/* 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. * * $URL$ * $Id$ * */ #include "m4/m4_views.h" #include "m4/dialogs.h" #include "m4/events.h" #include "m4/font.h" #include "m4/globals.h" #include "m4/mads_menus.h" #include "m4/m4.h" #include "m4/staticres.h" #include "common/algorithm.h" namespace M4 { static const int INV_ANIM_FRAME_SPEED = 2; static const int INVENTORY_X = 160; static const int INVENTORY_Y = 159; static const int SCROLLER_DELAY = 200; //-------------------------------------------------------------------------- MadsSpriteSlots::MadsSpriteSlots() { for (int i = 0; i < SPRITE_SLOTS_SIZE; ++i) { MadsSpriteSlot rec; _entries.push_back(rec); } startIndex = 0; } int MadsSpriteSlots::getIndex() { if (startIndex == SPRITE_SLOTS_SIZE) error("Run out of sprite slots"); return startIndex++; } int MadsSpriteSlots::addSprites(const char *resName) { // Get the sprite set Common::SeekableReadStream *data = _vm->res()->get(resName); SpriteAsset *spriteSet = new SpriteAsset(_vm, data, data->size(), resName); spriteSet->translate(_madsVm->_palette); _sprites.push_back(SpriteList::value_type(spriteSet)); _vm->res()->toss(resName); return _sprites.size() - 1; } /* * Deletes the sprite slot with the given timer entry */ void MadsSpriteSlots::deleteTimer(int timerIndex) { for (int idx = 0; idx < startIndex; ++idx) { if (_entries[idx].timerIndex == timerIndex) _entries[idx].spriteId = -1; } } class DepthEntry { public: int depth; int index; DepthEntry(int depthAmt, int indexVal) { depth = depthAmt; index = indexVal; } }; bool sortHelper(const DepthEntry &entry1, const DepthEntry &entry2) { return entry1.depth < entry2.depth; } typedef Common::List DepthList; void MadsSpriteSlots::draw(View *view) { DepthList depthList; // Get a list of sprite object depths for active objects for (int i = 0; i < startIndex; ++i) { if (_entries[i].spriteId >= 0) { DepthEntry rec(_entries[i].depth, i); depthList.push_back(rec); } } // Sort the list in order of the depth Common::sort(depthList.begin(), depthList.end(), sortHelper); // Loop through each of the objects DepthList::iterator i; for (i = depthList.begin(); i != depthList.end(); ++i) { DepthEntry &de = *i; MadsSpriteSlot &slot = _entries[de.index]; assert(slot.spriteListIndex < (int)_sprites.size()); SpriteAsset &spriteSet = *_sprites[slot.spriteListIndex].get(); if (slot.scale < 100) { // Minimalised drawing assert(slot.spriteListIndex < (int)_sprites.size()); M4Sprite *spr = spriteSet.getFrame(slot.frameNumber - 1); spr->draw1(view, slot.scale, slot.depth, slot.xp, MADS_Y_OFFSET + slot.yp); } else { int xp, yp; M4Sprite *spr = spriteSet.getFrame(slot.frameNumber - 1); if (slot.scale == -1) { xp = slot.xp; // - widthAdjust; yp = slot.yp; // - heightAdjust; } else { xp = slot.xp - (spr->width() / 2); // - widthAdjust; yp = slot.yp - spr->height() + 1; // - heightAdjust; } if (slot.depth > 1) { spr->draw2(view, slot.depth, xp, MADS_Y_OFFSET + yp); } else { spr->draw3(view, xp, MADS_Y_OFFSET + yp); } } } } /** * Removes any sprite slots that are no longer needed */ void MadsSpriteSlots::cleanUp() { // Delete any entries that aren't needed int idx = 0; while (idx < startIndex) { if (_entries[idx].spriteId >= 0) { _entries.remove_at(idx); --startIndex; } else { ++idx; } } // Original engine sprite slot list was a fixed array, so to keep the engine similiar, for // now I'm adding in new entries to make up the original fixed total again while (_entries.size() < SPRITE_SLOTS_SIZE) { MadsSpriteSlot rec; _entries.push_back(rec); } } //-------------------------------------------------------------------------- MadsTextDisplay::MadsTextDisplay() { for (int i = 0; i < TEXT_DISPLAY_SIZE; ++i) { MadsTextDisplayEntry rec; rec.active = false; _entries.push_back(rec); } } void MadsTextDisplay::clear() { for (int i = 0; i < TEXT_DISPLAY_SIZE; ++i) _entries[i].active = false; } int MadsTextDisplay::add(int xp, int yp, uint fontColour, int charSpacing, const char *msg, Font *font) { int usedSlot = -1; for (int idx = 0; idx < TEXT_DISPLAY_SIZE; ++idx) { if (!_entries[idx].active) { usedSlot = idx; _entries[idx].bounds.left = xp; _entries[idx].bounds.top = yp; _entries[idx].font = font; _entries[idx].msg = msg; _entries[idx].bounds.setWidth(font->getWidth(msg, charSpacing)); _entries[idx].bounds.setHeight(font->getHeight()); _entries[idx].colour1 = fontColour & 0xff; _entries[idx].colour2 = fontColour >> 8; _entries[idx].spacing = charSpacing; _entries[idx].expire = 1; _entries[idx].active = true; break; } } return usedSlot; } void MadsTextDisplay::draw(View *view) { for (uint idx = 0; idx < _entries.size(); ++idx) { if (_entries[idx].active && (_entries[idx].expire >= 0)) { _entries[idx].font->setColours(_entries[idx].colour1, (_entries[idx].colour2 == 0) ? _entries[idx].colour1 : _entries[idx].colour2, 0xff); _entries[idx].font->writeString(view, _entries[idx].msg, _entries[idx].bounds.left, _entries[idx].bounds.top, _entries[idx].bounds.width(), _entries[idx].spacing); } } // Clear up any now text display entries that are to be expired for (uint idx = 0; idx < _entries.size(); ++idx) { if (_entries[idx].expire < 0) { _entries[idx].active = false; _entries[idx].expire = 0; } } } /** * Deactivates any text display entries that are finished */ void MadsTextDisplay::cleanUp() { for (uint idx = 0; idx < _entries.size(); ++idx) { if (_entries[idx].expire < 0) { _entries[idx].active = false; _entries[idx].expire = 0; } } } //-------------------------------------------------------------------------- MadsKernelMessageList::MadsKernelMessageList(MadsView &owner): _owner(owner) { for (int i = 0; i < TIMED_TEXT_SIZE; ++i) { MadsKernelMessageListEntry rec; _entries.push_back(rec); } _owner._textSpacing = -1; _talkFont = _vm->_font->getFont(FONT_CONVERSATION_MADS); } void MadsKernelMessageList::clear() { for (uint i = 0; i < _entries.size(); ++i) _entries[i].flags = 0; _owner._textSpacing = -1; _talkFont = _vm->_font->getFont(FONT_CONVERSATION_MADS); } int MadsKernelMessageList::add(const Common::Point &pt, uint fontColour, uint8 flags, uint8 v2, uint32 timeout, const char *msg) { // Find a free slot uint idx = 0; while ((idx < _entries.size()) && ((_entries[idx].flags & KMSG_ACTIVE) != 0)) ++idx; if (idx == _entries.size()) { if (v2 == 0) return -1; error("MadsKernelList overflow"); } MadsKernelMessageListEntry &rec = _entries[idx]; rec.msg = msg; rec.flags = flags | KMSG_ACTIVE; rec.colour1 = fontColour & 0xff; rec.colour2 = fontColour >> 8; rec.position = pt; rec.textDisplayIndex = -1; rec.timeout = timeout; rec.frameTimer = _madsVm->_currentTimer; rec.field_1C = v2; rec.abortMode = _owner._abortTimersMode2; for (int i = 0; i < 3; ++i) rec.actionNouns[i] = _madsVm->scene()->actionNouns[i]; if (flags & KMSG_2) rec.frameTimer = _owner._ticksAmount + _owner._newTimeout; return idx; } int MadsKernelMessageList::addQuote(int quoteId, int v2, uint32 timeout) { const char *quoteStr = _madsVm->globals()->getQuote(quoteId); return add(Common::Point(0, 0), 0x1110, KMSG_2 | KMSG_20, v2, timeout, quoteStr); } void MadsKernelMessageList::unk1(int msgIndex, int v1, int v2) { if (msgIndex < 0) return; _entries[msgIndex].flags |= (v2 == 0) ? KMSG_8 : (KMSG_8 | KMSG_1); _entries[msgIndex].msgOffset = 0; _entries[msgIndex].field_E = v1; _entries[msgIndex].frameTimer2 = _madsVm->_currentTimer; const char *msgP = _entries[msgIndex].msg; _entries[msgIndex].asciiChar = *msgP; _entries[msgIndex].asciiChar2 = *(msgP + 1); if (_entries[msgIndex].flags & KMSG_2) _entries[msgIndex].frameTimer2 = _owner._ticksAmount + _owner._newTimeout; _entries[msgIndex].frameTimer = _entries[msgIndex].frameTimer2; } void MadsKernelMessageList::setSeqIndex(int msgIndex, int seqIndex) { if (msgIndex >= 0) { _entries[msgIndex].flags |= KMSG_4; _entries[msgIndex].sequenceIndex = seqIndex; } } void MadsKernelMessageList::remove(int msgIndex) { MadsKernelMessageListEntry &rec = _entries[msgIndex]; if (rec.flags & KMSG_ACTIVE) { if (rec.flags & KMSG_8) { //*(rec.msg + rec.msgOffset) = rec.asciiChar; //*(rec.msg + rec.msgOffset + 1) = rec.asciiChar2; } if (rec.textDisplayIndex >= 0) _owner._textDisplay.expire(rec.textDisplayIndex); rec.flags &= ~KMSG_ACTIVE; } } void MadsKernelMessageList::reset() { for (uint i = 0; i < _entries.size(); ++i) remove(i); // sub_20454 } //-------------------------------------------------------------------------- /** * Clears the entries list */ void ScreenObjects::clear() { _entries.clear(); } /** * Adds a new entry to the list of screen objects */ void ScreenObjects::add(const Common::Rect &bounds, int layer, int idx, int category) { ScreenObjectEntry rec; rec.bounds = bounds; rec.layer = layer; rec.index = idx; rec.category = category; rec.active = true; _entries.push_back(rec); } /** * Scans the list for an element that contains the given mode. The result will be 1 based for a match, * with 0 indicating no entry was found */ int ScreenObjects::scan(int xp, int yp, int layer) { for (uint i = 0; i < _entries.size(); ++i) { if (_entries[i].active && _entries[i].bounds.contains(xp, yp) && (_entries[i].layer == layer)) return i + 1; } // Entry not found return 0; } int ScreenObjects::scanBackwards(int xp, int yp, int layer) { for (int i = (int)_entries.size() - 1; i >= 0; --i) { if (_entries[i].active && _entries[i].bounds.contains(xp, yp) && (_entries[i].layer == layer)) return i + 1; } // Entry not found return 0; } void ScreenObjects::setActive(int category, int idx, bool active) { for (uint i = 0; i < _entries.size(); ++i) { if (_entries[i].active && (_entries[i].category == category) && (_entries[i].index == idx)) _entries[i].active = active; } } /*--------------------------------------------------------------------------*/ MadsDynamicHotspots::MadsDynamicHotspots(MadsView &owner): _owner(owner) { for (int i = 0; i < DYNAMIC_HOTSPOTS_SIZE; ++i) { DynamicHotspot rec; rec.active = false; } _flag = true; _count = 0; } int MadsDynamicHotspots::add(int descId, int field14, int timerIndex, const Common::Rect &bounds) { // Find a free slot uint idx = 0; while ((idx < _entries.size()) && !_entries[idx].active) ++idx; if (idx == _entries.size()) error("MadsDynamicHotspots overflow"); _entries[idx].active = true; _entries[idx].descId = descId; _entries[idx].bounds = bounds; _entries[idx].pos.x = -3; _entries[idx].pos.y = 0; _entries[idx].facing = 5; _entries[idx].field_14 = field14; _entries[idx].articleNumber = 6; _entries[idx].field_17 = 0; ++_count; _flag = true; _owner._sequenceList[timerIndex].dynamicHotspotIndex = idx; return idx; } int MadsDynamicHotspots::setPosition(int index, int xp, int yp, int facing) { if (index >= 0) { _entries[index].pos.x = xp; _entries[index].pos.y = yp; _entries[index].facing = facing; } return index; } int MadsDynamicHotspots::set17(int index, int v) { if (index >= 0) _entries[index].field_17 = v; return index; } void MadsDynamicHotspots::remove(int index) { if (_entries[index].active) { if (_entries[index].timerIndex >= 0) _owner._sequenceList[_entries[index].timerIndex].dynamicHotspotIndex = -1; _entries[index].active = false; --_count; _flag = true; } } void MadsDynamicHotspots::reset() { for (uint i = 0; i < _entries.size(); ++i) _entries[i].active = false; _count = 0; _flag = false; } /*--------------------------------------------------------------------------*/ MadsSequenceList::MadsSequenceList(MadsView &owner): _owner(owner) { for (int i = 0; i < TIMER_LIST_SIZE; ++i) { MadsSequenceEntry rec; rec.active = 0; rec.dynamicHotspotIndex = -1; _entries.push_back(rec); } } void MadsSequenceList::clear() { for (uint i = 0; i < _entries.size(); ++i) { _entries[i].active = 0; _entries[i].dynamicHotspotIndex = -1; } } bool MadsSequenceList::addSubEntry(int index, SequenceSubEntryMode mode, int frameIndex, int abortVal) { if (_entries[index].entries.count >= TIMER_ENTRY_SUBSET_MAX) return true; int subIndex = _entries[index].entries.count++; _entries[index].entries.mode[subIndex] = mode; _entries[index].entries.frameIndex[subIndex] = frameIndex; _entries[index].entries.abortVal[subIndex] = abortVal; return false; } int MadsSequenceList::add(int spriteListIndex, int v0, int frameIndex, char field_24, int timeoutTicks, int extraTicks, int numTicks, int height, int width, char field_12, char scale, uint8 depth, int frameInc, SpriteAnimType animType, int numSprites, int frameStart) { // Find a free slot uint timerIndex = 0; while ((timerIndex < _entries.size()) && (_entries[timerIndex].active)) ++timerIndex; if (timerIndex == _entries.size()) error("TimerList full"); if (frameStart <= 0) frameStart = 1; if (numSprites == 0) numSprites = _madsVm->scene()->_spriteSlots.getSprite(spriteListIndex).getCount(); if (frameStart == numSprites) frameInc = 0; // Set the list entry fields _entries[timerIndex].active = true; _entries[timerIndex].spriteListIndex = spriteListIndex; _entries[timerIndex].field_2 = v0; _entries[timerIndex].frameIndex = frameIndex; _entries[timerIndex].frameStart = frameStart; _entries[timerIndex].numSprites = numSprites; _entries[timerIndex].animType = animType; _entries[timerIndex].frameInc = frameInc; _entries[timerIndex].depth = depth; _entries[timerIndex].scale = scale; _entries[timerIndex].field_12 = field_12; _entries[timerIndex].width = width; _entries[timerIndex].height = height; _entries[timerIndex].numTicks = numTicks; _entries[timerIndex].extraTicks = extraTicks; _entries[timerIndex].timeout = _madsVm->_currentTimer + timeoutTicks; _entries[timerIndex].field_24 = field_24; _entries[timerIndex].field_25 = 0; _entries[timerIndex].field_13 = 0; _entries[timerIndex].dynamicHotspotIndex = -1; _entries[timerIndex].entries.count = 0; _entries[timerIndex].abortMode = _owner._abortTimersMode2; for (int i = 0; i < 3; ++i) _entries[timerIndex].actionNouns[i] = _madsVm->scene()->actionNouns[i]; return timerIndex; } void MadsSequenceList::remove(int timerIndex) { if (_entries[timerIndex].active) { if (_entries[timerIndex].dynamicHotspotIndex >= 0) _owner._dynamicHotspots.remove(_entries[timerIndex].dynamicHotspotIndex); } _entries[timerIndex].active = false; _owner._spriteSlots.deleteTimer(timerIndex); } void MadsSequenceList::setSpriteSlot(int timerIndex, MadsSpriteSlot &spriteSlot) { MadsSequenceEntry &timerEntry = _entries[timerIndex]; SpriteAsset &sprite = _owner._spriteSlots.getSprite(timerEntry.spriteListIndex); // TODO: Figure out logic for spriteId value based on SPRITE_SLOT.field_0 spriteSlot.spriteId = (0 /*field 0*/ == 1) ? -4 : 1; spriteSlot.timerIndex = timerIndex; spriteSlot.spriteListIndex = timerEntry.spriteListIndex; spriteSlot.frameNumber = ((timerEntry.field_2 == 1) ? 0x8000 : 0) | timerEntry.frameIndex; spriteSlot.depth = timerEntry.depth; spriteSlot.scale = timerEntry.scale; if (timerEntry.field_12 == 0) { spriteSlot.xp = timerEntry.width; spriteSlot.yp = timerEntry.height; } else { spriteSlot.xp = sprite.getFrame(timerEntry.frameIndex - 1)->x; spriteSlot.yp = sprite.getFrame(timerEntry.frameIndex - 1)->y; } } bool MadsSequenceList::loadSprites(int timerIndex) { MadsSequenceEntry &seqEntry = _entries[timerIndex]; int slotIndex; bool result = false; int idx = -1; _owner._spriteSlots.deleteTimer(timerIndex); if (seqEntry.field_25 != 0) { remove(timerIndex); return false; } if (seqEntry.spriteListIndex == -1) { seqEntry.field_25 = -1; } else if ((slotIndex = _owner._spriteSlots.getIndex()) >= 0) { MadsSpriteSlot &spriteSlot = _owner._spriteSlots[slotIndex]; setSpriteSlot(timerIndex, spriteSlot); int x2 = 0, y2 = 0; if ((seqEntry.field_13 != 0) || (seqEntry.dynamicHotspotIndex >= 0)) { SpriteAsset &spriteSet = _owner._spriteSlots.getSprite(seqEntry.spriteListIndex); M4Sprite *frame = spriteSet.getFrame(seqEntry.frameIndex - 1); int width = frame->width() * seqEntry.scale / 200; int height = frame->height() * seqEntry.scale / 100; warning("frame size %d x %d", width, height); // TODO: Missing stuff here, and I'm not certain about the dynamic hotspot stuff below if (seqEntry.dynamicHotspotIndex >= 0) { DynamicHotspot &dynHotspot = _owner._dynamicHotspots[seqEntry.dynamicHotspotIndex]; dynHotspot.bounds.left = MAX(x2 - width, 0); dynHotspot.bounds.right = MAX(x2 - width, 319) - dynHotspot.bounds.left + 1; dynHotspot.bounds.top = MAX(y2 - height, 0); dynHotspot.bounds.bottom = MIN(y2, 155) - dynHotspot.bounds.top; _owner._dynamicHotspots._flag = true; } } // Frame adjustments if (seqEntry.frameStart != seqEntry.numSprites) seqEntry.frameIndex += seqEntry.frameInc; if (seqEntry.frameIndex >= seqEntry.frameStart) { if (seqEntry.frameIndex > seqEntry.numSprites) { result = true; if (seqEntry.animType != ANIMTYPE_CYCLED) { // Keep index from exceeding maximum allowed seqEntry.frameIndex = seqEntry.frameStart; } else { // Switch into reverse seqEntry.frameIndex = seqEntry.numSprites - 1; seqEntry.frameInc = -1; } } } else { // Currently in reverse mode result = true; if (seqEntry.animType == ANIMTYPE_CYCLED) { // Switch back to forward direction again seqEntry.frameIndex = seqEntry.frameStart + 1; seqEntry.frameInc = 1; } else { // Otherwise reset back to last sprite for further reverse animating seqEntry.frameIndex = seqEntry.numSprites; } } if (result && (seqEntry.field_24 != 0)) { if (--seqEntry.field_24 != 0) seqEntry.field_25 = -1; } } else { // Out of sprite slots seqEntry.field_25 = -1; } if (seqEntry.entries.count > 0) { for (int i = 0; i <= seqEntry.entries.count; ++i) { switch (seqEntry.entries.mode[i]) { case SM_0: case SM_1: if (((seqEntry.entries.mode[i] == SM_0) && (seqEntry.field_25 != 0)) || ((seqEntry.entries.mode[i] == SM_1) && result)) idx = i; break; case SM_FRAME_INDEX: { int v = seqEntry.entries.frameIndex[i]; if ((v == seqEntry.frameIndex) || (v == 0)) idx = i; } default: break; } } } if (idx >= 0) { _owner._abortTimers = seqEntry.entries.abortVal[idx]; _owner._abortTimersMode = seqEntry.abortMode; } return result; } /** * Handles counting down entries in the timer list for action */ void MadsSequenceList::tick() { for (uint idx = 0; idx < _entries.size(); ++idx) { if ((_owner._abortTimers2 == 0) && (_owner._abortTimers != 0)) break; MadsSequenceEntry &timerEntry = _entries[idx]; uint32 currentTimer = _madsVm->_currentTimer; if (!timerEntry.active || (currentTimer < timerEntry.timeout)) continue; // Set the next timeout for the timer entry timerEntry.timeout = currentTimer + timerEntry.numTicks; // Action the sprite if (loadSprites(idx)) { timerEntry.timeout += timerEntry.extraTicks; } } } void MadsSequenceList::delay(uint32 v1, uint32 v2) { for (uint idx = 0; idx < _entries.size(); ++idx) { if (_entries[idx].active) { _entries[idx].timeout += v1 - v2; } } } //-------------------------------------------------------------------------- MadsView::MadsView(View *view): _view(view), _dynamicHotspots(*this), _sequenceList(*this), _kernelMessages(*this) { _textSpacing = -1; _ticksAmount = 3; _newTimeout = 0; _abortTimers = 0; _abortTimers2 = 0; _abortTimersMode = ABORTMODE_0; _abortTimersMode2 = ABORTMODE_0; } void MadsView::refresh() { // Draw any sprites _spriteSlots.draw(_view); // Draw text elements onto the view _textDisplay.draw(_view); // Remove any sprite slots that are no longer needed _spriteSlots.cleanUp(); // Deactivate any text display entries that are no longer needed _textDisplay.cleanUp(); } /*-------------------------------------------------------------------------- * MadsInterfaceView handles the user interface section at the bottom of * game screens in MADS games *-------------------------------------------------------------------------- */ MadsInterfaceView::MadsInterfaceView(MadsM4Engine *vm): GameInterfaceView(vm, Common::Rect(0, MADS_SURFACE_HEIGHT, vm->_screen->width(), vm->_screen->height())) { _screenType = VIEWID_INTERFACE; _highlightedElement = -1; _topIndex = 0; _selectedObject = -1; _cheatKeyCtr = 0; _objectSprites = NULL; _objectPalData = NULL; /* Set up the rect list for screen elements */ // Actions for (int i = 0; i < 10; ++i) _screenObjects.addRect((i / 5) * 32 + 1, (i % 5) * 8 + MADS_SURFACE_HEIGHT + 2, ((i / 5) + 1) * 32 + 3, ((i % 5) + 1) * 8 + MADS_SURFACE_HEIGHT + 2); // Scroller elements (up arrow, scroller, down arrow) _screenObjects.addRect(73, 160, 82, 167); _screenObjects.addRect(73, 168, 82, 190); _screenObjects.addRect(73, 191, 82, 198); // Inventory object names for (int i = 0; i < 5; ++i) _screenObjects.addRect(89, 158 + i * 8, 160, 166 + i * 8); // Full rectangle area for all vocab actions for (int i = 0; i < 5; ++i) _screenObjects.addRect(239, 158 + i * 8, 320, 166 + i * 8); } MadsInterfaceView::~MadsInterfaceView() { delete _objectSprites; } void MadsInterfaceView::setFontMode(InterfaceFontMode newMode) { switch (newMode) { case ITEM_NORMAL: _vm->_font->setColors(4, 4, 0xff); break; case ITEM_HIGHLIGHTED: _vm->_font->setColors(5, 5, 0xff); break; case ITEM_SELECTED: _vm->_font->setColors(6, 6, 0xff); break; } } void MadsInterfaceView::initialise() { // Build up the inventory list _inventoryList.clear(); for (uint i = 0; i < _madsVm->globals()->getObjectsSize(); ++i) { MadsObject *obj = _madsVm->globals()->getObject(i); if (obj->roomNumber == PLAYER_INVENTORY) _inventoryList.push_back(i); } // If the inventory has at least one object, select it if (_inventoryList.size() > 0) setSelectedObject(_inventoryList[0]); } void MadsInterfaceView::setSelectedObject(int objectNumber) { char resName[80]; // Load inventory resource if (_objectSprites) { _vm->_palette->deleteRange(_objectPalData); delete _objectSprites; } // Check to make sure the object is in the inventory, and also visible on-screen int idx = _inventoryList.indexOf(objectNumber); if (idx == -1) { // Object wasn't found, so return _selectedObject = -1; return; } // Found the object if (idx < _topIndex) _topIndex = idx; else if (idx >= (_topIndex + 5)) _topIndex = MAX(0, idx - 4); _selectedObject = objectNumber; sprintf(resName, "*OB%.3dI.SS", objectNumber); Common::SeekableReadStream *data = _vm->res()->get(resName); _objectSprites = new SpriteAsset(_vm, data, data->size(), resName); _vm->res()->toss(resName); // Slot it into available palette space _objectPalData = _objectSprites->getRgbList(); _vm->_palette->addRange(_objectPalData); _objectSprites->translate(_objectPalData, true); _objectFrameNumber = 0; } void MadsInterfaceView::addObjectToInventory(int objectNumber) { if (_inventoryList.indexOf(objectNumber) == -1) { _madsVm->globals()->getObject(objectNumber)->roomNumber = PLAYER_INVENTORY; _inventoryList.push_back(objectNumber); } setSelectedObject(objectNumber); } void MadsInterfaceView::onRefresh(RectList *rects, M4Surface *destSurface) { _vm->_font->setFont(FONT_INTERFACE_MADS); char buffer[100]; // Check to see if any dialog is currently active bool dialogVisible = _vm->_viewManager->getView(LAYER_DIALOG) != NULL; // Highlighting logic for action list int actionIndex = 0; for (int x = 0; x < 2; ++x) { for (int y = 0; y < 5; ++y, ++actionIndex) { // Determine the font colour depending on whether an item is selected. Note that the first action, // 'Look', is always 'selected', even when another action is clicked on setFontMode((_highlightedElement == actionIndex) ? ITEM_HIGHLIGHTED : ((actionIndex == 0) ? ITEM_SELECTED : ITEM_NORMAL)); // Get the verb action and capitalise it const char *verbStr = _madsVm->globals()->getVocab(kVerbLook + actionIndex); strcpy(buffer, verbStr); if ((buffer[0] >= 'a') && (buffer[0] <= 'z')) buffer[0] -= 'a' - 'A'; // Display the verb const Common::Rect r(_screenObjects[actionIndex]); _vm->_font->writeString(destSurface, buffer, r.left, r.top, r.width(), 0); } } // Check for highlighting of the scrollbar controls if ((_highlightedElement == SCROLL_UP) || (_highlightedElement == SCROLL_SCROLLER) || (_highlightedElement == SCROLL_DOWN)) { // Highlight the control's borders const Common::Rect r(_screenObjects[_highlightedElement]); destSurface->frameRect(r, 5); } // Draw the horizontal line in the scroller representing the current top selected const Common::Rect scroller(_screenObjects[SCROLL_SCROLLER]); int yP = (_inventoryList.size() < 2) ? 0 : (scroller.height() - 5) * _topIndex / (_inventoryList.size() - 1); destSurface->setColor(4); destSurface->hLine(scroller.left + 2, scroller.right - 3, scroller.top + 2 + yP); // List inventory items for (uint i = 0; i < 5; ++i) { if ((_topIndex + i) >= _inventoryList.size()) break; const char *descStr = _madsVm->globals()->getVocab(_madsVm->globals()->getObject( _inventoryList[_topIndex + i])->descId); strcpy(buffer, descStr); if ((buffer[0] >= 'a') && (buffer[0] <= 'z')) buffer[0] -= 'a' - 'A'; const Common::Rect r(_screenObjects[INVLIST_START + i]); // Set the highlighting of the inventory item if (_highlightedElement == (int)(INVLIST_START + i)) setFontMode(ITEM_HIGHLIGHTED); else if (_selectedObject == _inventoryList[_topIndex + i]) setFontMode(ITEM_SELECTED); else setFontMode(ITEM_NORMAL); // Write out it's description _vm->_font->writeString(destSurface, buffer, r.left, r.top, r.width(), 0); } // Handle the display of any currently selected object if (_objectSprites) { // Display object sprite. Note that the frame number isn't used directly, because it would result // in too fast an animation M4Sprite *spr = _objectSprites->getFrame(_objectFrameNumber / INV_ANIM_FRAME_SPEED); spr->copyTo(destSurface, INVENTORY_X, INVENTORY_Y, 0); if (!_madsVm->globals()->_config.invObjectsStill && !dialogVisible) { // If objects need to be animated, move to the next frame if (++_objectFrameNumber >= (_objectSprites->getCount() * INV_ANIM_FRAME_SPEED)) _objectFrameNumber = 0; } // List the vocab actions for the currently selected object MadsObject *obj = _madsVm->globals()->getObject(_selectedObject); int yIndex = MIN(_highlightedElement - VOCAB_START, obj->vocabCount - 1); for (int i = 0; i < obj->vocabCount; ++i) { const Common::Rect r(_screenObjects[VOCAB_START + i]); // Get the vocab description and capitalise it const char *descStr = _madsVm->globals()->getVocab(obj->vocabList[i].vocabId); strcpy(buffer, descStr); if ((buffer[0] >= 'a') && (buffer[0] <= 'z')) buffer[0] -= 'a' - 'A'; // Set the highlighting and display the entry setFontMode((i == yIndex) ? ITEM_HIGHLIGHTED : ITEM_NORMAL); _vm->_font->writeString(destSurface, buffer, r.left, r.top, r.width(), 0); } } } bool MadsInterfaceView::onEvent(M4EventType eventType, int32 param1, int x, int y, bool &captureEvents) { MadsAction &act = _madsVm->scene()->getAction(); // If the mouse isn't being held down, then reset the repeated scroll timer if (eventType != MEVENT_LEFT_HOLD) _nextScrollerTicks = 0; // Handle various event types switch (eventType) { case MEVENT_MOVE: // If the cursor isn't in "wait mode", don't do any processing if (_vm->_mouse->getCursorNum() == CURSOR_WAIT) return true; // Ensure the cursor is the standard arrow _vm->_mouse->setCursorNum(CURSOR_ARROW); // Check if any interface element is currently highlighted _highlightedElement = _screenObjects.find(Common::Point(x, y)); return true; case MEVENT_LEFT_CLICK: // Left mouse click { // Check if an inventory object was selected if ((_highlightedElement >= INVLIST_START) && (_highlightedElement < (INVLIST_START + 5))) { // Ensure there is an inventory item listed in that cell uint idx = _highlightedElement - INVLIST_START; if ((_topIndex + idx) < _inventoryList.size()) { // Set the selected object setSelectedObject(_inventoryList[_topIndex + idx]); } } else if ((_highlightedElement >= ACTIONS_START) && (_highlightedElement < (ACTIONS_START + 10))) { // A standard action was selected int verbId = kVerbLook + (_highlightedElement - ACTIONS_START); warning("Selected action #%d", verbId); } else if ((_highlightedElement >= VOCAB_START) && (_highlightedElement < (VOCAB_START + 5))) { // A vocab action was selected MadsObject *obj = _madsVm->globals()->getObject(_selectedObject); int vocabIndex = MIN(_highlightedElement - VOCAB_START, obj->vocabCount - 1); if (vocabIndex >= 0) { act._actionMode = ACTMODE_OBJECT; act._actionMode2 = ACTMODE2_2; act._flags1 = obj->vocabList[1].flags1; act._flags2 = obj->vocabList[1].flags2; act._currentHotspot = _selectedObject; act._articleNumber = act._flags2; } } } return true; case MEVENT_LEFT_HOLD: // Left mouse hold // Handle the scroller - the up/down buttons allow for multiple actions whilst the mouse is held down if ((_highlightedElement == SCROLL_UP) || (_highlightedElement == SCROLL_DOWN)) { if ((_nextScrollerTicks == 0) || (g_system->getMillis() >= _nextScrollerTicks)) { // Handle scroll up/down action _nextScrollerTicks = g_system->getMillis() + SCROLLER_DELAY; if ((_highlightedElement == SCROLL_UP) && (_topIndex > 0)) --_topIndex; if ((_highlightedElement == SCROLL_DOWN) && (_topIndex < (int)(_inventoryList.size() - 1))) ++_topIndex; } } return true; case MEVENT_LEFT_DRAG: // Left mouse drag // Handle the the the scroller area that can be dragged to adjust the top displayed index if (_highlightedElement == SCROLL_SCROLLER) { // Calculate the new top index based on the Y position const Common::Rect r(_screenObjects[SCROLL_SCROLLER]); _topIndex = CLIP((int)(_inventoryList.size() - 1) * (y - r.top - 2) / (r.height() - 5), 0, (int)_inventoryList.size() - 1); } return true; case KEVENT_KEY: if (_cheatKeyCtr == CHEAT_SEQUENCE_MAX) handleCheatKey(param1); handleKeypress(param1); return true; default: break; } return false; } bool MadsInterfaceView::handleCheatKey(int32 keycode) { switch (keycode) { case Common::KEYCODE_SPACE: // TODO: Move player to current destination return true; case Common::KEYCODE_t | (Common::KEYCODE_LALT): case Common::KEYCODE_t | (Common::KEYCODE_RALT): { // Teleport to room //Scene *sceneView = (Scene *)vm->_viewManager->getView(VIEWID_SCENE); return true; } default: break; } return false; } const char *CHEAT_SEQUENCE = "widepipe"; bool MadsInterfaceView::handleKeypress(int32 keycode) { int flags = keycode >> 24; int kc = keycode & 0xffff; // Capitalise the letter if necessary if (_cheatKeyCtr < CHEAT_SEQUENCE_MAX) { if ((flags & Common::KBD_CTRL) && (kc == CHEAT_SEQUENCE[_cheatKeyCtr])) { ++_cheatKeyCtr; if (_cheatKeyCtr == CHEAT_SEQUENCE_MAX) Dialog::display(_vm, 22, cheatingEnabledDesc); return true; } else { _cheatKeyCtr = 0; } } // Handle the various keys if ((keycode == Common::KEYCODE_ESCAPE) || (keycode == Common::KEYCODE_F1)) { // Game menu _madsVm->globals()->dialogType = DIALOG_GAME_MENU; leaveScene(); return false; } else if (flags & Common::KBD_CTRL) { // Handling of the different control key combinations switch (kc) { case Common::KEYCODE_i: // Mouse to inventory warning("TODO: Mouse to inventory"); break; case Common::KEYCODE_k: // Toggle hotspots warning("TODO: Toggle hotspots"); break; case Common::KEYCODE_p: // Player stats warning("TODO: Player stats"); break; case Common::KEYCODE_q: // Quit game break; case Common::KEYCODE_s: // Activate sound warning("TODO: Activate sound"); break; case Common::KEYCODE_u: // Rotate player warning("TODO: Rotate player"); break; case Common::KEYCODE_v: { // Release version Dialog *dlg = new Dialog(_vm, GameReleaseInfoStr, GameReleaseTitleStr); _vm->_viewManager->addView(dlg); _vm->_viewManager->moveToFront(dlg); return false; } default: break; } } else if ((flags & Common::KBD_ALT) && (kc == Common::KEYCODE_q)) { // Quit Game } else { // Standard keypresses switch (kc) { case Common::KEYCODE_F2: // Save game _madsVm->globals()->dialogType = DIALOG_SAVE; leaveScene(); break; case Common::KEYCODE_F3: // Restore game _madsVm->globals()->dialogType = DIALOG_RESTORE; leaveScene(); break; } } //DIALOG_OPTIONS return false; } void MadsInterfaceView::leaveScene() { // Close the scene View *view = _madsVm->_viewManager->getView(VIEWID_SCENE); _madsVm->_viewManager->deleteView(view); } } // End of namespace M4