/* ScummVM - Graphic Adventure Engine * * ScummVM is the legal property of its developers, whose names * are too numerous to list here. Please refer to the COPYRIGHT * file distributed with this source distribution. * * This program is free software; you can redistribute it and/or * modify it under the terms of the GNU General Public License * as published by the Free Software Foundation; either version 2 * of the License, or (at your option) any later version. * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. * * $URL$ * $Id$ * */ /* * This code is based on original Hugo Trilogy source code * * Copyright (c) 1989-1995 David P. Gray * */ // Display.c - DIB related code for HUGOWIN #include "common/system.h" #include "hugo/game.h" #include "hugo/hugo.h" #include "hugo/display.h" #include "hugo/file.h" #include "hugo/util.h" namespace Hugo { #define NUM_COLORS 16 // Num colors to save in palette #define DMAX 16 // Size of add/restore rect lists #define BMAX (DMAX * 2) // Size of dirty rect blit list #define INX(X, B) (X >= B->x && X <= B->x + B->dx) #define INY(Y, B) (Y >= B->y && Y <= B->y + B->dy) #define OVERLAP(A, B) ((INX(A->x, B) || INX(A->x + A->dx, B) || INX(B->x, A) || INX(B->x + B->dx, A)) && (INY(A->y, B) || INY(A->y + A->dy, B) || INY(B->y, A) || INY(B->y + B->dy, A))) Screen::Screen(HugoEngine &vm) : _vm(vm) { } Screen::~Screen() { } void Screen::createPal() { debugC(1, kDebugDisplay, "createPal"); g_system->setPalette(_vm._palette, 0, NUM_COLORS); } void Screen::initDisplay() { debugC(1, kDebugDisplay, "initDisplay"); // Create logical palette createPal(); } // Move an image from source to destination void Screen::moveImage(image_pt srcImage, uint16 x1, uint16 y1, uint16 dx, uint16 dy, uint16 width1, image_pt dstImage, uint16 x2, uint16 y2, uint16 width2) { debugC(3, kDebugDisplay, "moveImage(srcImage, %d, %d, %d, %d, %d, dstImage, %d, %d, %d)", x1, y1, dx, dy, width1, x2, y2, width2); int16 wrap_src = width1 - dx; // Wrap to next src row int16 wrap_dst = width2 - dx; // Wrap to next dst row srcImage += y1 * width1 + x1; // Offset into src image dstImage += y2 * width2 + x2; // offset into dst image while (dy--) { // For each row for (int16 x = dx; x--;) // For each column *dstImage++ = *srcImage++; srcImage += wrap_src; // Wrap to next line dstImage += wrap_dst; } } void Screen::displayBackground() { debugC(1, kDebugDisplay, "displayBackground"); g_system->copyRectToScreen(_frontBuffer, 320, 0, 0, 320, 200); } // Blit the supplied rectangle from _frontBuffer to the screen void Screen::displayRect(int16 x, int16 y, int16 dx, int16 dy) { debugC(3, kDebugDisplay, "displayRect(%d, %d, %d, %d)", x, y, dx, dy); g_system->copyRectToScreen(&_frontBuffer[x + y * 320], 320, x, y, dx, dy); } void Screen::remapPal(uint16 oldIndex, uint16 newIndex) { // Change a color by remapping supplied palette index with new index debugC(1, kDebugDisplay, "Remap_pal(%d, %d)", oldIndex, newIndex); warning("STUB: Remap_pal()"); //bminfo.bmiColors[oldIndex] = ctab[newIndex]; } void Screen::savePal(Common::WriteStream *f) { debugC(1, kDebugDisplay, "savePal"); warning("STUB: savePal()"); //fwrite(bminfo.bmiColors, sizeof(bminfo.bmiColors), 1, f); } void Screen::restorePal(Common::SeekableReadStream *f) { debugC(1, kDebugDisplay, "restorePal"); warning("STUB: restorePal()"); //fread(bminfo.bmiColors, sizeof(bminfo.bmiColors), 1, f); } // Set the new background color void Screen::setBackgroundColor(long color) { debugC(1, kDebugDisplay, "setBackgroundColor(%ld)", color); // How??? Translate existing pixels in dib before objects rendered? } // Return the overlay state (Foreground/Background) of the currently // processed object by looking down the current column for an overlay // base bit set (in which case the object is foreground). overlayState_t Screen::findOvl(seq_t *seq_p, image_pt dst_p, uint16 y) { debugC(4, kDebugDisplay, "findOvl"); for (; y < seq_p->lines; y++) { // Each line in object image_pt ovb_p = _vm.getBaseBoundaryOverlay() + ((uint16)(dst_p - _frontBuffer) >> 3); // Ptr into overlay bits if (*ovb_p & (0x80 >> ((uint16)(dst_p - _frontBuffer) & 7))) // Overlay bit is set return FG; // Found a bit - must be foreground dst_p += XPIX; } return BG; // No bits set, must be background } // Merge an object frame into _frontBuffer at sx, sy and update rectangle list. // If fore TRUE, force object above any overlay void Screen::displayFrame(int sx, int sy, seq_t *seq, bool foreFl) { debugC(3, kDebugDisplay, "displayFrame(%d, %d, seq, %d)", sx, sy, (foreFl) ? 1 : 0); image_pt image = seq->imagePtr; // Ptr to object image data image_pt subFrontBuffer = &_frontBuffer[sy * XPIX + sx]; // Ptr to offset in _frontBuffer image_pt overlay = &_vm.getFirstOverlay()[(sy * XPIX + sx) >> 3]; // Ptr to overlay data int16 frontBufferwrap = XPIX - seq->x2 - 1; // Wraps dest_p after each line int16 imageWrap = seq->bytesPerLine8 - seq->x2 - 1; overlayState_t overlayState = UNDEF; // Overlay state of object for (uint16 y = 0; y < seq->lines; y++) { // Each line in object for (uint16 x = 0; x <= seq->x2; x++) { if (*image) { // Non-transparent overlay = _vm.getFirstOverlay() + ((uint16)(subFrontBuffer - _frontBuffer) >> 3); // Ptr into overlay bits if (*overlay & (0x80 >> ((uint16)(subFrontBuffer - _frontBuffer) & 7))) { // Overlay bit is set if (overlayState == UNDEF) // Overlay defined yet? overlayState = findOvl(seq, subFrontBuffer, y);// No, find it. if (foreFl || overlayState == FG) // Object foreground *subFrontBuffer = *image; // Copy pixel } else { // No overlay *subFrontBuffer = *image; // Copy pixel } } image++; subFrontBuffer++; } image += imageWrap; subFrontBuffer += frontBufferwrap; } // Add this rectangle to the display list displayList(D_ADD, sx, sy, seq->x2 + 1, seq->lines); } // Merge rectangles A,B leaving result in B void Screen::merge(rect_t *rectA, rect_t *rectB) { debugC(6, kDebugDisplay, "merge"); int16 xa = rectA->x + rectA->dx; // Find x2,y2 for each rectangle int16 xb = rectB->x + rectB->dx; int16 ya = rectA->y + rectA->dy; int16 yb = rectB->y + rectB->dy; rectB->x = MIN(rectA->x, rectB->x); // Minimum x,y rectB->y = MIN(rectA->y, rectB->y); rectB->dx = MAX(xa, xb) - rectB->x; // Maximum dx,dy rectB->dy = MAX(ya, yb) - rectB->y; } // Coalesce the rectangles in the restore/add list into one unified // blist. len is the sizes of alist or rlist. blen is current length // of blist. bmax is the max size of the blist. Note that blist can // have holes, in which case dx = 0. Returns used length of blist. int16 Screen::mergeLists(rect_t *list, rect_t *blist, int16 len, int16 blen, int16 bmax) { debugC(4, kDebugDisplay, "mergeLists"); int16 coalesce[BMAX]; // List of overlapping rects // Process the list for (int16 a = 0; a < len; a++, list++) { // Compile list of overlapping rectangles in blit list int16 c = 0; rect_t *bp = blist; for (int16 b = 0; b < blen; b++, bp++) { if (bp->dx) // blist entry used if (OVERLAP(list, bp)) coalesce[c++] = b; } // Any overlapping blit rects? if (c == 0) { // None, add a new entry blist[blen++] = *list; } else { // At least one overlapping // Merge add-list entry with first blist entry bp = &blist[coalesce[0]]; merge(list, bp); // Merge any more blist entries while (--c) { rect_t *cp = &blist[coalesce[c]]; merge(cp, bp); cp->dx = 0; // Delete entry } } } return blen; } // Process the display list // Trailing args are int16 x,y,dx,dy for the D_ADD operation void Screen::displayList(dupdate_t update, ...) { debugC(6, kDebugDisplay, "displayList"); static int16 addIndex, restoreIndex; // Index into add/restore lists static rect_t restoreList[DMAX]; // The restore list static rect_t addList[DMAX]; // The add list static rect_t blistList[BMAX]; // The blit list int16 blitLength = 0; // Length of blit list va_list marker; // Args used for D_ADD operation rect_t *p; // Ptr to dlist entry switch (update) { case D_INIT: // Init lists, restore whole screen addIndex = restoreIndex = 0; memcpy(_frontBuffer, _backBuffer, sizeof(_frontBuffer)); break; case D_ADD: // Add a rectangle to list if (addIndex >= DMAX) { Utils::Warn("%s", "Display list exceeded"); return; } va_start(marker, update); // Initialize variable arguments p = &addList[addIndex]; p->x = va_arg(marker, int); // x p->y = va_arg(marker, int); // y p->dx = va_arg(marker, int); // dx p->dy = va_arg(marker, int); // dy va_end(marker); // Reset variable arguments addIndex++; break; case D_DISPLAY: // Display whole list // Don't blit if newscreen just loaded because _frontBuffer will // get blitted via InvalidateRect() at end of this cycle // and blitting here causes objects to appear too soon. if (_vm.getGameStatus().newScreenFl) { _vm.getGameStatus().newScreenFl = false; break; } // Coalesce restore-list, add-list into combined blit-list blitLength = mergeLists(restoreList, blistList, restoreIndex, blitLength, BMAX); blitLength = mergeLists(addList, blistList, addIndex, blitLength, BMAX); // Blit the combined blit-list for (restoreIndex = 0, p = blistList; restoreIndex < blitLength; restoreIndex++, p++) { if (p->dx) // Marks a used entry displayRect(p->x, p->y, p->dx, p->dy); } break; case D_RESTORE: // Restore each rectangle for (restoreIndex = 0, p = addList; restoreIndex < addIndex; restoreIndex++, p++) { // Restoring from _backBuffer to _frontBuffer restoreList[restoreIndex] = *p; // Copy add-list to restore-list moveImage(_backBuffer, p->x, p->y, p->dx, p->dy, XPIX, _frontBuffer, p->x, p->y, XPIX); } addIndex = 0; // Reset add-list break; } } void Screen::writeChr(int sx, int sy, byte color, char *local_fontdata) { // Write supplied character (font data) at sx,sy in supplied color // Font data as follows: // // *(fontdata+1) = Font Height (pixels) // *(fontdata+1) = Font Width (pixels) // *(fontdata+x) = Font Bitmap (monochrome) debugC(2, kDebugDisplay, "writeChr(%d, %d, %d, %d)", sx, sy, color, local_fontdata[0]); byte height = local_fontdata[0]; byte width = 8; //local_fontdata[1]; // This can probably be optimized quite a bit... for (int y = 0; y < height; ++y) { for (int x = 0; x < width; ++x) { int pixel = y * width + x; int bitpos = pixel % 8; int offset = pixel / 8; byte bitTest = (1 << bitpos); if ((local_fontdata[2 + offset] & bitTest) == bitTest) _frontBuffer[(sy + y) * 320 + sx + x] = color; } } } // Returns height of characters in current font int16 Screen::fontHeight() { debugC(2, kDebugDisplay, "fontHeight"); static int16 height[NUM_FONTS] = {5, 7, 8}; return height[_fnt - FIRST_FONT]; } // Returns length of supplied string in pixels int16 Screen::stringLength(const char *s) { debugC(2, kDebugDisplay, "stringLength(%s)", s); byte **fontArr = _font[_fnt]; int16 sum = 0; for (; *s; s++) sum += *(fontArr[(uint)*s] + 1) + 1; return sum; } // Return x which would center supplied string int16 Screen::center(const char *s) { debugC(1, kDebugDisplay, "center(%s)", s); return (int16)((XPIX - stringLength(s)) >> 1); } // Write string at sx,sy in supplied color in current font // If sx == CENTER, center it void Screen::writeStr(int16 sx, int16 sy, const char *s, byte color) { debugC(2, kDebugDisplay, "writeStr(%d, %d, %s, %d)", sx, sy, s, color); if (sx == CENTER) sx = center(s); byte **font = _font[_fnt]; for (; *s; s++) { writeChr(sx, sy, color, (char *)font[(uint)*s]); sx += *(font[(uint)*s] + 1) + 1; } } // Shadowed version of writestr void Screen::shadowStr(int16 sx, int16 sy, const char *s, byte color) { debugC(1, kDebugDisplay, "shadowStr(%d, %d, %s, %d)", sx, sy, s, color); if (sx == CENTER) sx = center(s); writeStr(sx + 1, sy + 1, s, _TBLACK); writeStr(sx, sy, s, color); } void Screen::userHelp() { // Introduce user to the game // DOS versions Only Utils::Box(BOX_ANY , "%s", "F1 - Press F1 again\n" " for instructions\n" "F2 - Sound on/off\n" "F3 - Recall last line\n" "F4 - Save game\n" "F5 - Restore game\n" "F6 - Inventory\n" "F8 - Turbo button\n" "F9 - Boss button\n\n" "ESC - Return to game"); } void Screen::drawStatusText() { debugC(4, kDebugDisplay, "drawStatusText"); loadFont(U_FONT8); uint16 sdx = stringLength(_vm._statusLine); uint16 sdy = fontHeight() + 1; // + 1 for shadow uint16 posX = 0; uint16 posY = YPIX - sdy; // Display the string and add rect to display list writeStr(posX, posY, _vm._statusLine, _TLIGHTYELLOW); displayList(D_ADD, posX, posY, sdx, sdy); sdx = stringLength(_vm._scoreLine); posY = 0; writeStr(posX, posY, _vm._scoreLine, _TCYAN); displayList(D_ADD, posX, posY, sdx, sdy); } void Screen::drawShape(int x, int y, int color1, int color2) { for (int i = 0; i < shapeSize; i++) { for (int j = 0; j < i; j++) { _backBuffer[320 * (y + i) + (x + shapeSize + j - i)] = color1; _frontBuffer[320 * (y + i) + (x + shapeSize + j - i)] = color1; _backBuffer[320 * (y + i) + (x + shapeSize + j)] = color2; _frontBuffer[320 * (y + i) + (x + shapeSize + j)] = color2; _backBuffer[320 * (y + (2 * shapeSize - 1) - i) + (x + shapeSize + j - i)] = color1; _frontBuffer[320 * (y + (2 * shapeSize - 1) - i) + (x + shapeSize + j - i)] = color1; _backBuffer[320 * (y + (2 * shapeSize - 1) - i) + (x + shapeSize + j)] = color2; _frontBuffer[320 * (y + (2 * shapeSize - 1) - i) + (x + shapeSize + j)] = color2; } } } void Screen::drawRectangle(bool filledFl, uint16 x1, uint16 y1, uint16 x2, uint16 y2, int color) { assert(x1 <= x2); assert(y1 <= y2); if (filledFl) { for (int i = y1; i < y2; i++) { for (int j = x1; j < x2; j++) { _backBuffer[320 * i + j] = color; _frontBuffer[320 * i + j] = color; } } } else { warning("STUB: drawRectangle()"); } } Screen_v1d::Screen_v1d(HugoEngine &vm) : Screen(vm) { } Screen_v1d::~Screen_v1d() { } // Load font file, construct font ptrs and reverse data bytes // TODO: This uses hardcoded fonts in hugo.dat, it should be replaced // by a proper implementation of .FON files void Screen_v1d::loadFont(int16 fontId) { debugC(2, kDebugDisplay, "loadFont(%d)", fontId); static bool fontLoadedFl[NUM_FONTS] = {false, false, false}; _fnt = fontId - FIRST_FONT; // Set current font number if (fontLoadedFl[_fnt]) // If already loaded, return return; fontLoadedFl[_fnt] = true; memcpy(_fontdata[_fnt], _vm._arrayFont[_fnt], _vm._arrayFontSize[_fnt]); _font[_fnt][0] = _fontdata[_fnt]; // Store height,width of fonts int16 offset = 2; // Start at fontdata[2] ([0],[1] used for height,width) // Setup the font array (127 characters) for (int i = 1; i < 128; i++) { _font[_fnt][i] = _fontdata[_fnt] + offset; byte height = *(_fontdata[_fnt] + offset); byte width = *(_fontdata[_fnt] + offset + 1); int16 size = height * ((width + 7) >> 3); for (int j = 0; j < size; j++) Utils::reverseByte(&_fontdata[_fnt][offset + 2 + j]); offset += 2 + size; } } Screen_v1w::Screen_v1w(HugoEngine &vm) : Screen(vm) { } Screen_v1w::~Screen_v1w() { } // Load font file, construct font ptrs and reverse data bytes void Screen_v1w::loadFont(int16 fontId) { debugC(2, kDebugDisplay, "loadFont(%d)", fontId); static bool fontLoadedFl[NUM_FONTS] = {false, false, false}; _fnt = fontId - FIRST_FONT; // Set current font number if (fontLoadedFl[_fnt]) // If already loaded, return return; fontLoadedFl[_fnt] = true; _vm.file().readUIFItem(fontId, _fontdata[_fnt]); // Compile font ptrs. Note: First ptr points to height,width of font _font[_fnt][0] = _fontdata[_fnt]; // Store height,width of fonts int16 offset = 2; // Start at fontdata[2] ([0],[1] used for height,width) // Setup the font array (127 characters) for (int i = 1; i < 128; i++) { _font[_fnt][i] = _fontdata[_fnt] + offset; byte height = *(_fontdata[_fnt] + offset); byte width = *(_fontdata[_fnt] + offset + 1); int16 size = height * ((width + 7) >> 3); for (int j = 0; j < size; j++) Utils::reverseByte(&_fontdata[_fnt][offset + 2 + j]); offset += 2 + size; } } } // End of namespace Hugo