/* 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. * * */ #include "graphics/cursorman.h" #include "toltecs/toltecs.h" #include "toltecs/palette.h" #include "toltecs/render.h" #include "toltecs/resource.h" #include "toltecs/screen.h" #include "toltecs/script.h" namespace Toltecs { Screen::Screen(ToltecsEngine *vm) : _vm(vm) { _frontScreen = new byte[268800]; _backScreen = new byte[870400]; memset(_fontResIndexArray, 0, sizeof(_fontResIndexArray)); _fontColor1 = 0; _fontColor2 = 0; // Screen shaking _shakeActive = false; _shakeCounterInit = 0; _shakeCounter = 0; _shakePos = 0; // Verb line _verbLineNum = 0; memset(_verbLineItems, 0, sizeof(_verbLineItems)); _verbLineX = 160; _verbLineY = 2; _verbLineWidth = 20; _verbLineCount = 0; // Talk text _talkTextItemNum = 0; memset(_talkTextItems, 0, sizeof(_talkTextItems)); _talkTextX = 0; _talkTextY = 0; _talkTextFontColor = 0; _talkTextMaxWidth = 520; _renderQueue = new RenderQueue(_vm); _fullRefresh = false; _guiRefresh = false; } Screen::~Screen() { delete[] _frontScreen; delete[] _backScreen; delete _renderQueue; } void Screen::unpackRle(byte *source, byte *dest, uint16 width, uint16 height) { int32 size = width * height; while (size > 0) { byte a = *source++; byte b = *source++; if (a == 0) { dest += b; size -= b; } else { b = ((b << 4) & 0xF0) | ((b >> 4) & 0x0F); memset(dest, b, a); dest += a; size -= a; } } } void Screen::loadMouseCursor(uint resIndex) { byte mouseCursor[16 * 16], *mouseCursorP = mouseCursor; byte *cursorData = _vm->_res->load(resIndex)->data; for (int i = 0; i < 32; i++) { byte pixel; byte mask1 = *cursorData++; byte mask2 = *cursorData++; for (int j = 0; j < 8; j++) { pixel = 0xE5; if ((mask2 & 0x80) == 0) pixel = 0xE0; mask2 <<= 1; if ((mask1 & 0x80) == 0) pixel = 0; mask1 <<= 1; *mouseCursorP++ = pixel; } } // FIXME: Where's the cursor hotspot? Using 8, 8 seems good enough for now. CursorMan.replaceCursor((const byte*)mouseCursor, 16, 16, 8, 8, 0); } void Screen::drawGuiImage(int16 x, int16 y, uint resIndex) { byte *imageData = _vm->_res->load(resIndex)->data; int16 headerSize = READ_LE_UINT16(imageData); int16 width = imageData[2]; int16 height = imageData[3]; int16 workWidth = width, workHeight = height; imageData += headerSize; byte *dest = _frontScreen + x + (y + _vm->_cameraHeight) * 640; //debug(0, "Screen::drawGuiImage() x = %d; y = %d; w = %d; h = %d; resIndex = %d", x, y, width, height, resIndex); while (workHeight > 0) { int count = 1; byte pixel = *imageData++; if (pixel & 0x80) { pixel &= 0x7F; count = *imageData++; count += 2; } pixel = pixel + 0xE0; while (count-- && workHeight > 0) { *dest++ = pixel; workWidth--; if (workWidth == 0) { workHeight--; dest += 640 - width; workWidth = width; } } } _guiRefresh = true; } void Screen::startShakeScreen(int16 shakeCounter) { _shakeActive = true; _shakeCounterInit = shakeCounter; _shakeCounter = shakeCounter; _shakePos = 0; } void Screen::stopShakeScreen() { _shakeActive = false; _vm->_system->setShakePos(0); } void Screen::updateShakeScreen() { if (_shakeActive) { _shakeCounter--; if (_shakeCounter == 0) { _shakeCounter = _shakeCounterInit; _shakePos ^= 8; _vm->_system->setShakePos(_shakePos); } } } void Screen::addStaticSprite(byte *spriteItem) { DrawRequest drawRequest; memset(&drawRequest, 0, sizeof(drawRequest)); drawRequest.y = READ_LE_UINT16(spriteItem + 0); drawRequest.x = READ_LE_UINT16(spriteItem + 2); int16 fragmentId = READ_LE_UINT16(spriteItem + 4); drawRequest.baseColor = _vm->_palette->findFragment(fragmentId) & 0xFF; drawRequest.resIndex = READ_LE_UINT16(spriteItem + 6); drawRequest.flags = READ_LE_UINT16(spriteItem + 8); drawRequest.scaling = 0; debug(0, "Screen::addStaticSprite() x = %d; y = %d; baseColor = %d; resIndex = %d; flags = %04X", drawRequest.x, drawRequest.y, drawRequest.baseColor, drawRequest.resIndex, drawRequest.flags); addDrawRequest(drawRequest); } void Screen::addAnimatedSprite(int16 x, int16 y, int16 fragmentId, byte *data, int16 *spriteArray, bool loop, int mode) { //debug(0, "Screen::addAnimatedSprite(%d, %d, %d)", x, y, fragmentId); DrawRequest drawRequest; memset(&drawRequest, 0, sizeof(drawRequest)); drawRequest.x = x; drawRequest.y = y; drawRequest.baseColor = _vm->_palette->findFragment(fragmentId) & 0xFF; if (mode == 1) { drawRequest.scaling = _vm->_segmap->getScalingAtPoint(drawRequest.x, drawRequest.y); } else if (mode == 2) { drawRequest.scaling = 0; } int16 count = spriteArray[0]; //debug(0, "count = %d", count); for (int16 index = 1; index <= count; index++) { byte *spriteItem = data + spriteArray[index]; uint16 loopNum = READ_LE_UINT16(spriteItem + 0) & 0x7FFF; uint16 loopCount = READ_LE_UINT16(spriteItem + 2); uint16 frameNum = READ_LE_UINT16(spriteItem + 4); uint16 frameCount = READ_LE_UINT16(spriteItem + 6); drawRequest.resIndex = READ_LE_UINT16(spriteItem + 8); drawRequest.flags = READ_LE_UINT16(spriteItem + 10 + loopNum * 2); debug(0, "Screen::addAnimatedSprite(%d of %d) loopNum = %d; loopCount = %d; frameNum = %d; frameCount = %d; resIndex = %d; flags = %04X, mode = %d", index, count, loopNum, loopCount, frameNum, frameCount, drawRequest.resIndex, drawRequest.flags, mode); addDrawRequest(drawRequest); frameNum++; if (frameNum == frameCount) { frameNum = 0; loopNum++; if (loopNum == loopCount) { if (loop) { loopNum = 0; } else { loopNum--; } } } else { loopNum |= 0x8000; } WRITE_LE_UINT16(spriteItem + 0, loopNum); WRITE_LE_UINT16(spriteItem + 4, frameNum); } } void Screen::clearSprites() { } void Screen::blastSprite(int16 x, int16 y, int16 fragmentId, int16 resIndex, uint16 flags) { DrawRequest drawRequest; SpriteDrawItem sprite; drawRequest.x = x; drawRequest.y = y; drawRequest.baseColor = _vm->_palette->findFragment(fragmentId) & 0xFF; drawRequest.resIndex = resIndex; drawRequest.flags = flags; drawRequest.scaling = 0; if (createSpriteDrawItem(drawRequest, sprite)) { sprite.x -= _vm->_cameraX; sprite.y -= _vm->_cameraY; drawSprite(sprite); } } void Screen::updateVerbLine(int16 slotIndex, int16 slotOffset) { debug(0, "Screen::updateVerbLine() _verbLineNum = %d; _verbLineX = %d; _verbLineY = %d; _verbLineWidth = %d; _verbLineCount = %d", _verbLineNum, _verbLineX, _verbLineY, _verbLineWidth, _verbLineCount); Font font(_vm->_res->load(_fontResIndexArray[0])->data); _verbLineItems[_verbLineNum].slotIndex = slotIndex; _verbLineItems[_verbLineNum].slotOffset = slotOffset; // First clear the line int16 y = _verbLineY; for (int16 i = 0; i < _verbLineCount; i++) { byte *dest = _frontScreen + _verbLineX - _verbLineWidth / 2 + (y - 1 + _vm->_cameraHeight) * 640; for (int16 j = 0; j < 20; j++) { memset(dest, 0xE0, _verbLineWidth); dest += 640; } y += 18; } GuiTextWrapState wrapState; int16 len = 0; wrapState.width = 0; wrapState.destString = wrapState.textBuffer; wrapState.len1 = 0; wrapState.len2 = 0; y = _verbLineY; memset(wrapState.textBuffer, 0, sizeof(wrapState.textBuffer)); for (int16 i = 0; i <= _verbLineNum; i++) { wrapState.sourceString = _vm->_script->getSlotData(_verbLineItems[i].slotIndex) + _verbLineItems[i].slotOffset; len = wrapGuiText(_fontResIndexArray[0], _verbLineWidth, wrapState); wrapState.len1 += len; } if (_verbLineCount != 1) { int16 charWidth = 0; if (*wrapState.sourceString < 0xF0) { while (*wrapState.sourceString > 0x20 && *wrapState.sourceString < 0xF0 && len > 0) { byte ch = *wrapState.sourceString--; wrapState.len1--; len--; charWidth = font.getCharWidth(ch) + font.getSpacing() - 1; wrapState.width -= charWidth; } wrapState.width += charWidth; wrapState.sourceString++; wrapState.len1 -= len; wrapState.len2 = len + 1; drawGuiText(_verbLineX - 1 - (wrapState.width / 2), y, 0xF9, 0xFF, _fontResIndexArray[0], wrapState); wrapState.destString = wrapState.textBuffer; wrapState.width = 0; len = wrapGuiText(_fontResIndexArray[0], _verbLineWidth, wrapState); wrapState.len1 += len; y += 9; } y += 9; } wrapState.len1 -= len; wrapState.len2 = len; drawGuiText(_verbLineX - 1 - (wrapState.width / 2), y, 0xF9, 0xFF, _fontResIndexArray[0], wrapState); _guiRefresh = true; } void Screen::updateTalkText(int16 slotIndex, int16 slotOffset) { int16 x, y, maxWidth, width, length; byte durationModifier = 1; byte *textData = _vm->_script->getSlotData(slotIndex) + slotOffset; TalkTextItem *item = &_talkTextItems[_talkTextItemNum]; item->fontNum = 0; item->color = _talkTextFontColor; x = CLIP(_talkTextX - _vm->_cameraX, 120, _talkTextMaxWidth); y = CLIP(_talkTextY - _vm->_cameraY, 4, _vm->_cameraHeight - 16); maxWidth = 624 - ABS(x - 320) * 2; while (1) { if (*textData == 0x0A) { x = CLIP(READ_LE_UINT16(&textData[3]), 120, _talkTextMaxWidth); y = CLIP(READ_LE_UINT16(&textData[1]), 4, _vm->_cameraHeight - 16); maxWidth = 624 - ABS(x - 320) * 2; textData += 4; } else if (*textData == 0x14) { item->color = ((textData[1] << 4) & 0xF0) | ((textData[1] >> 4) & 0x0F); textData += 2; } else if (*textData == 0x19) { durationModifier = textData[1]; textData += 2; } else if (*textData < 0x0A) { item->fontNum = textData[0]; // FIXME: Some texts request a font which isn't registered so we change it to a font that is if (_fontResIndexArray[item->fontNum] == 0) item->fontNum = 0; textData += 1; } else break; } item->slotIndex = slotIndex; item->slotOffset = textData - _vm->_script->getSlotData(slotIndex); width = 0; length = 0; item->duration = 0; item->lineCount = 0; Font font(_vm->_res->load(_fontResIndexArray[item->fontNum])->data); int16 wordLength, wordWidth; while (*textData < 0xF0) { if (*textData == 0x1E) { textData++; addTalkTextRect(font, x, y, length, width, item); width = 0; length = 0; } else { wordLength = 0; wordWidth = 0; while (*textData >= 0x20 && *textData < 0xF0) { byte ch = *textData++; wordLength++; if (ch == 0x20) { wordWidth += font.getWidth(); break; } else { wordWidth += font.getCharWidth(ch) + font.getSpacing() - 1; } } if (width + wordWidth > maxWidth + font.getWidth()) { addTalkTextRect(font, x, y, length, width, item); width = wordWidth; length = wordLength; } else { width += wordWidth; length += wordLength; } } } addTalkTextRect(font, x, y, length, width, item); if (item->lineCount > 0) { int16 ysub = (font.getHeight() - 1) * item->lineCount; if (item->lines[0].y - 4 < ysub) ysub = item->lines[0].y - 4; for (int16 l = 0; l < item->lineCount; l++) item->lines[l].y -= ysub; } int16 textDurationMultiplier = item->duration + 8; // TODO: Check sound/text flags if (*textData == 0xFE) { //textDurationMultiplier += 100; } item->duration = 4 * textDurationMultiplier * durationModifier; } void Screen::addTalkTextRect(Font &font, int16 x, int16 &y, int16 length, int16 width, TalkTextItem *item) { if (width > 0) { TextRect *textRect = &item->lines[item->lineCount]; width = width + 1 - font.getSpacing(); textRect->width = width; item->duration += length; textRect->length = length; textRect->y = y; textRect->x = CLIP(x - width / 2, 0, 640); item->lineCount++; } y += font.getHeight() - 1; } void Screen::addTalkTextItemsToRenderQueue() { for (int16 i = 0; i <= _talkTextItemNum; i++) { TalkTextItem *item = &_talkTextItems[i]; byte *text = _vm->_script->getSlotData(item->slotIndex) + item->slotOffset; if (item->fontNum == -1 || item->duration == 0) continue; item->duration -= _vm->_counter01; if (item->duration < 0) item->duration = 0; for (byte j = 0; j < item->lineCount; j++) { _renderQueue->addText(item->lines[j].x, item->lines[j].y, item->color, _fontResIndexArray[item->fontNum], text, item->lines[j].length); text += item->lines[j].length; } } } int16 Screen::getTalkTextDuration() { return _talkTextItems[_talkTextItemNum].duration; } void Screen::finishTalkTextItems() { for (int16 i = 0; i <= _talkTextItemNum; i++) { _talkTextItems[i].duration = 0; } } void Screen::keepTalkTextItemsAlive() { for (int16 i = 0; i <= _talkTextItemNum; i++) { TalkTextItem *item = &_talkTextItems[i]; if (item->fontNum == -1) item->duration = 0; else if (item->duration > 0) item->duration = 2; } } void Screen::registerFont(uint fontIndex, uint resIndex) { _fontResIndexArray[fontIndex] = resIndex; } void Screen::drawGuiTextMulti(byte *textData) { int16 x = 0, y = 0; // Really strange stuff. for (int i = 30; i >= 0; i--) { if (textData[i] >= 0xF0) break; if (i == 0) return; } GuiTextWrapState wrapState; wrapState.sourceString = textData; do { if (*wrapState.sourceString == 0x0A) { // Set text position y = wrapState.sourceString[1]; x = READ_LE_UINT32(wrapState.sourceString + 2); wrapState.sourceString += 4; } else if (*wrapState.sourceString == 0x0B) { // Inc text position y += wrapState.sourceString[1]; x += wrapState.sourceString[2]; wrapState.sourceString += 3; } else { wrapState.destString = wrapState.textBuffer; wrapState.width = 0; wrapState.len1 = 0; wrapState.len2 = wrapGuiText(_fontResIndexArray[1], 640, wrapState); drawGuiText(x - wrapState.width / 2, y, _fontColor1, _fontColor2, _fontResIndexArray[1], wrapState); } } while (*wrapState.sourceString != 0xFF); _guiRefresh = true; } int16 Screen::wrapGuiText(uint fontResIndex, int maxWidth, GuiTextWrapState &wrapState) { Font font(_vm->_res->load(fontResIndex)->data); int16 len = 0; while (*wrapState.sourceString >= 0x20 && *wrapState.sourceString < 0xF0) { byte ch = *wrapState.sourceString; byte charWidth; if (ch <= 0x20) charWidth = font.getWidth(); else charWidth = font.getCharWidth(ch) + font.getSpacing() - 1; if (wrapState.width + charWidth >= maxWidth) break; len++; wrapState.width += charWidth; *wrapState.destString++ = *wrapState.sourceString++; } return len; } void Screen::drawGuiText(int16 x, int16 y, byte fontColor1, byte fontColor2, uint fontResIndex, GuiTextWrapState &wrapState) { debug(0, "Screen::drawGuiText(%d, %d, %d, %d, %d) wrapState.len1 = %d; wrapState.len2 = %d", x, y, fontColor1, fontColor2, fontResIndex, wrapState.len1, wrapState.len2); int16 ywobble = 1; x = drawString(x + 1, y + _vm->_cameraHeight, fontColor1, fontResIndex, wrapState.textBuffer, wrapState.len1, &ywobble, false); x = drawString(x, y + _vm->_cameraHeight, fontColor2, fontResIndex, wrapState.textBuffer + wrapState.len1, wrapState.len2, &ywobble, false); } int16 Screen::drawString(int16 x, int16 y, byte color, uint fontResIndex, const byte *text, int len, int16 *ywobble, bool outline) { //debug(0, "Screen::drawString(%d, %d, %d, %d)", x, y, color, fontResIndex); Font font(_vm->_res->load(fontResIndex)->data); if (len == -1) len = strlen((const char*)text); int16 yadd = 0; if (ywobble) yadd = *ywobble; while (len--) { byte ch = *text++; if (ch <= 0x20) { x += font.getWidth(); } else { drawChar(font, _frontScreen, x, y - yadd, ch, color, outline); x += font.getCharWidth(ch) + font.getSpacing() - 1; yadd = -yadd; } } if (ywobble) *ywobble = yadd; return x; } void Screen::drawChar(const Font &font, byte *dest, int16 x, int16 y, byte ch, byte color, bool outline) { int16 charWidth, charHeight; byte *charData; dest += x + y * 640; charWidth = font.getCharWidth(ch); //charHeight = font.getHeight() - 2;//Why was this here?! charHeight = font.getHeight(); charData = font.getCharData(ch); while (charHeight--) { byte lineWidth = charWidth; while (lineWidth > 0) { byte count = charData[0] & 0x0F; byte flags = charData[0] & 0xF0; charData++; if ((flags & 0x80) == 0) { if (flags & 0x10) { memset(dest, color, count); } else if (outline) { memset(dest, 0, count); } } dest += count; lineWidth -= count; } dest += 640 - charWidth; } } void Screen::drawSurface(int16 x, int16 y, Graphics::Surface *surface) { int16 skipX = 0; int16 width = surface->w; int16 height = surface->h; byte *surfacePixels = (byte*)surface->getBasePtr(0, 0); byte *frontScreen; // Not on screen, skip if (x + width < 0 || y + height < 0 || x >= 640 || y >= _vm->_cameraHeight) return; if (x < 0) { skipX = -x; x = 0; width -= skipX; } if (y < 0) { int16 skipY = -y; surfacePixels += surface->w * skipY; y = 0; height -= skipY; } if (x + width >= 640) { width -= x + width - 640; } if (y + height >= _vm->_cameraHeight) { height -= y + height - _vm->_cameraHeight; } frontScreen = _vm->_screen->_frontScreen + x + (y * 640); for (int16 h = 0; h < height; h++) { surfacePixels += skipX; for (int16 w = 0; w < width; w++) { if (*surfacePixels != 0xFF) *frontScreen = *surfacePixels; frontScreen++; surfacePixels++; } frontScreen += 640 - width; surfacePixels += surface->w - width - skipX; } } void Screen::saveState(Common::WriteStream *out) { // Save verb line out->writeUint16LE(_verbLineNum); out->writeUint16LE(_verbLineX); out->writeUint16LE(_verbLineY); out->writeUint16LE(_verbLineWidth); out->writeUint16LE(_verbLineCount); for (int i = 0; i < 8; i++) { out->writeUint16LE(_verbLineItems[i].slotIndex); out->writeUint16LE(_verbLineItems[i].slotOffset); } // Save talk text items out->writeUint16LE(_talkTextX); out->writeUint16LE(_talkTextY); out->writeUint16LE(_talkTextMaxWidth); out->writeByte(_talkTextFontColor); out->writeUint16LE(_talkTextItemNum); for (int i = 0; i < 5; i++) { out->writeUint16LE(_talkTextItems[i].duration); out->writeUint16LE(_talkTextItems[i].slotIndex); out->writeUint16LE(_talkTextItems[i].slotOffset); out->writeUint16LE(_talkTextItems[i].fontNum); out->writeByte(_talkTextItems[i].color); out->writeByte(_talkTextItems[i].lineCount); for (int j = 0; j < _talkTextItems[i].lineCount; j++) { out->writeUint16LE(_talkTextItems[i].lines[j].x); out->writeUint16LE(_talkTextItems[i].lines[j].y); out->writeUint16LE(_talkTextItems[i].lines[j].width); out->writeUint16LE(_talkTextItems[i].lines[j].length); } } // Save GUI bitmap { byte *gui = _frontScreen + _vm->_cameraHeight * 640; for (int i = 0; i < _vm->_guiHeight; i++) { out->write(gui, 640); gui += 640; } } // Save fonts for (int i = 0; i < 10; i++) out->writeUint32LE(_fontResIndexArray[i]); out->writeByte(_fontColor1); out->writeByte(_fontColor2); } void Screen::loadState(Common::ReadStream *in) { // Load verb line _verbLineNum = in->readUint16LE(); _verbLineX = in->readUint16LE(); _verbLineY = in->readUint16LE(); _verbLineWidth = in->readUint16LE(); _verbLineCount = in->readUint16LE(); for (int i = 0; i < 8; i++) { _verbLineItems[i].slotIndex = in->readUint16LE(); _verbLineItems[i].slotOffset = in->readUint16LE(); } // Load talk text items _talkTextX = in->readUint16LE(); _talkTextY = in->readUint16LE(); _talkTextMaxWidth = in->readUint16LE(); _talkTextFontColor = in->readByte(); _talkTextItemNum = in->readUint16LE(); for (int i = 0; i < 5; i++) { _talkTextItems[i].duration = in->readUint16LE(); _talkTextItems[i].slotIndex = in->readUint16LE(); _talkTextItems[i].slotOffset = in->readUint16LE(); _talkTextItems[i].fontNum = in->readUint16LE(); _talkTextItems[i].color = in->readByte(); _talkTextItems[i].lineCount = in->readByte(); for (int j = 0; j < _talkTextItems[i].lineCount; j++) { _talkTextItems[i].lines[j].x = in->readUint16LE(); _talkTextItems[i].lines[j].y = in->readUint16LE(); _talkTextItems[i].lines[j].width = in->readUint16LE(); _talkTextItems[i].lines[j].length = in->readUint16LE(); } } // Load GUI bitmap { byte *gui = _frontScreen + _vm->_cameraHeight * 640; for (int i = 0; i < _vm->_guiHeight; i++) { in->read(gui, 640); gui += 640; } _guiRefresh = true; } // Load fonts for (int i = 0; i < 10; i++) _fontResIndexArray[i] = in->readUint32LE(); _fontColor1 = in->readByte(); _fontColor2 = in->readByte(); } } // End of namespace Toltecs