/* 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/scummsys.h" #include "mads/mads.h" #include "mads/compression.h" #include "mads/user_interface.h" #include "mads/nebular/game_nebular.h" namespace MADS { UISlot::UISlot() { _flags = IMG_STATIC; _segmentId = 0; _spritesIndex = 0; _frameNumber = 0; _width = _height = 0; } /*------------------------------------------------------------------------*/ void UISlots::fullRefresh() { UISlot slot; slot._flags = IMG_REFRESH; slot._segmentId = -1; push_back(slot); } void UISlots::add(const Common::Rect &bounds) { assert(size() < 50); UISlot ie; ie._flags = IMG_OVERPRINT; ie._segmentId = IMG_TEXT_UPDATE; ie._position = Common::Point(bounds.left, bounds.top); ie._width = bounds.width(); ie._height = bounds.height(); push_back(ie); } void UISlots::add(const AnimFrameEntry &frameEntry) { assert(size() < 50); UISlot ie; ie._flags = IMG_UPDATE; ie._segmentId = frameEntry._seqIndex; ie._spritesIndex = frameEntry._spriteSlot._spritesIndex; ie._frameNumber = frameEntry._spriteSlot._frameNumber; ie._position = frameEntry._spriteSlot._position; push_back(ie); } void UISlots::draw(bool updateFlag, bool delFlag) { Scene &scene = _vm->_game->_scene; UserInterface &userInterface = scene._userInterface; DirtyArea *dirtyAreaPtr = nullptr; // Loop through setting up the dirty areas for (uint idx = 0; idx < size(); ++idx) { DirtyArea &dirtyArea = userInterface._dirtyAreas[idx]; UISlot &slot = (*this)[idx]; if (slot._flags >= IMG_STATIC) { dirtyArea._active = false; } else { dirtyArea.setUISlot(&slot); dirtyArea._textActive = true; if (slot._segmentId == IMG_SPINNING_OBJECT && slot._flags == IMG_FULL_UPDATE) { dirtyArea._active = false; dirtyAreaPtr = &dirtyArea; } } } userInterface._dirtyAreas.merge(1, userInterface._uiSlots.size()); if (dirtyAreaPtr) dirtyAreaPtr->_active = true; // Copy parts of the user interface background that need to be erased for (uint idx = 0; idx < size(); ++idx) { DirtyArea &dirtyArea = userInterface._dirtyAreas[idx]; UISlot &slot = (*this)[idx]; if (dirtyArea._active && dirtyArea._bounds.width() > 0 && dirtyArea._bounds.height() > 0 && slot._flags > -20) { if (slot._flags >= IMG_ERASE) { // Merge area userInterface.mergeFrom(&userInterface._surface, dirtyArea._bounds, Common::Point(dirtyArea._bounds.left, dirtyArea._bounds.top)); } else { // Copy area userInterface.blitFrom(userInterface._surface, dirtyArea._bounds, Common::Point(dirtyArea._bounds.left, dirtyArea._bounds.top)); } } } for (uint idx = 0; idx < size(); ++idx) { DirtyArea &dirtyArea = userInterface._dirtyAreas[idx]; UISlot &slot = (*this)[idx]; int slotType = slot._flags; if (slotType >= IMG_STATIC) { dirtyArea.setUISlot(&slot); if (!updateFlag) slotType &= ~0x40; dirtyArea._textActive = slotType > 0; slot._flags &= 0x40; } } userInterface._dirtyAreas.merge(1, userInterface._uiSlots.size()); for (uint idx = 0; idx < size(); ++idx) { DirtyArea *dirtyArea = &userInterface._dirtyAreas[idx]; UISlot &slot = (*this)[idx]; if (slot._flags >= IMG_STATIC && !(slot._flags & 0x40)) { if (!dirtyArea->_active) { do { dirtyArea = dirtyArea->_mergedArea; } while (!dirtyArea->_active); } if (dirtyArea->_textActive) { SpriteAsset *asset = scene._sprites[slot._spritesIndex]; // Get the frame details int frameNumber = ABS(slot._frameNumber); bool flipped = slot._frameNumber < 0; if (slot._segmentId == IMG_SPINNING_OBJECT) { MSprite *sprite = asset->getFrame(frameNumber - 1); userInterface.transBlitFrom(*sprite, slot._position, sprite->getTransparencyIndex()); } else { MSprite *sprite = asset->getFrame(frameNumber - 1); if (flipped) { BaseSurface *spr = sprite->flipHorizontal(); userInterface.mergeFrom(spr, spr->getBounds(), slot._position, sprite->getTransparencyIndex()); spr->free(); delete spr; } else { userInterface.mergeFrom(sprite, sprite->getBounds(), slot._position, sprite->getTransparencyIndex()); } } } } } // Mark areas of the screen surface for updating if (updateFlag) { for (uint idx = 0; idx < size(); ++idx) { DirtyArea &dirtyArea = userInterface._dirtyAreas[idx]; if (dirtyArea._active && dirtyArea._textActive && dirtyArea._bounds.width() > 0 && dirtyArea._bounds.height() > 0) { // Flag area of screen as needing update Common::Rect r = dirtyArea._bounds; r.translate(0, scene._interfaceY); //_vm->_screen->copyRectToScreen(r); } } } // Post-processing to remove slots no longer needed for (int idx = (int)size() - 1; idx >= 0; --idx) { UISlot &slot = (*this)[idx]; if (slot._flags < IMG_STATIC) { if (delFlag || updateFlag) remove_at(idx); else if (slot._flags > -20) slot._flags -= 20; } else { if (updateFlag) slot._flags &= ~0x40; else slot._flags |= 0x40; } } } /*------------------------------------------------------------------------*/ MADSEngine *Conversation::_vm; void Conversation::init(MADSEngine *vm) { _vm = vm; } void Conversation::setup(int globalId, ...) { va_list va; va_start(va, globalId); // Load the list of conversation quotes _quotes.clear(); int quoteId = va_arg(va, int); while (quoteId > 0) { _quotes.push_back(quoteId); quoteId = va_arg(va, int); } va_end(va); if (quoteId < 0) { // For an ending value of -1, also initial the bitflags for the global // associated with the conversation entry, which enables all the quote Ids _vm->_game->globals()[globalId] = (int16)0xffff; } _globalId = globalId; } void Conversation::set(int quoteId, ...) { _vm->_game->globals()[_globalId] = 0; va_list va; va_start(va, quoteId); // Loop through handling each quote while (quoteId > 0) { for (uint idx = 0; idx < _quotes.size(); ++idx) { if (_quotes[idx] == quoteId) { // Found index, so set that bit in the global keeping track of conversation state _vm->_game->globals()[_globalId] |= 1 << idx; break; } } quoteId = va_arg(va, int); } va_end(va); } int Conversation::read(int quoteId) { uint16 flags = _vm->_game->globals()[_globalId]; int count = 0; for (uint idx = 0; idx < _quotes.size(); ++idx) { if (flags & (1 << idx)) ++count; if (_quotes[idx] == quoteId) return flags & (1 << idx); } // Could not find it, simply return number of active quotes return count; } void Conversation::write(int quoteId, bool flag) { for (uint idx = 0; idx < _quotes.size(); ++idx) { if (_quotes[idx] == quoteId) { // Found index, so set or clear the flag if (flag) { // Set bit _vm->_game->globals()[_globalId] |= 1 << idx; } else { // Clear bit _vm->_game->globals()[_globalId] &= ~(1 << idx); } return; } } } void Conversation::start() { UserInterface &userInterface = _vm->_game->_scene._userInterface; userInterface.emptyConversationList(); // Loop through each of the quotes loaded into the conversation for (uint idx = 0; idx < _quotes.size(); ++idx) { // Check whether the given quote is enabled or not if (_vm->_game->globals()[_globalId] & (1 << idx)) { // Quote enabled, so add it to the list of talk selections Common::String msg = _vm->_game->getQuote(_quotes[idx]); userInterface.addConversationMessage(_quotes[idx], msg); } } userInterface.setup(kInputConversation); } /*------------------------------------------------------------------------*/ UserInterface::UserInterface(MADSEngine *vm) : _vm(vm), _dirtyAreas(vm), _uiSlots(vm) { _invSpritesIndex = -1; _invFrameNumber = 1; _scrollMilli = 0; _scrollFlag = false; _category = CAT_NONE; _inventoryTopIndex = 0; _selectedInvIndex = -1; _selectedActionIndex = 0; _selectedItemVocabIdx = -1; _scrollbarActive = SCROLLBAR_NONE; _scrollbarOldActive = SCROLLBAR_NONE; _scrollbarStrokeType = SCROLLBAR_NONE; _scrollbarQuickly = false; _scrollbarMilliTime = 0; _scrollbarElevator = _scrollbarOldElevator = 0; _highlightedCommandIndex = -1; _highlightedInvIndex = -1; _highlightedItemVocabIndex = -1; _dirtyAreas.resize(50); _inventoryChanged = false; _noSegmentsActive = 0; _someSegmentsActive = 0; _rectP = nullptr; Common::fill(&_categoryIndexes[0], &_categoryIndexes[7], 0); // Map the user interface to the bottom of the game's screen surface create(*_vm->_screen, Common::Rect(0, MADS_SCENE_HEIGHT, MADS_SCREEN_WIDTH, MADS_SCREEN_HEIGHT)); _surface.create(MADS_SCREEN_WIDTH, MADS_INTERFACE_HEIGHT); } void UserInterface::load(const Common::String &resName) { File f(resName); MadsPack madsPack(&f); // Load in the palette Common::SeekableReadStream *palStream = madsPack.getItemStream(0); uint32 *gamePalP = &_vm->_palette->_palFlags[0]; byte *palP = &_vm->_palette->_mainPalette[0]; for (int i = 0; i < 16; ++i, gamePalP++, palP += 3) { RGB6 rgb; rgb.load(palStream); palP[0] = rgb.r; palP[1] = rgb.g; palP[2] = rgb.b; *gamePalP |= 1; } delete palStream; // Read in the surface data Common::SeekableReadStream *pixelsStream = madsPack.getItemStream(1); pixelsStream->read(_surface.getPixels(), MADS_SCREEN_WIDTH * MADS_INTERFACE_HEIGHT); delete pixelsStream; } void UserInterface::setup(InputMode inputMode) { Scene &scene = _vm->_game->_scene; if (_vm->_game->_screenObjects._inputMode != inputMode) { Common::String resName = _vm->_game->_aaName; // Strip off any extension const char *p = strchr(resName.c_str(), '.'); if (p) { resName = Common::String(resName.c_str(), p); } // Add on suffix if necessary if (inputMode != kInputBuildingSentences) resName += "A"; resName += ".INT"; load(resName); blitFrom(_surface); } _vm->_game->_screenObjects._inputMode = inputMode; scene._userInterface._uiSlots.clear(); scene._userInterface._uiSlots.fullRefresh(); _vm->_game->_screenObjects._baseTime = _vm->_events->getFrameCounter(); _highlightedCommandIndex = -1; _highlightedItemVocabIndex = -1; _highlightedInvIndex = -1; if (_vm->_game->_kernelMode == KERNEL_ACTIVE_CODE) scene._userInterface._uiSlots.draw(false, false); scene._action.clear(); drawTextElements(); loadElements(); scene._dynamicHotspots.refresh(); } void UserInterface::drawTextElements() { switch (_vm->_game->_screenObjects._inputMode) { case kInputBuildingSentences: // Draw the actions drawActions(); drawInventoryList(); drawItemVocabList(); break; case kInputConversation: drawConversationList(); break; case kInputLimitedSentences: default: break; } } void UserInterface::mergeFrom(BaseSurface *src, const Common::Rect &srcBounds, const Common::Point &destPos, int transparencyIndex) { // Validation of the rectangle and position int destX = destPos.x, destY = destPos.y; if ((destX >= w) || (destY >= h)) return; Common::Rect copyRect = srcBounds; if (destX < 0) { copyRect.left += -destX; destX = 0; } else if (destX + copyRect.width() > w) { copyRect.right -= destX + copyRect.width() - w; } if (destY < 0) { copyRect.top += -destY; destY = 0; } else if (destY + copyRect.height() > h) { copyRect.bottom -= destY + copyRect.height() - h; } if (!copyRect.isValidRect()) return; // Copy the specified area byte *data = src->getPixels(); byte *srcPtr = data + (src->w * copyRect.top + copyRect.left); byte *destPtr = (byte *)getPixels() + (destY * this->w) + destX; for (int rowCtr = 0; rowCtr < copyRect.height(); ++rowCtr) { // Process each line of the area for (int xCtr = 0; xCtr < copyRect.width(); ++xCtr) { // Check for the range used for the user interface background, // which are the only pixels that can be replaced if ((destPtr[xCtr] >= 8 && destPtr[xCtr] <= 15) && (int)srcPtr[xCtr] != transparencyIndex) destPtr[xCtr] = srcPtr[xCtr]; } srcPtr += src->w; destPtr += this->w; } } void UserInterface::drawActions() { for (int idx = 0; idx < 10; ++idx) { writeVocab(CAT_COMMAND, idx); } } void UserInterface::drawInventoryList() { int endIndex = MIN((int)_vm->_game->_objects._inventoryList.size(), _inventoryTopIndex + 5); for (int idx = _inventoryTopIndex; idx < endIndex; ++idx) { writeVocab(CAT_INV_LIST, idx); } } void UserInterface::drawItemVocabList() { if (_selectedInvIndex >= 0) { InventoryObject &io = _vm->_game->_objects[ _vm->_game->_objects._inventoryList[_selectedInvIndex]]; for (int idx = 0; idx < io._vocabCount; ++idx) { writeVocab(CAT_INV_VOCAB, idx); } } } void UserInterface::drawScroller() { if (_scrollbarActive) writeVocab(CAT_INV_SCROLLER, _scrollbarActive); writeVocab(CAT_INV_SCROLLER, 4); } void UserInterface::updateInventoryScroller() { ScreenObjects &screenObjects = _vm->_game->_screenObjects; if (screenObjects._inputMode != kInputBuildingSentences) return; _scrollbarActive = SCROLLBAR_NONE; if ((screenObjects._category == CAT_INV_SCROLLER) || (screenObjects._category != CAT_INV_SCROLLER && _scrollbarOldActive == SCROLLBAR_ELEVATOR && _vm->_events->_mouseStatusCopy)) { if (_vm->_events->_mouseStatusCopy || _vm->_easyMouse) { if ((_vm->_events->_mouseClicked || (_vm->_easyMouse && !_vm->_events->_mouseStatusCopy)) && (screenObjects._category == CAT_INV_SCROLLER)) _scrollbarStrokeType = (ScrollbarActive)screenObjects._spotId; if (screenObjects._spotId == _scrollbarStrokeType || _scrollbarOldActive == SCROLLBAR_ELEVATOR) { _scrollbarActive = _scrollbarStrokeType; uint32 currentMilli = g_system->getMillis(); uint32 timeInc = _scrollbarQuickly ? 100 : 380; if (_vm->_events->_mouseStatus && (_scrollbarMilliTime + timeInc) <= currentMilli) { _scrollbarQuickly = _vm->_events->_strokeGoing < 1; _scrollbarMilliTime = currentMilli; // Change the scrollbar and visible inventory list changeScrollBar(); } } } } if (_scrollbarActive != _scrollbarOldActive || _scrollbarElevator != _scrollbarOldElevator) scrollbarChanged(); _scrollbarOldActive = _scrollbarActive; _scrollbarOldElevator = _scrollbarElevator; } void UserInterface::changeScrollBar() { Common::Array &inventoryList = _vm->_game->_objects._inventoryList; ScreenObjects &screenObjects = _vm->_game->_screenObjects; if (screenObjects._inputMode != kInputBuildingSentences) return; switch (_scrollbarStrokeType) { case SCROLLBAR_UP: // Scroll up if (_inventoryTopIndex > 0 && inventoryList.size() > 0) { --_inventoryTopIndex; _inventoryChanged = true; } break; case SCROLLBAR_DOWN: // Scroll down if (_inventoryTopIndex < ((int)inventoryList.size() - 1) && inventoryList.size() > 1) { ++_inventoryTopIndex; _inventoryChanged = true; } break; case SCROLLBAR_ELEVATOR: { // Inventory slider int newIndex = CLIP((int)_vm->_events->currentPos().y - 170, 0, 17) * inventoryList.size() / 10; if (newIndex >= (int)inventoryList.size()) newIndex = inventoryList.size() - 1; if (inventoryList.size() > 0) { _inventoryChanged = newIndex != _inventoryTopIndex; _inventoryTopIndex = newIndex; } break; } default: break; } if (_inventoryChanged) { int dummy; updateSelection(CAT_INV_LIST, 0, &dummy); } } void UserInterface::scrollbarChanged() { Common::Rect r(73, 4, 73 + 9, 4 + 38); _uiSlots.add(r); _uiSlots.draw(false, false); drawScroller(); // updateRect(r); } void UserInterface::writeVocab(ScrCategory category, int id) { Common::Rect bounds; if (!getBounds(category, id, bounds)) return; Scene &scene = _vm->_game->_scene; Font *font = nullptr; int vocabId; Common::String vocabStr; switch (category) { case CAT_COMMAND: font = _vm->_font->getFont(FONT_INTERFACE); vocabId = scene._verbList[id]._id; if (id == _highlightedCommandIndex) { _vm->_font->setColorMode(SELMODE_HIGHLIGHTED); } else { _vm->_font->setColorMode(id == _selectedActionIndex ? SELMODE_SELECTED : SELMODE_UNSELECTED); } vocabStr = scene.getVocab(vocabId); vocabStr.setChar(toupper(vocabStr[0]), 0); font->writeString(this, vocabStr, Common::Point(bounds.left, bounds.top)); break; case CAT_INV_LIST: font = _vm->_font->getFont(FONT_INTERFACE); vocabId = _vm->_game->_objects.getItem(id)._descId; if (id == _highlightedInvIndex) { _vm->_font->setColorMode(SELMODE_HIGHLIGHTED); } else { _vm->_font->setColorMode(id == _selectedInvIndex ? SELMODE_SELECTED : SELMODE_UNSELECTED); } vocabStr = scene.getVocab(vocabId); vocabStr.setChar(toupper(vocabStr[0]), 0); font->writeString(this, vocabStr, Common::Point(bounds.left, bounds.top)); break; case CAT_TALK_ENTRY: font = _vm->_font->getFont(FONT_INTERFACE); font->setColorMode(id == _highlightedCommandIndex ? SELMODE_HIGHLIGHTED : SELMODE_UNSELECTED); font->writeString(this, _talkStrings[id], Common::Point(bounds.left, bounds.top)); break; case CAT_INV_SCROLLER: font = _vm->_font->getFont(FONT_MISC); switch (id) { case 1: vocabStr = "a"; break; case 2: vocabStr = "b"; break; case 3: vocabStr = "d"; break; case 4: vocabStr = "c"; break; default: break; } font->setColorMode((id == 4) || (_scrollbarActive == SCROLLBAR_ELEVATOR) ? SELMODE_HIGHLIGHTED : SELMODE_UNSELECTED); font->writeString(this, vocabStr, Common::Point(bounds.left, bounds.top)); break; default: // Item specific verbs font = _vm->_font->getFont(FONT_INTERFACE); vocabId = _vm->_game->_objects.getItem(_selectedInvIndex)._vocabList[id]._vocabId; if (id == _highlightedItemVocabIndex) { _vm->_font->setColorMode(SELMODE_HIGHLIGHTED); } else { _vm->_font->setColorMode(id == _selectedInvIndex ? SELMODE_SELECTED : SELMODE_UNSELECTED); vocabStr = scene.getVocab(vocabId); vocabStr.setChar(toupper(vocabStr[0]), 0); font->writeString(this, vocabStr, Common::Point(bounds.left, bounds.top)); break; } break; } } void UserInterface::loadElements() { Scene &scene = _vm->_game->_scene; Common::Rect bounds; _vm->_game->_screenObjects.clear(); if (_vm->_game->_screenObjects._inputMode == kInputBuildingSentences) { // Set up screen objects for the inventory scroller for (int idx = 1; idx <= 3; ++idx) { getBounds(CAT_INV_SCROLLER, idx, bounds); moveRect(bounds); _vm->_game->_screenObjects.add(bounds, SCREENMODE_VGA, CAT_INV_SCROLLER, idx); } // Set up actions _categoryIndexes[CAT_COMMAND - 1] = _vm->_game->_screenObjects.size() + 1; for (int idx = 0; idx < 10; ++idx) { getBounds(CAT_COMMAND, idx, bounds); moveRect(bounds); _vm->_game->_screenObjects.add(bounds, SCREENMODE_VGA, CAT_COMMAND, idx); } // Set up inventory list _categoryIndexes[CAT_INV_LIST - 1] = _vm->_game->_screenObjects.size() + 1; for (int idx = 0; idx < 5; ++idx) { getBounds(CAT_INV_LIST, _inventoryTopIndex + idx, bounds); moveRect(bounds); _vm->_game->_screenObjects.add(bounds, SCREENMODE_VGA, CAT_INV_LIST, idx); } // Set up the inventory vocab list _categoryIndexes[CAT_INV_VOCAB - 1] = _vm->_game->_screenObjects.size() + 1; for (int idx = 0; idx < 5; ++idx) { getBounds(CAT_INV_VOCAB, idx, bounds); moveRect(bounds); _vm->_game->_screenObjects.add(bounds, SCREENMODE_VGA, CAT_INV_VOCAB, idx); } // Set up the inventory item picture _categoryIndexes[CAT_INV_ANIM - 1] = _vm->_game->_screenObjects.size() + 1; _vm->_game->_screenObjects.add(Common::Rect(160, 159, 231, 194), SCREENMODE_VGA, CAT_INV_ANIM, 0); } if (_vm->_game->_screenObjects._inputMode == kInputBuildingSentences || _vm->_game->_screenObjects._inputMode == kInputLimitedSentences) { _categoryIndexes[CAT_HOTSPOT - 1] = _vm->_game->_screenObjects.size() + 1; for (int hotspotIdx = scene._hotspots.size() - 1; hotspotIdx >= 0; --hotspotIdx) { Hotspot &hs = scene._hotspots[hotspotIdx]; ScreenObject *so = _vm->_game->_screenObjects.add(hs._bounds, SCREENMODE_VGA, CAT_HOTSPOT, hotspotIdx); so->_active = hs._active; } } if (_vm->_game->_screenObjects._inputMode == kInputConversation) { // setup areas for talk entries _categoryIndexes[CAT_TALK_ENTRY - 1] = _vm->_game->_screenObjects.size() + 1; for (int idx = 0; idx < 5; ++idx) { getBounds(CAT_TALK_ENTRY, idx, bounds); moveRect(bounds); _vm->_game->_screenObjects.add(bounds, SCREENMODE_VGA, CAT_TALK_ENTRY, idx); } } // Store the number of UI elements loaded for easy nuking/refreshing hotspots added later _vm->_game->_screenObjects._uiCount = _vm->_game->_screenObjects.size(); } bool UserInterface::getBounds(ScrCategory category, int v, Common::Rect &bounds) { int heightMultiplier, widthMultiplier; int leftStart, yOffset, widthAmt; switch (category) { case CAT_COMMAND: heightMultiplier = v % 5; widthMultiplier = v / 5; leftStart = 2; yOffset = 3; widthAmt = 32; break; case CAT_INV_LIST: if (v < _inventoryTopIndex || v >= (_inventoryTopIndex + 5)) return false; heightMultiplier = v - _inventoryTopIndex; widthMultiplier = 0; leftStart = 90; yOffset = 3; widthAmt = 69; break; case CAT_TALK_ENTRY: heightMultiplier = v; widthMultiplier = 0; leftStart = 2; yOffset = 3; widthAmt = 310; break; case CAT_INV_SCROLLER: heightMultiplier = 0; widthMultiplier = 0; yOffset = 0; widthAmt = 9; leftStart = (v != 73) ? 73 : 75; break; default: heightMultiplier = v; widthMultiplier = 0; leftStart = 240; yOffset = 3; widthAmt = 80; break; } bounds.left = (widthMultiplier > 0) ? widthMultiplier * widthAmt + leftStart : leftStart; bounds.setWidth(widthAmt); bounds.top = heightMultiplier * 8 + yOffset; bounds.setHeight(8); if (category == CAT_INV_SCROLLER) { switch (v) { case SCROLLBAR_UP: // Arrow up bounds.top = 4; bounds.setHeight(7); break; case SCROLLBAR_DOWN: // Arrow down bounds.top = 35; bounds.setHeight(7); break; case SCROLLBAR_ELEVATOR: // Scroller bounds.top = 12; bounds.setHeight(22); break; case SCROLLBAR_THUMB: // Thumb bounds.top = _scrollbarElevator + 14; bounds.setHeight(1); break; default: break; } } return true; } void UserInterface::moveRect(Common::Rect &bounds) { bounds.translate(0, MADS_SCENE_HEIGHT); } void UserInterface::drawConversationList() { for (uint idx = 0; idx < _talkStrings.size(); ++idx) { writeVocab(CAT_TALK_ENTRY, idx); } } void UserInterface::emptyConversationList() { _talkStrings.clear(); _talkIds.clear(); } void UserInterface::addConversationMessage(int vocabId, const Common::String &msg) { // Only allow a maximum of 5 talk entries to be displayed if (_talkStrings.size() < 5) { _talkStrings.push_back(msg); _talkIds.push_back(vocabId); } } void UserInterface::loadInventoryAnim(int objectId) { Scene &scene = _vm->_game->_scene; noInventoryAnim(); // WORKAROUND: Even in still mode, we now load the animation frames for the // object, so we can show the first frame as a 'still' Common::String resName = Common::String::format("*OB%.3dI", objectId); SpriteAsset *asset = new SpriteAsset(_vm, resName, ASSET_SPINNING_OBJECT); _invSpritesIndex = scene._sprites.add(asset, 1); if (_invSpritesIndex >= 0) { _invFrameNumber = 1; } } void UserInterface::noInventoryAnim() { Scene &scene = _vm->_game->_scene; if (_invSpritesIndex >= 0) { scene._sprites.remove(_invSpritesIndex); _vm->_game->_screenObjects._baseTime = _vm->_events->getFrameCounter(); _invSpritesIndex = -1; } if (_vm->_game->_screenObjects._inputMode == kInputBuildingSentences) refresh(); } void UserInterface::refresh() { _uiSlots.clear(); _uiSlots.fullRefresh(); _uiSlots.draw(false, false); drawTextElements(); } void UserInterface::inventoryAnim() { Scene &scene = _vm->_game->_scene; if (_vm->_game->_screenObjects._inputMode == kInputConversation || _vm->_game->_screenObjects._inputMode == kInputLimitedSentences || _invSpritesIndex < 0) return; // WORKAROUND: Fix still inventory display, which was broken in the original if (_vm->_invObjectsAnimated) { // Move to the next frame number in the sequence, resetting if at the end SpriteAsset *asset = scene._sprites[_invSpritesIndex]; if (++_invFrameNumber > asset->getCount()) _invFrameNumber = 1; } // Loop through the slots list for inventory animation entry for (uint i = 0; i < _uiSlots.size(); ++i) { if (_uiSlots[i]._segmentId == IMG_SPINNING_OBJECT) _uiSlots[i]._flags = IMG_FULL_UPDATE; } // Add a new slot entry for the inventory animation UISlot slot; slot._flags = IMG_UPDATE; slot._segmentId = IMG_SPINNING_OBJECT; slot._frameNumber = _invFrameNumber; slot._spritesIndex = _invSpritesIndex; slot._position = Common::Point(160, 3); _uiSlots.push_back(slot); } void UserInterface::doBackgroundAnimation() { Scene &scene = _vm->_game->_scene; Common::Array &uiEntries = scene._animationData->_uiEntries; Common::Array &frameEntries = scene._animationData->_frameEntries; _noSegmentsActive = !_someSegmentsActive; _someSegmentsActive = false; for (int idx = 0; idx < (int)uiEntries.size(); ++idx) { AnimUIEntry &uiEntry = uiEntries[idx]; if (uiEntry._counter < 0) { if (uiEntry._counter == -1) { int probabilityRandom = _vm->getRandomNumber(1, 30000); int probability = uiEntry._probability; if (uiEntry._probability > 30000) { if (_noSegmentsActive) { probability -= 30000; } else { probability = -1; } } if (probabilityRandom <= probability) { uiEntry._counter = uiEntry._firstImage; _someSegmentsActive = true; } } else { uiEntry._counter = uiEntry._firstImage; _someSegmentsActive = true; } } else { for (int idx2 = 0; idx2 < ANIM_SPAWN_COUNT; idx2++) { if (uiEntry._spawnFrame[idx2] == (uiEntry._counter - uiEntry._firstImage)) { int tempIndex = uiEntry._spawn[idx2]; if (idx >= tempIndex) { uiEntries[tempIndex]._counter = uiEntries[tempIndex]._firstImage; } else { uiEntries[tempIndex]._counter = -2; } _someSegmentsActive = true; } } ++uiEntry._counter; if (uiEntry._counter > uiEntry._lastImage) { uiEntry._counter = -1; } else { _someSegmentsActive = true; } } } for (uint idx = 0; idx < uiEntries.size(); ++idx) { int imgScan = uiEntries[idx]._counter; if (imgScan >= 0) { _uiSlots.add(frameEntries[imgScan]); } } } void UserInterface::categoryChanged() { _highlightedInvIndex = -1; _vm->_events->initVars(); _category = CAT_NONE; } void UserInterface::selectObject(int invIndex) { if (_selectedInvIndex != invIndex || _inventoryChanged) { int oldVocabCount = _selectedInvIndex < 0 ? 0 : _vm->_game->_objects.getItem(_selectedInvIndex)._vocabCount; int newVocabCount = invIndex < 0 ? 0 : _vm->_game->_objects.getItem(invIndex)._vocabCount; int maxVocab = MAX(oldVocabCount, newVocabCount); updateSelection(CAT_INV_LIST, invIndex, &_selectedInvIndex); _highlightedItemVocabIndex = -1; _selectedItemVocabIdx = -1; if (maxVocab) { assert(_uiSlots.size() < 50); int vocabHeight = maxVocab * 8; Common::Rect bounds(240, 3, 240 + 80, 3 + vocabHeight); _uiSlots.add(bounds); _uiSlots.draw(false, false); drawItemVocabList(); //updateRect(bounds); } } if (invIndex == -1) { noInventoryAnim(); } else { loadInventoryAnim(_vm->_game->_objects._inventoryList[invIndex]); _vm->_palette->setPalette(&_vm->_palette->_mainPalette[7 * 3], 7, 1); _vm->_palette->setPalette(&_vm->_palette->_mainPalette[246 * 3], 246, 2); } } void UserInterface::updateSelection(ScrCategory category, int newIndex, int *idx) { Game &game = *_vm->_game; Common::Array &invList = game._objects._inventoryList; Common::Rect bounds; if (category == CAT_INV_LIST && _inventoryChanged) { *idx = newIndex; bounds = Common::Rect(90, 3, 90 + 69, 3 + 40); _uiSlots.add(bounds); _uiSlots.draw(false, false); drawInventoryList(); //updateRect(bounds); _inventoryChanged = false; if (invList.size() < 2) { _scrollbarElevator = 0; } else { int v = _inventoryTopIndex * 18 / (invList.size() - 1); _scrollbarElevator = MIN(v, 17); } } else { int oldIndex = *idx; *idx = newIndex; if (oldIndex >= 0) { writeVocab(category, oldIndex); /* if (getBounds(category, oldIndex, bounds)) updateRect(bounds); */ } if (newIndex >= 0) { writeVocab(category, newIndex); /* if (getBounds(category, newIndex, bounds)) updateRect(bounds); */ } } } void UserInterface::scrollerChanged() { warning("TODO: scrollerChanged"); } void UserInterface::scrollInventory() { Common::Array &invList = _vm->_game->_objects._inventoryList; if (_vm->_events->_mouseButtons) { int yp = _vm->_events->currentPos().y; if (yp < MADS_SCENE_HEIGHT || yp == (MADS_SCREEN_HEIGHT - 1)) { uint32 timeDiff = _scrollFlag ? 100 : 380; uint32 currentMilli = g_system->getMillis(); _vm->_game->_screenObjects._v8332A = -1; if (currentMilli >= (_scrollMilli + timeDiff)) { _scrollMilli = currentMilli; _scrollFlag = true; if (yp == (MADS_SCREEN_HEIGHT - 1)) { if (_inventoryTopIndex < ((int)invList.size() - 1)) { ++_inventoryTopIndex; _inventoryChanged = true; } } else { if (_inventoryTopIndex > 0) { --_inventoryTopIndex; _inventoryChanged = true; } } } } } _vm->_game->_screenObjects._v8332A = 0; } void UserInterface::synchronize(Common::Serializer &s) { InventoryObjects &invObjects = _vm->_game->_objects; if (s.isLoading()) { _selectedInvIndex = invObjects._inventoryList.empty() ? -1 : 0; } for (int i = 0; i < 8; ++i) s.syncAsSint16LE(_categoryIndexes[i]); } } // End of namespace MADS