/* 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 "common/algorithm.h" #include "common/events.h" #include "common/keyboard.h" #include "common/list_intern.h" #include "common/str.h" #include "common/system.h" #include "common/textconsole.h" #include "engines/engine.h" #include "graphics/palette.h" #include "graphics/surface.h" #include "sci/sci.h" #include "sci/console.h" #include "sci/engine/kernel.h" #include "sci/engine/state.h" #include "sci/engine/selector.h" #include "sci/engine/vm.h" #include "sci/graphics/cache.h" #include "sci/graphics/coordadjuster.h" #include "sci/graphics/compare.h" #include "sci/graphics/font.h" #include "sci/graphics/view.h" #include "sci/graphics/screen.h" #include "sci/graphics/paint32.h" #include "sci/graphics/palette.h" #include "sci/graphics/picture.h" #include "sci/graphics/text32.h" #include "sci/graphics/frameout.h" #include "sci/video/robot_decoder.h" namespace Sci { // TODO/FIXME: This is all guesswork enum SciSpeciaPlanelPictureCodes { kPlaneTranslucent = 0xfffe, // -2 kPlanePlainColored = 0xffff // -1 }; GfxFrameout::GfxFrameout(SegManager *segMan, ResourceManager *resMan, GfxCoordAdjuster *coordAdjuster, GfxCache *cache, GfxScreen *screen, GfxPalette *palette, GfxPaint32 *paint32) : _segMan(segMan), _resMan(resMan), _cache(cache), _screen(screen), _palette(palette), _paint32(paint32) { _coordAdjuster = (GfxCoordAdjuster32 *)coordAdjuster; _curScrollText = -1; _showScrollText = false; _maxScrollTexts = 0; } GfxFrameout::~GfxFrameout() { clear(); } void GfxFrameout::clear() { deletePlaneItems(NULL_REG); _planes.clear(); deletePlanePictures(NULL_REG); clearScrollTexts(); } void GfxFrameout::clearScrollTexts() { _scrollTexts.clear(); _curScrollText = -1; } void GfxFrameout::addScrollTextEntry(Common::String &text, reg_t kWindow, uint16 x, uint16 y, bool replace) { //reg_t bitmapHandle = g_sci->_gfxText32->createScrollTextBitmap(text, kWindow); // HACK: We set the container dimensions manually reg_t bitmapHandle = g_sci->_gfxText32->createScrollTextBitmap(text, kWindow, 480, 70); ScrollTextEntry textEntry; textEntry.bitmapHandle = bitmapHandle; textEntry.kWindow = kWindow; textEntry.x = x; textEntry.y = y; if (!replace || _scrollTexts.size() == 0) { if (_scrollTexts.size() > _maxScrollTexts) { _scrollTexts.remove_at(0); _curScrollText--; } _scrollTexts.push_back(textEntry); _curScrollText++; } else { _scrollTexts.pop_back(); _scrollTexts.push_back(textEntry); } } void GfxFrameout::showCurrentScrollText() { if (!_showScrollText || _curScrollText < 0) return; uint16 size = (uint16)_scrollTexts.size(); if (size > 0) { assert(_curScrollText < size); ScrollTextEntry textEntry = _scrollTexts[_curScrollText]; g_sci->_gfxText32->drawScrollTextBitmap(textEntry.kWindow, textEntry.bitmapHandle, textEntry.x, textEntry.y); } } extern void showScummVMDialog(const Common::String &message); void GfxFrameout::kernelAddPlane(reg_t object) { PlaneEntry newPlane; if (_planes.empty()) { // There has to be another way for sierra sci to do this or maybe script resolution is compiled into // interpreter (TODO) uint16 scriptWidth = readSelectorValue(_segMan, object, SELECTOR(resX)); uint16 scriptHeight = readSelectorValue(_segMan, object, SELECTOR(resY)); // Phantasmagoria 2 doesn't specify a script width/height if (g_sci->getGameId() == GID_PHANTASMAGORIA2) { scriptWidth = 640; scriptHeight = 480; } assert(scriptWidth > 0 && scriptHeight > 0); _coordAdjuster->setScriptsResolution(scriptWidth, scriptHeight); } // Import of QfG character files dialog is shown in QFG4. // Display additional popup information before letting user use it. // For the SCI0-SCI1.1 version of this, check kDrawControl(). if (g_sci->inQfGImportRoom() && !strcmp(_segMan->getObjectName(object), "DSPlane")) { showScummVMDialog("Characters saved inside ScummVM are shown " "automatically. Character files saved in the original " "interpreter need to be put inside ScummVM's saved games " "directory and a prefix needs to be added depending on which " "game it was saved in: 'qfg1-' for Quest for Glory 1, 'qfg2-' " "for Quest for Glory 2, 'qfg3-' for Quest for Glory 3. " "Example: 'qfg2-thief.sav'."); } newPlane.object = object; newPlane.priority = readSelectorValue(_segMan, object, SELECTOR(priority)); newPlane.lastPriority = -1; // hidden newPlane.planeOffsetX = 0; newPlane.planeOffsetY = 0; newPlane.pictureId = kPlanePlainColored; newPlane.planePictureMirrored = false; newPlane.planeBack = 0; _planes.push_back(newPlane); kernelUpdatePlane(object); } void GfxFrameout::kernelUpdatePlane(reg_t object) { for (PlaneList::iterator it = _planes.begin(); it != _planes.end(); ++it) { if (it->object == object) { // Read some information it->priority = readSelectorValue(_segMan, object, SELECTOR(priority)); GuiResourceId lastPictureId = it->pictureId; it->pictureId = readSelectorValue(_segMan, object, SELECTOR(picture)); if (lastPictureId != it->pictureId) { // picture got changed, load new picture deletePlanePictures(object); // Draw the plane's picture if it's not a translucent/plane colored frame if ((it->pictureId != kPlanePlainColored) && (it->pictureId != kPlaneTranslucent)) { // SQ6 gives us a bad picture number for the control menu if (_resMan->testResource(ResourceId(kResourceTypePic, it->pictureId))) addPlanePicture(object, it->pictureId, 0); } } it->planeRect.top = readSelectorValue(_segMan, object, SELECTOR(top)); it->planeRect.left = readSelectorValue(_segMan, object, SELECTOR(left)); it->planeRect.bottom = readSelectorValue(_segMan, object, SELECTOR(bottom)); it->planeRect.right = readSelectorValue(_segMan, object, SELECTOR(right)); _coordAdjuster->fromScriptToDisplay(it->planeRect.top, it->planeRect.left); _coordAdjuster->fromScriptToDisplay(it->planeRect.bottom, it->planeRect.right); // We get negative left in kq7 in scrolling rooms if (it->planeRect.left < 0) { it->planeOffsetX = -it->planeRect.left; it->planeRect.left = 0; } else { it->planeOffsetX = 0; } if (it->planeRect.top < 0) { it->planeOffsetY = -it->planeRect.top; it->planeRect.top = 0; } else { it->planeOffsetY = 0; } // We get bad plane-bottom in sq6 if (it->planeRect.right > _screen->getWidth()) it->planeRect.right = _screen->getWidth(); if (it->planeRect.bottom > _screen->getHeight()) it->planeRect.bottom = _screen->getHeight(); it->planeClipRect = Common::Rect(it->planeRect.width(), it->planeRect.height()); it->upscaledPlaneRect = it->planeRect; it->upscaledPlaneClipRect = it->planeClipRect; if (_screen->getUpscaledHires()) { _screen->adjustToUpscaledCoordinates(it->upscaledPlaneRect.top, it->upscaledPlaneRect.left); _screen->adjustToUpscaledCoordinates(it->upscaledPlaneRect.bottom, it->upscaledPlaneRect.right); _screen->adjustToUpscaledCoordinates(it->upscaledPlaneClipRect.top, it->upscaledPlaneClipRect.left); _screen->adjustToUpscaledCoordinates(it->upscaledPlaneClipRect.bottom, it->upscaledPlaneClipRect.right); } it->planePictureMirrored = readSelectorValue(_segMan, object, SELECTOR(mirrored)); it->planeBack = readSelectorValue(_segMan, object, SELECTOR(back)); sortPlanes(); // Update the items in the plane for (FrameoutList::iterator listIterator = _screenItems.begin(); listIterator != _screenItems.end(); listIterator++) { reg_t itemPlane = readSelector(_segMan, (*listIterator)->object, SELECTOR(plane)); if (object == itemPlane) { kernelUpdateScreenItem((*listIterator)->object); } } return; } } error("kUpdatePlane called on plane that wasn't added before"); } void GfxFrameout::kernelDeletePlane(reg_t object) { deletePlaneItems(object); deletePlanePictures(object); for (PlaneList::iterator it = _planes.begin(); it != _planes.end(); ++it) { if (it->object == object) { _planes.erase(it); Common::Rect planeRect; planeRect.top = readSelectorValue(_segMan, object, SELECTOR(top)); planeRect.left = readSelectorValue(_segMan, object, SELECTOR(left)); planeRect.bottom = readSelectorValue(_segMan, object, SELECTOR(bottom)); planeRect.right = readSelectorValue(_segMan, object, SELECTOR(right)); _coordAdjuster->fromScriptToDisplay(planeRect.top, planeRect.left); _coordAdjuster->fromScriptToDisplay(planeRect.bottom, planeRect.right); // Blackout removed plane rect _paint32->fillRect(planeRect, 0); return; } } } void GfxFrameout::addPlanePicture(reg_t object, GuiResourceId pictureId, uint16 startX, uint16 startY) { if (pictureId == kPlanePlainColored || pictureId == kPlaneTranslucent) // sanity check return; PlanePictureEntry newPicture; newPicture.object = object; newPicture.pictureId = pictureId; newPicture.picture = new GfxPicture(_resMan, _coordAdjuster, 0, _screen, _palette, pictureId, false); newPicture.startX = startX; newPicture.startY = startY; newPicture.pictureCels = 0; _planePictures.push_back(newPicture); } void GfxFrameout::deletePlanePictures(reg_t object) { PlanePictureList::iterator it = _planePictures.begin(); while (it != _planePictures.end()) { if (it->object == object || object.isNull()) { delete it->pictureCels; delete it->picture; it = _planePictures.erase(it); } else { ++it; } } } // Provides the same functionality as kGraph(DrawLine) reg_t GfxFrameout::addPlaneLine(reg_t object, Common::Point startPoint, Common::Point endPoint, byte color, byte priority, byte control) { for (PlaneList::iterator it = _planes.begin(); it != _planes.end(); ++it) { if (it->object == object) { PlaneLineEntry line; line.hunkId = _segMan->allocateHunkEntry("PlaneLine()", 1); // we basically use this for a unique ID line.startPoint = startPoint; line.endPoint = endPoint; line.color = color; line.priority = priority; line.control = control; it->lines.push_back(line); return line.hunkId; } } return NULL_REG; } void GfxFrameout::updatePlaneLine(reg_t object, reg_t hunkId, Common::Point startPoint, Common::Point endPoint, byte color, byte priority, byte control) { // Check if we're asked to update a line that was never added if (hunkId.isNull()) return; for (PlaneList::iterator it = _planes.begin(); it != _planes.end(); ++it) { if (it->object == object) { for (PlaneLineList::iterator it2 = it->lines.begin(); it2 != it->lines.end(); ++it2) { if (it2->hunkId == hunkId) { it2->startPoint = startPoint; it2->endPoint = endPoint; it2->color = color; it2->priority = priority; it2->control = control; return; } } } } } void GfxFrameout::deletePlaneLine(reg_t object, reg_t hunkId) { // Check if we're asked to delete a line that was never added (happens during the intro of LSL6) if (hunkId.isNull()) return; for (PlaneList::iterator it = _planes.begin(); it != _planes.end(); ++it) { if (it->object == object) { for (PlaneLineList::iterator it2 = it->lines.begin(); it2 != it->lines.end(); ++it2) { if (it2->hunkId == hunkId) { _segMan->freeHunkEntry(hunkId); it2 = it->lines.erase(it2); return; } } } } } // Adapted from GfxAnimate::applyGlobalScaling() void GfxFrameout::applyGlobalScaling(FrameoutEntry *itemEntry, Common::Rect planeRect, int16 celHeight) { // Global scaling uses global var 2 and some other stuff to calculate scaleX/scaleY int16 maxScale = readSelectorValue(_segMan, itemEntry->object, SELECTOR(maxScale)); int16 maxCelHeight = (maxScale * celHeight) >> 7; reg_t globalVar2 = g_sci->getEngineState()->variables[VAR_GLOBAL][2]; // current room object int16 vanishingY = readSelectorValue(_segMan, globalVar2, SELECTOR(vanishingY)); int16 fixedPortY = planeRect.bottom - vanishingY; int16 fixedEntryY = itemEntry->y - vanishingY; if (!fixedEntryY) fixedEntryY = 1; if ((celHeight == 0) || (fixedPortY == 0)) error("global scaling panic"); itemEntry->scaleY = (maxCelHeight * fixedEntryY) / fixedPortY; itemEntry->scaleY = (itemEntry->scaleY * maxScale) / celHeight; // Make sure that the calculated value is sane if (itemEntry->scaleY < 1 /*|| itemEntry->scaleY > 128*/) itemEntry->scaleY = 128; itemEntry->scaleX = itemEntry->scaleY; // and set objects scale selectors //writeSelectorValue(_segMan, itemEntry->object, SELECTOR(scaleX), itemEntry->scaleX); //writeSelectorValue(_segMan, itemEntry->object, SELECTOR(scaleY), itemEntry->scaleY); } void GfxFrameout::kernelAddScreenItem(reg_t object) { // Ignore invalid items if (!_segMan->isObject(object)) { warning("kernelAddScreenItem: Attempt to add an invalid object (%04x:%04x)", PRINT_REG(object)); return; } FrameoutEntry *itemEntry = new FrameoutEntry(); memset(itemEntry, 0, sizeof(FrameoutEntry)); itemEntry->object = object; itemEntry->givenOrderNr = _screenItems.size(); itemEntry->visible = true; _screenItems.push_back(itemEntry); kernelUpdateScreenItem(object); } void GfxFrameout::kernelUpdateScreenItem(reg_t object) { // Ignore invalid items if (!_segMan->isObject(object)) { warning("kernelUpdateScreenItem: Attempt to update an invalid object (%04x:%04x)", PRINT_REG(object)); return; } FrameoutEntry *itemEntry = findScreenItem(object); if (!itemEntry) { warning("kernelUpdateScreenItem: invalid object %04x:%04x", PRINT_REG(object)); return; } itemEntry->viewId = readSelectorValue(_segMan, object, SELECTOR(view)); itemEntry->loopNo = readSelectorValue(_segMan, object, SELECTOR(loop)); itemEntry->celNo = readSelectorValue(_segMan, object, SELECTOR(cel)); itemEntry->x = readSelectorValue(_segMan, object, SELECTOR(x)); itemEntry->y = readSelectorValue(_segMan, object, SELECTOR(y)); itemEntry->z = readSelectorValue(_segMan, object, SELECTOR(z)); itemEntry->priority = readSelectorValue(_segMan, object, SELECTOR(priority)); if (readSelectorValue(_segMan, object, SELECTOR(fixPriority)) == 0) itemEntry->priority = itemEntry->y; itemEntry->signal = readSelectorValue(_segMan, object, SELECTOR(signal)); itemEntry->scaleSignal = readSelectorValue(_segMan, object, SELECTOR(scaleSignal)); if (itemEntry->scaleSignal & kScaleSignalDoScaling32) { itemEntry->scaleX = readSelectorValue(_segMan, object, SELECTOR(scaleX)); itemEntry->scaleY = readSelectorValue(_segMan, object, SELECTOR(scaleY)); } else { itemEntry->scaleX = 128; itemEntry->scaleY = 128; } itemEntry->visible = true; // Check if the entry can be hidden if (lookupSelector(_segMan, object, SELECTOR(visible), NULL, NULL) != kSelectorNone) itemEntry->visible = readSelectorValue(_segMan, object, SELECTOR(visible)); } void GfxFrameout::kernelDeleteScreenItem(reg_t object) { FrameoutEntry *itemEntry = findScreenItem(object); // If the item could not be found, it may already have been deleted if (!itemEntry) return; _screenItems.remove(itemEntry); delete itemEntry; } void GfxFrameout::deletePlaneItems(reg_t planeObject) { FrameoutList::iterator listIterator = _screenItems.begin(); while (listIterator != _screenItems.end()) { bool objectMatches = false; if (!planeObject.isNull()) { reg_t itemPlane = readSelector(_segMan, (*listIterator)->object, SELECTOR(plane)); objectMatches = (planeObject == itemPlane); } else { objectMatches = true; } if (objectMatches) { FrameoutEntry *itemEntry = *listIterator; listIterator = _screenItems.erase(listIterator); delete itemEntry; } else { ++listIterator; } } } FrameoutEntry *GfxFrameout::findScreenItem(reg_t object) { for (FrameoutList::iterator listIterator = _screenItems.begin(); listIterator != _screenItems.end(); listIterator++) { FrameoutEntry *itemEntry = *listIterator; if (itemEntry->object == object) return itemEntry; } return NULL; } int16 GfxFrameout::kernelGetHighPlanePri() { sortPlanes(); return readSelectorValue(g_sci->getEngineState()->_segMan, _planes.back().object, SELECTOR(priority)); } void GfxFrameout::kernelAddPicAt(reg_t planeObj, GuiResourceId pictureId, int16 pictureX, int16 pictureY) { addPlanePicture(planeObj, pictureId, pictureX, pictureY); } bool sortHelper(const FrameoutEntry* entry1, const FrameoutEntry* entry2) { if (entry1->priority == entry2->priority) { if (entry1->y == entry2->y) return (entry1->givenOrderNr < entry2->givenOrderNr); return (entry1->y < entry2->y); } return (entry1->priority < entry2->priority); } bool planeSortHelper(const PlaneEntry &entry1, const PlaneEntry &entry2) { if (entry1.priority < 0) return true; if (entry2.priority < 0) return false; return entry1.priority < entry2.priority; } void GfxFrameout::sortPlanes() { // First, remove any invalid planes for (PlaneList::iterator it = _planes.begin(); it != _planes.end();) { if (!_segMan->isObject(it->object)) it = _planes.erase(it); else it++; } // Sort the rest of them Common::sort(_planes.begin(), _planes.end(), planeSortHelper); } void GfxFrameout::showVideo() { bool skipVideo = false; RobotDecoder *videoDecoder = g_sci->_robotDecoder; uint16 x = videoDecoder->getPos().x; uint16 y = videoDecoder->getPos().y; if (videoDecoder->hasDirtyPalette()) g_system->getPaletteManager()->setPalette(videoDecoder->getPalette(), 0, 256); while (!g_engine->shouldQuit() && !videoDecoder->endOfVideo() && !skipVideo) { if (videoDecoder->needsUpdate()) { const Graphics::Surface *frame = videoDecoder->decodeNextFrame(); if (frame) { g_system->copyRectToScreen(frame->getPixels(), frame->pitch, x, y, frame->w, frame->h); if (videoDecoder->hasDirtyPalette()) g_system->getPaletteManager()->setPalette(videoDecoder->getPalette(), 0, 256); g_system->updateScreen(); } } Common::Event event; while (g_system->getEventManager()->pollEvent(event)) { if ((event.type == Common::EVENT_KEYDOWN && event.kbd.keycode == Common::KEYCODE_ESCAPE) || event.type == Common::EVENT_LBUTTONUP) skipVideo = true; } g_system->delayMillis(10); } } void GfxFrameout::createPlaneItemList(reg_t planeObject, FrameoutList &itemList) { // Copy screen items of the current frame to the list of items to be drawn for (FrameoutList::iterator listIterator = _screenItems.begin(); listIterator != _screenItems.end(); listIterator++) { reg_t itemPlane = readSelector(_segMan, (*listIterator)->object, SELECTOR(plane)); if (planeObject == itemPlane) { kernelUpdateScreenItem((*listIterator)->object); // TODO: Why is this necessary? itemList.push_back(*listIterator); } } for (PlanePictureList::iterator pictureIt = _planePictures.begin(); pictureIt != _planePictures.end(); pictureIt++) { if (pictureIt->object == planeObject) { GfxPicture *planePicture = pictureIt->picture; // Allocate memory for picture cels pictureIt->pictureCels = new FrameoutEntry[planePicture->getSci32celCount()]; // Add following cels to the itemlist FrameoutEntry *picEntry = pictureIt->pictureCels; int planePictureCels = planePicture->getSci32celCount(); for (int pictureCelNr = 0; pictureCelNr < planePictureCels; pictureCelNr++) { picEntry->celNo = pictureCelNr; picEntry->object = NULL_REG; picEntry->picture = planePicture; picEntry->y = planePicture->getSci32celY(pictureCelNr); picEntry->x = planePicture->getSci32celX(pictureCelNr); picEntry->picStartX = pictureIt->startX; picEntry->picStartY = pictureIt->startY; picEntry->visible = true; picEntry->priority = planePicture->getSci32celPriority(pictureCelNr); itemList.push_back(picEntry); picEntry++; } } } // Now sort our itemlist Common::sort(itemList.begin(), itemList.end(), sortHelper); } bool GfxFrameout::isPictureOutOfView(FrameoutEntry *itemEntry, Common::Rect planeRect, int16 planeOffsetX, int16 planeOffsetY) { // Out of view horizontally (sanity checks) int16 pictureCelStartX = itemEntry->picStartX + itemEntry->x; int16 pictureCelEndX = pictureCelStartX + itemEntry->picture->getSci32celWidth(itemEntry->celNo); int16 planeStartX = planeOffsetX; int16 planeEndX = planeStartX + planeRect.width(); if (pictureCelEndX < planeStartX) return true; if (pictureCelStartX > planeEndX) return true; // Out of view vertically (sanity checks) int16 pictureCelStartY = itemEntry->picStartY + itemEntry->y; int16 pictureCelEndY = pictureCelStartY + itemEntry->picture->getSci32celHeight(itemEntry->celNo); int16 planeStartY = planeOffsetY; int16 planeEndY = planeStartY + planeRect.height(); if (pictureCelEndY < planeStartY) return true; if (pictureCelStartY > planeEndY) return true; return false; } void GfxFrameout::drawPicture(FrameoutEntry *itemEntry, int16 planeOffsetX, int16 planeOffsetY, bool planePictureMirrored) { int16 pictureOffsetX = planeOffsetX; int16 pictureX = itemEntry->x; if ((planeOffsetX) || (itemEntry->picStartX)) { if (planeOffsetX <= itemEntry->picStartX) { pictureX += itemEntry->picStartX - planeOffsetX; pictureOffsetX = 0; } else { pictureOffsetX = planeOffsetX - itemEntry->picStartX; } } int16 pictureOffsetY = planeOffsetY; int16 pictureY = itemEntry->y; if ((planeOffsetY) || (itemEntry->picStartY)) { if (planeOffsetY <= itemEntry->picStartY) { pictureY += itemEntry->picStartY - planeOffsetY; pictureOffsetY = 0; } else { pictureOffsetY = planeOffsetY - itemEntry->picStartY; } } itemEntry->picture->drawSci32Vga(itemEntry->celNo, pictureX, itemEntry->y, pictureOffsetX, pictureOffsetY, planePictureMirrored); // warning("picture cel %d %d", itemEntry->celNo, itemEntry->priority); } void GfxFrameout::kernelFrameout() { if (g_sci->_robotDecoder->isVideoLoaded()) { showVideo(); return; } _palette->palVaryUpdate(); for (PlaneList::iterator it = _planes.begin(); it != _planes.end(); it++) { reg_t planeObject = it->object; // Draw any plane lines, if they exist // These are drawn on invisible planes as well. (e.g. "invisiblePlane" in LSL6 hires) // FIXME: Lines aren't always drawn (e.g. when the narrator speaks in LSL6 hires). // Perhaps something is painted over them? for (PlaneLineList::iterator it2 = it->lines.begin(); it2 != it->lines.end(); ++it2) { Common::Point startPoint = it2->startPoint; Common::Point endPoint = it2->endPoint; _coordAdjuster->kernelLocalToGlobal(startPoint.x, startPoint.y, it->object); _coordAdjuster->kernelLocalToGlobal(endPoint.x, endPoint.y, it->object); _screen->drawLine(startPoint, endPoint, it2->color, it2->priority, it2->control); } int16 planeLastPriority = it->lastPriority; // Update priority here, sq6 sets it w/o UpdatePlane int16 planePriority = it->priority = readSelectorValue(_segMan, planeObject, SELECTOR(priority)); it->lastPriority = planePriority; if (planePriority < 0) { // Plane currently not meant to be shown // If plane was shown before, delete plane rect if (planePriority != planeLastPriority) _paint32->fillRect(it->planeRect, 0); continue; } // There is a race condition lurking in SQ6, which causes the game to hang in the intro, when teleporting to Polysorbate LX. // Since I first wrote the patch, the race has stopped occurring for me though. // I'll leave this for investigation later, when someone can reproduce. //if (it->pictureId == kPlanePlainColored) // FIXME: This is what SSCI does, and fixes the intro of LSL7, but breaks the dialogs in GK1 (adds black boxes) if (it->pictureId == kPlanePlainColored && (it->planeBack || g_sci->getGameId() != GID_GK1)) _paint32->fillRect(it->planeRect, it->planeBack); _coordAdjuster->pictureSetDisplayArea(it->planeRect); // Invoking drewPicture() with an invalid picture ID in SCI32 results in // invalidating the palVary palette when a palVary effect is active. This // is quite obvious in QFG4, where the day time palette is incorrectly // shown when exiting the caves, and the correct night time palette // flashes briefly each time that kPalVaryInit is called. if (it->pictureId != 0xFFFF) _palette->drewPicture(it->pictureId); FrameoutList itemList; createPlaneItemList(planeObject, itemList); for (FrameoutList::iterator listIterator = itemList.begin(); listIterator != itemList.end(); listIterator++) { FrameoutEntry *itemEntry = *listIterator; if (!itemEntry->visible) continue; if (itemEntry->object.isNull()) { // Picture cel data _coordAdjuster->fromScriptToDisplay(itemEntry->y, itemEntry->x); _coordAdjuster->fromScriptToDisplay(itemEntry->picStartY, itemEntry->picStartX); if (!isPictureOutOfView(itemEntry, it->planeRect, it->planeOffsetX, it->planeOffsetY)) drawPicture(itemEntry, it->planeOffsetX, it->planeOffsetY, it->planePictureMirrored); } else { GfxView *view = (itemEntry->viewId != 0xFFFF) ? _cache->getView(itemEntry->viewId) : NULL; int16 dummyX = 0; if (view && view->isSci2Hires()) { view->adjustToUpscaledCoordinates(itemEntry->y, itemEntry->x); view->adjustToUpscaledCoordinates(itemEntry->z, dummyX); } else if (getSciVersion() >= SCI_VERSION_2_1) { _coordAdjuster->fromScriptToDisplay(itemEntry->y, itemEntry->x); _coordAdjuster->fromScriptToDisplay(itemEntry->z, dummyX); } // Adjust according to current scroll position itemEntry->x -= it->planeOffsetX; itemEntry->y -= it->planeOffsetY; uint16 useInsetRect = readSelectorValue(_segMan, itemEntry->object, SELECTOR(useInsetRect)); if (useInsetRect) { itemEntry->celRect.top = readSelectorValue(_segMan, itemEntry->object, SELECTOR(inTop)); itemEntry->celRect.left = readSelectorValue(_segMan, itemEntry->object, SELECTOR(inLeft)); itemEntry->celRect.bottom = readSelectorValue(_segMan, itemEntry->object, SELECTOR(inBottom)); itemEntry->celRect.right = readSelectorValue(_segMan, itemEntry->object, SELECTOR(inRight)); if (view && view->isSci2Hires()) { view->adjustToUpscaledCoordinates(itemEntry->celRect.top, itemEntry->celRect.left); view->adjustToUpscaledCoordinates(itemEntry->celRect.bottom, itemEntry->celRect.right); } itemEntry->celRect.translate(itemEntry->x, itemEntry->y); // TODO: maybe we should clip the cels rect with this, i'm not sure // the only currently known usage is game menu of gk1 } else if (view) { // Process global scaling, if needed. // TODO: Seems like SCI32 always processes global scaling for scaled objects // TODO: We can only process symmetrical scaling for now (i.e. same value for scaleX/scaleY) if ((itemEntry->scaleSignal & kScaleSignalDoScaling32) && !(itemEntry->scaleSignal & kScaleSignalDisableGlobalScaling32) && (itemEntry->scaleX == itemEntry->scaleY) && itemEntry->scaleX != 128) applyGlobalScaling(itemEntry, it->planeRect, view->getHeight(itemEntry->loopNo, itemEntry->celNo)); if ((itemEntry->scaleX == 128) && (itemEntry->scaleY == 128)) view->getCelRect(itemEntry->loopNo, itemEntry->celNo, itemEntry->x, itemEntry->y, itemEntry->z, itemEntry->celRect); else view->getCelScaledRect(itemEntry->loopNo, itemEntry->celNo, itemEntry->x, itemEntry->y, itemEntry->z, itemEntry->scaleX, itemEntry->scaleY, itemEntry->celRect); Common::Rect nsRect = itemEntry->celRect; // Translate back to actual coordinate within scrollable plane nsRect.translate(it->planeOffsetX, it->planeOffsetY); if (g_sci->getGameId() == GID_PHANTASMAGORIA2) { // HACK: Some (?) objects in Phantasmagoria 2 have no NS rect. Skip them for now. // TODO: Remove once we figure out how Phantasmagoria 2 draws objects on screen. if (lookupSelector(_segMan, itemEntry->object, SELECTOR(nsLeft), NULL, NULL) != kSelectorVariable) continue; } if (view && view->isSci2Hires()) { view->adjustBackUpscaledCoordinates(nsRect.top, nsRect.left); view->adjustBackUpscaledCoordinates(nsRect.bottom, nsRect.right); g_sci->_gfxCompare->setNSRect(itemEntry->object, nsRect); } else if (getSciVersion() >= SCI_VERSION_2_1 && _resMan->detectHires()) { _coordAdjuster->fromDisplayToScript(nsRect.top, nsRect.left); _coordAdjuster->fromDisplayToScript(nsRect.bottom, nsRect.right); g_sci->_gfxCompare->setNSRect(itemEntry->object, nsRect); } // TODO: For some reason, the top left nsRect coordinates get // swapped in the GK1 inventory screen, investigate why. // This is also needed for GK1 rooms 710 and 720 (catacombs, inner and // outer circle), for handling the tiles and talking to Wolfgang. // HACK: Fix the coordinates by explicitly setting them here for GK1. // Also check bug #6729, for another case where this is needed. if (g_sci->getGameId() == GID_GK1) g_sci->_gfxCompare->setNSRect(itemEntry->object, nsRect); } // Don't attempt to draw sprites that are outside the visible // screen area. An example is the random people walking in // Jackson Square in GK1. if (itemEntry->celRect.bottom < 0 || itemEntry->celRect.top >= _screen->getDisplayHeight() || itemEntry->celRect.right < 0 || itemEntry->celRect.left >= _screen->getDisplayWidth()) continue; Common::Rect clipRect, translatedClipRect; clipRect = itemEntry->celRect; if (view && view->isSci2Hires()) { clipRect.clip(it->upscaledPlaneClipRect); translatedClipRect = clipRect; translatedClipRect.translate(it->upscaledPlaneRect.left, it->upscaledPlaneRect.top); } else { // QFG4 passes invalid rectangles when a battle is starting if (!clipRect.isValidRect()) continue; clipRect.clip(it->planeClipRect); translatedClipRect = clipRect; translatedClipRect.translate(it->planeRect.left, it->planeRect.top); } if (view) { if (!clipRect.isEmpty()) { if ((itemEntry->scaleX == 128) && (itemEntry->scaleY == 128)) view->draw(itemEntry->celRect, clipRect, translatedClipRect, itemEntry->loopNo, itemEntry->celNo, 255, 0, view->isSci2Hires()); else view->drawScaled(itemEntry->celRect, clipRect, translatedClipRect, itemEntry->loopNo, itemEntry->celNo, 255, itemEntry->scaleX, itemEntry->scaleY); } } // Draw text, if it exists if (lookupSelector(_segMan, itemEntry->object, SELECTOR(text), NULL, NULL) == kSelectorVariable) { g_sci->_gfxText32->drawTextBitmap(itemEntry->x, itemEntry->y, it->planeRect, itemEntry->object); } } } for (PlanePictureList::iterator pictureIt = _planePictures.begin(); pictureIt != _planePictures.end(); pictureIt++) { if (pictureIt->object == planeObject) { delete[] pictureIt->pictureCels; pictureIt->pictureCels = 0; } } } showCurrentScrollText(); _screen->copyToScreen(); g_sci->getEngineState()->_throttleTrigger = true; } void GfxFrameout::printPlaneList(Console *con) { for (PlaneList::const_iterator it = _planes.begin(); it != _planes.end(); ++it) { PlaneEntry p = *it; Common::String curPlaneName = _segMan->getObjectName(p.object); Common::Rect r = p.upscaledPlaneRect; Common::Rect cr = p.upscaledPlaneClipRect; con->debugPrintf("%04x:%04x (%s): prio %d, lastprio %d, offsetX %d, offsetY %d, pic %d, mirror %d, back %d\n", PRINT_REG(p.object), curPlaneName.c_str(), (int16)p.priority, (int16)p.lastPriority, p.planeOffsetX, p.planeOffsetY, p.pictureId, p.planePictureMirrored, p.planeBack); con->debugPrintf(" rect: (%d, %d, %d, %d), clip rect: (%d, %d, %d, %d)\n", r.left, r.top, r.right, r.bottom, cr.left, cr.top, cr.right, cr.bottom); if (p.pictureId != 0xffff && p.pictureId != 0xfffe) { con->debugPrintf("Pictures:\n"); for (PlanePictureList::iterator pictureIt = _planePictures.begin(); pictureIt != _planePictures.end(); pictureIt++) { if (pictureIt->object == p.object) { con->debugPrintf(" Picture %d: x %d, y %d\n", pictureIt->pictureId, pictureIt->startX, pictureIt->startY); } } } } } void GfxFrameout::printPlaneItemList(Console *con, reg_t planeObject) { for (FrameoutList::iterator listIterator = _screenItems.begin(); listIterator != _screenItems.end(); listIterator++) { FrameoutEntry *e = *listIterator; reg_t itemPlane = readSelector(_segMan, e->object, SELECTOR(plane)); if (planeObject == itemPlane) { Common::String curItemName = _segMan->getObjectName(e->object); Common::Rect icr = e->celRect; GuiResourceId picId = e->picture ? e->picture->getResourceId() : 0; con->debugPrintf("%d: %04x:%04x (%s), view %d, loop %d, cel %d, x %d, y %d, z %d, " "signal %d, scale signal %d, scaleX %d, scaleY %d, rect (%d, %d, %d, %d), " "pic %d, picX %d, picY %d, visible %d\n", e->givenOrderNr, PRINT_REG(e->object), curItemName.c_str(), e->viewId, e->loopNo, e->celNo, e->x, e->y, e->z, e->signal, e->scaleSignal, e->scaleX, e->scaleY, icr.left, icr.top, icr.right, icr.bottom, picId, e->picStartX, e->picStartY, e->visible); } } } } // End of namespace Sci