrawChar(StartupBitmap, font, SMsgX + x, 24, status[x], 0x1f); } ST_Util_InvalidateRect(StartupBitmap, SMsgX * 8, 24 * font[0], (SMsgX + x) * 8, 25 * font[0]); ST_Util_FreeFont(font); SMsgX += x; I_GetEvent(); } } //========================================================================== // // FStrifeStartupScreen Constructor // // Shows the Strife startup screen. If the screen doesn't appear to be // valid, it returns a failure code in hr. // // The startup background is a raw 320x200 image, however Strife only // actually uses 95 rows from it, starting at row 57. The rest of the image // is discarded. (What a shame.) // // The peasants are raw 32x64 images. The laser dots are raw 16x16 images. // The bot is a raw 48x48 image. All use the standard PLAYPAL. // //========================================================================== FStrifeStartupScreen::FStrifeStartupScreen(int max_progress, long& hr) : FGraphicalStartupScreen(max_progress) { int startup_lump = fileSystem.CheckNumForName("STARTUP0"); int i; hr = -1; for (i = 0; i < 4 + 2 + 1; ++i) { StartupPics[i] = NULL; } if (startup_lump < 0 || fileSystem.FileLength(startup_lump) != 64000 || !ST_Util_CreateStartupWindow()) { return; } StartupBitmap = ST_Util_CreateBitmap(320, 200, 8); ST_Util_BitmapColorsFromPlaypal(StartupBitmap); // Fill bitmap with the startup image. memset(ST_Util_BitsForBitmap(StartupBitmap), 0xF0, 64000); auto lumpr = fileSystem.OpenFileReader(startup_lump); lumpr.Seek(57 * 320, FileReader::SeekSet); lumpr.Read(ST_Util_BitsForBitmap(StartupBitmap) + 41 * 320, 95 * 320); // Load the animated overlays. for (i = 0; i < 4 + 2 + 1; ++i) { int lumpnum = fileSystem.CheckNumForName(StrifeStartupPicNames[i]); int lumplen; if (lumpnum >= 0 && (lumplen = fileSystem.FileLength(lumpnum)) == StrifeStartupPicSizes[i]) { auto lumpr = fileSystem.OpenFileReader(lumpnum); StartupPics[i] = new uint8_t[lumplen]; lumpr.Read(StartupPics[i], lumplen); } } // Make the startup image appear. DrawStuff(0, 0); SetWindowSize(); hr = 0; } //========================================================================== // // FStrifeStartupScreen Destructor // // Frees the strife pictures. // //========================================================================== FStrifeStartupScreen::~FStrifeStartupScreen() { for (int i = 0; i < 4 + 2 + 1; ++i) { if (StartupPics[i] != NULL) { delete[] StartupPics[i]; } StartupPics[i] = NULL; } } //========================================================================== // // FStrifeStartupScreen :: Progress // // Bumps the progress meter one notch. // //========================================================================== void FStrifeStartupScreen::Progress() { int notch_pos; if (CurPos < MaxPos) { CurPos++; notch_pos = (CurPos * (ST_LASERSPACE_WIDTH - ST_LASER_WIDTH)) / MaxPos; if (notch_pos != NotchPos && !(notch_pos & 1)) { // Time to update. DrawStuff(NotchPos, notch_pos); NotchPos = notch_pos; } } I_GetEvent(); } //========================================================================== // // FStrifeStartupScreen :: DrawStuff // // Draws all the moving parts of Strife's startup screen. If you're // running off a slow drive, it can look kind of good. Otherwise, it // borders on crazy insane fast. // //========================================================================== void FStrifeStartupScreen::DrawStuff(int old_laser, int new_laser) { int y; auto bitmap_info = StartupBitmap; // Clear old laser ST_Util_ClearBlock(bitmap_info, 0xF0, ST_LASERSPACE_X + old_laser, ST_LASERSPACE_Y, ST_LASER_WIDTH, ST_LASER_HEIGHT); // Draw new laser ST_Util_DrawBlock(bitmap_info, StartupPics[LASER_INDEX + (new_laser & 1)], ST_LASERSPACE_X + new_laser, ST_LASERSPACE_Y, ST_LASER_WIDTH, ST_LASER_HEIGHT); // The bot jumps up and down like crazy. y = std::max(0, (new_laser >> 1) % 5 - 2); if (y > 0) { ST_Util_ClearBlock(bitmap_info, 0xF0, ST_BOT_X, ST_BOT_Y, ST_BOT_WIDTH, y); } ST_Util_DrawBlock(bitmap_info, StartupPics[BOT_INDEX], ST_BOT_X, ST_BOT_Y + y, ST_BOT_WIDTH, ST_BOT_HEIGHT); if (y < (5 - 1) - 2) { ST_Util_ClearBlock(bitmap_info, 0xF0, ST_BOT_X, ST_BOT_Y + ST_BOT_HEIGHT + y, ST_BOT_WIDTH, 2 - y); } // The peasant desperately runs in place, trying to get away from the laser. // Yet, despite all his limb flailing, he never manages to get anywhere. ST_Util_DrawBlock(bitmap_info, StartupPics[PEASANT_INDEX + ((new_laser >> 1) & 3)], ST_PEASANT_X, ST_PEASANT_Y, ST_PEASANT_WIDTH, ST_PEASANT_HEIGHT); } //========================================================================== // // ST_Util_PlanarToChunky4 // // Convert a 4-bpp planar image to chunky pixels. // //========================================================================== void ST_Util_PlanarToChunky4(uint8_t* dest, const uint8_t* src, int width, int height) { int y, x; const uint8_t* src1, * src2, * src3, * src4; size_t plane_size = width / 8 * height; src1 = src; src2 = src1 + plane_size; src3 = src2 + plane_size; src4 = src3 + plane_size; for (y = height; y > 0; --y) { for (x = width; x > 0; x -= 8) { // Pixels 0 and 1 dest[0] = (*src4 & 0x80) | ((*src3 & 0x80) >> 1) | ((*src2 & 0x80) >> 2) | ((*src1 & 0x80) >> 3) | ((*src4 & 0x40) >> 3) | ((*src3 & 0x40) >> 4) | ((*src2 & 0x40) >> 5) | ((*src1 & 0x40) >> 6); // Pixels 2 and 3 dest[1] = ((*src4 & 0x20) << 2) | ((*src3 & 0x20) << 1) | ((*src2 & 0x20)) | ((*src1 & 0x20) >> 1) | ((*src4 & 0x10) >> 1) | ((*src3 & 0x10) >> 2) | ((*src2 & 0x10) >> 3) | ((*src1 & 0x10) >> 4); // Pixels 4 and 5 dest[2] = ((*src4 & 0x08) << 4) | ((*src3 & 0x08) << 3) | ((*src2 & 0x08) << 2) | ((*src1 & 0x08) << 1) | ((*src4 & 0x04) << 1) | ((*src3 & 0x04)) | ((*src2 & 0x04) >> 1) | ((*src1 & 0x04) >> 2); // Pixels 6 and 7 dest[3] = ((*src4 & 0x02) << 6) | ((*src3 & 0x02) << 5) | ((*src2 & 0x02) << 4) | ((*src1 & 0x02) << 3) | ((*src4 & 0x01) << 3) | ((*src3 & 0x01) << 2) | ((*src2 & 0x01) << 1) | ((*src1 & 0x01)); dest += 4; src1 += 1; src2 += 1; src3 += 1; src4 += 1; } } } //========================================================================== // // ST_Util_DrawBlock // //========================================================================== void ST_Util_DrawBlock(BitmapInfo* bitmap_info, const uint8_t* src, int x, int y, int bytewidth, int height) { if (src == NULL) { return; } int pitchshift = int(bitmap_info->bmiHeader.biBitCount == 4); int destpitch = bitmap_info->bmiHeader.biWidth >> pitchshift; uint8_t* dest = ST_Util_BitsForBitmap(bitmap_info) + (x >> pitchshift) + y * destpitch; ST_Util_InvalidateRect(bitmap_info, x, y, x + (bytewidth << pitchshift), y + height); if (bytewidth == 8) { // progress notches for (; height > 0; --height) { ((uint32_t*)dest)[0] = ((const uint32_t*)src)[0]; ((uint32_t*)dest)[1] = ((const uint32_t*)src)[1]; dest += destpitch; src += 8; } } else if (bytewidth == 2) { // net progress notches for (; height > 0; --height) { *((uint16_t*)dest) = *((const uint16_t*)src); dest += destpitch; src += 2; } } else { for (; height > 0; --height) { memcpy(dest, src, bytewidth); dest += destpitch; src += bytewidth; } } } //========================================================================== // // ST_Util_ClearBlock // //========================================================================== void ST_Util_ClearBlock(BitmapInfo* bitmap_info, uint8_t fill, int x, int y, int bytewidth, int height) { int pitchshift = int(bitmap_info->bmiHeader.biBitCount == 4); int destpitch = bitmap_info->bmiHeader.biWidth >> pitchshift; uint8_t* dest = ST_Util_BitsForBitmap(bitmap_info) + (x >> pitchshift) + y * destpitch; ST_Util_InvalidateRect(bitmap_info, x, y, x + (bytewidth << pitchshift), y + height); while (height > 0) { memset(dest, fill, bytewidth); dest += destpitch; height--; } } //========================================================================== // // ST_Util_CreateBitmap // // Creates a BitmapInfoHeader, RgbQuad, and pixel data arranged // consecutively in memory (in other words, a normal Windows BMP file). // The BitmapInfoHeader will be filled in, and the caller must fill // in the color and pixel data. // // You must pass 4 or 8 for color_bits. // //========================================================================== BitmapInfo* ST_Util_CreateBitmap(int width, int height, int color_bits) { uint32_t size_image = (width * height) >> int(color_bits == 4); BitmapInfo* bitmap_info = (BitmapInfo*)M_Malloc(sizeof(BitmapInfoHeader) + (sizeof(RgbQuad) << color_bits) + size_image); // Initialize the header. bitmap_info->bmiHeader.biSize = sizeof(BitmapInfoHeader); bitmap_info->bmiHeader.biWidth = width; bitmap_info->bmiHeader.biHeight = height; bitmap_info->bmiHeader.biPlanes = 1; bitmap_info->bmiHeader.biBitCount = color_bits; bitmap_info->bmiHeader.biCompression = 0; bitmap_info->bmiHeader.biSizeImage = size_image; bitmap_info->bmiHeader.biXPelsPerMeter = 0; bitmap_info->bmiHeader.biYPelsPerMeter = 0; bitmap_info->bmiHeader.biClrUsed = 1 << color_bits; bitmap_info->bmiHeader.biClrImportant = 0; return bitmap_info; } //========================================================================== // // ST_Util_BitsForBitmap // // Given a bitmap created by ST_Util_CreateBitmap, returns the start // address for the pixel data for the bitmap. // //========================================================================== uint8_t* ST_Util_BitsForBitmap(BitmapInfo* bitmap_info) { return (uint8_t*)bitmap_info + sizeof(BitmapInfoHeader) + (sizeof(RgbQuad) << bitmap_info->bmiHeader.biBitCount); } //========================================================================== // // ST_Util_FreeBitmap // // Frees all the data for a bitmap created by ST_Util_CreateBitmap. // //========================================================================== void ST_Util_FreeBitmap(BitmapInfo* bitmap_info) { M_Free(bitmap_info); } //========================================================================== // // ST_Util_BitmapColorsFromPlaypal // // Fills the bitmap palette from the PLAYPAL lump. // //========================================================================== void ST_Util_BitmapColorsFromPlaypal(BitmapInfo* bitmap_info) { uint8_t playpal[768]; ReadPalette(fileSystem.GetNumForName("PLAYPAL"), playpal); for (int i = 0; i < 256; ++i) { bitmap_info->bmiColors[i].rgbBlue = playpal[i * 3 + 2]; bitmap_info->bmiColors[i].rgbGreen = playpal[i * 3 + 1]; bitmap_info->bmiColors[i].rgbRed = playpal[i * 3]; bitmap_info->bmiColors[i].rgbReserved = 0; } } //========================================================================== // // ST_Util_LoadFont // // Loads a monochrome fixed-width font. Every character is one byte // (eight pixels) wide, so we can deduce the height of each character // by looking at the size of the font data. // //========================================================================== uint8_t* ST_Util_LoadFont(const char* filename) { int lumpnum, lumplen, height; uint8_t* font; lumpnum = fileSystem.CheckNumForFullName(filename); if (lumpnum < 0) { // font not found return NULL; } lumplen = fileSystem.FileLength(lumpnum); height = lumplen / 256; if (height * 256 != lumplen) { // font is a bad size return NULL; } if (height < 6 || height > 36) { // let's be reasonable here return NULL; } font = new uint8_t[lumplen + 1]; font[0] = height; // Store font height in the first byte. fileSystem.ReadFile(lumpnum, font + 1); return font; } void ST_Util_FreeFont(uint8_t* font) { delete[] font; } //========================================================================== // // ST_Util_AllocTextBitmap // // Returns a bitmap properly sized to hold an 80x25 display of characters // using the specified font. // //========================================================================== BitmapInfo* ST_Util_AllocTextBitmap(const uint8_t* font) { BitmapInfo* bitmap = ST_Util_CreateBitmap(80 * 8, 25 * font[0], 4); memcpy(bitmap->bmiColors, TextModePalette, sizeof(TextModePalette)); return bitmap; } //========================================================================== // // ST_Util_DrawTextScreen // // Draws the text screen to the bitmap. The bitmap must be the proper size // for the font. // //========================================================================== void ST_Util_DrawTextScreen(BitmapInfo* bitmap_info, const uint8_t* text_screen, const uint8_t* font) { int x, y; for (y = 0; y < 25; ++y) { for (x = 0; x < 80; ++x) { ST_Util_DrawChar(bitmap_info, font, x, y, text_screen[0], text_screen[1]); text_screen += 2; } } } //========================================================================== // // ST_Util_DrawChar // // Draws a character on the bitmap. X and Y specify the character cell, // and fg and bg are 4-bit colors. // //========================================================================== void ST_Util_DrawChar(BitmapInfo* screen, const uint8_t* font, int x, int y, uint8_t charnum, uint8_t attrib) { const uint8_t bg_left = attrib & 0x70; const uint8_t fg = attrib & 0x0F; const uint8_t fg_left = fg << 4; const uint8_t bg = bg_left >> 4; const uint8_t color_array[4] = { (uint8_t)(bg_left | bg), (uint8_t)(attrib & 0x7F), (uint8_t)(fg_left | bg), (uint8_t)(fg_left | fg) }; const uint8_t* src = font + 1 + charnum * font[0]; int pitch = screen->bmiHeader.biWidth >> 1; uint8_t* dest = ST_Util_BitsForBitmap(screen) + x * 4 + y * font[0] * pitch; for (y = font[0]; y > 0; --y) { uint8_t srcbyte = *src++; // Pixels 0 and 1 dest[0] = color_array[(srcbyte >> 6) & 3]; // Pixels 2 and 3 dest[1] = color_array[(srcbyte >> 4) & 3]; // Pixels 4 and 5 dest[2] = color_array[(srcbyte >> 2) & 3]; // Pixels 6 and 7 dest[3] = color_array[(srcbyte) & 3]; dest += pitch; } } //========================================================================== // // ST_Util_UpdateTextBlink // // Draws the parts of the text screen that blink to the bitmap. The bitmap // must be the proper size for the font. // //========================================================================== void ST_Util_UpdateTextBlink(BitmapInfo* bitmap_info, const uint8_t* text_screen, const uint8_t* font, bool on) { int x, y; for (y = 0; y < 25; ++y) { for (x = 0; x < 80; ++x) { if (text_screen[1] & 0x80) { ST_Util_DrawChar(bitmap_info, font, x, y, on ? text_screen[0] : ' ', text_screen[1]); ST_Util_InvalidateRect(bitmap_info, x * 8, y * font[0], x * 8 + 8, y * font[0] + font[0]); } text_screen += 2; } } }