/* 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 "gob/hotspots.h" #include "gob/global.h" #include "gob/helper.h" #include "gob/draw.h" #include "gob/game.h" #include "gob/script.h" #include "gob/inter.h" namespace Gob { Hotspots::Hotspot::Hotspot() { clear(); } Hotspots::Hotspot::Hotspot(uint16 i, uint16 l, uint16 t, uint16 r, uint16 b, uint16 f, uint16 k, uint16 enter, uint16 leave, uint16 pos) { id = i; left = l; top = t; right = r; bottom = b; flags = f; key = k; funcEnter = enter; funcLeave = leave; funcPos = pos; script = 0; } void Hotspots::Hotspot::clear() { id = 0; left = 0xFFFF; top = 0; right = 0; bottom = 0; flags = 0; key = 0; funcEnter = 0; funcLeave = 0; funcPos = 0; script = 0; } Hotspots::Type Hotspots::Hotspot::getType() const { return (Type) (flags & 0xF); } MouseButtons Hotspots::Hotspot::getButton() const { uint8 buttonBits = ((flags & 0x70) >> 4); if (buttonBits == 0) return kMouseButtonsLeft; if (buttonBits == 1) return kMouseButtonsRight; if (buttonBits == 2) return kMouseButtonsAny; return kMouseButtonsNone; } uint8 Hotspots::Hotspot::getWindow() const { return (flags & 0x0F00) >> 8; } uint8 Hotspots::Hotspot::getCursor() const { return (flags & 0xF000) >> 12; } uint8 Hotspots::Hotspot::getState(uint16 id) { return (id & 0xF000) >> 12; } uint8 Hotspots::Hotspot::getState() const { return getState(id); } bool Hotspots::Hotspot::isEnd() const { return (left == 0xFFFF); } bool Hotspots::Hotspot::isInput() const { if (getType() < kTypeInput1NoLeave) return false; if (getType() > kTypeInputFloatLeave) return false; return true; } bool Hotspots::Hotspot::isActiveInput() const { if (isEnd()) return false; if (!isFilledEnabled()) return false; if (!isInput()) return false; return true; } bool Hotspots::Hotspot::isInputLeave() const { if (!isInput()) return false; if (!(getType() & 1)) return true; return false; } bool Hotspots::Hotspot::isFilled() const { return getState() & kStateFilled; } bool Hotspots::Hotspot::isFilledEnabled() const { return (getState() & kStateFilledDisabled) == kStateFilled; } bool Hotspots::Hotspot::isFilledNew() const { return getState() == kStateFilled; } bool Hotspots::Hotspot::isDisabled() const { return getState() & kStateDisabled; } bool Hotspots::Hotspot::isIn(uint16 x, uint16 y) const { // FIXME: the cast to int16 is a hack, to fix handling of Gob2 problems related to // hotspots with negative offset (to temporary disable them). if ((int16) x < (int16) left) return false; if ((int16) x > (int16) right) return false; if ((int16) y < (int16) top) return false; if ((int16) y > (int16) bottom) return false; return true; } bool Hotspots::Hotspot::buttonMatch(MouseButtons button) const { MouseButtons myButton = getButton(); if (myButton == kMouseButtonsAny) // Any button allowed return true; if (myButton == kMouseButtonsNone) // No button allowed return false; if (myButton == button) // Exact match return true; return false; } void Hotspots::Hotspot::disable() { id |= (kStateDisabled << 12); } void Hotspots::Hotspot::enable() { id &= ~(kStateDisabled << 12); } Hotspots::Hotspots(GobEngine *vm) : _vm(vm) { _hotspots = new Hotspot[kHotspotCount]; _shouldPush = false; _currentKey = 0; _currentIndex = 0; _currentId = 0; } Hotspots::~Hotspots() { delete[] _hotspots; // Pop the whole stack and free each element's memory while (!_stack.empty()) { StackEntry backup = _stack.pop(); delete[] backup.hotspots; } } void Hotspots::clear() { _currentKey = 0; for (int i = 0; i < kHotspotCount; i++) _hotspots[i].clear(); } uint16 Hotspots::add(uint16 id, uint16 left, uint16 top, uint16 right, uint16 bottom, uint16 flags, uint16 key, uint16 funcEnter, uint16 funcLeave, uint16 funcPos) { Hotspot hotspot(id, left, top, right, bottom, flags, key, funcEnter, funcLeave, funcPos); return add(hotspot); } uint16 Hotspots::add(const Hotspot &hotspot) { for (int i = 0; i < kHotspotCount; i++) { Hotspot &spot = _hotspots[i]; // free space => add same id => update if (! (spot.isEnd() || (spot.id == hotspot.id))) continue; // When updating, keep disabled state intact uint16 id = hotspot.id; if ((spot.id & ~(kStateDisabled << 12)) == (hotspot.id & ~(kStateDisabled << 12))) id = spot.id; // Set spot = hotspot; spot.id = id; // Remember the current script spot.script = _vm->_game->_script; debugC(1, kDebugHotspots, "Adding hotspot %03d: %3d+%3d+%3d+%3d - %04X, %04X, %04X - %5d, %5d, %5d", i, spot.left, spot.top, spot.right, spot.bottom, spot.id, spot.key, spot.flags, spot.funcEnter, spot.funcLeave, spot.funcPos); return i; } error("Hotspots::add(): Hotspot array full"); return 0xFFFF; // for compilers that don't support NORETURN } void Hotspots::remove(uint16 id) { for (int i = 0; i < kHotspotCount; i++) { if (_hotspots[i].id == id) { debugC(1, kDebugHotspots, "Removing hotspot %d: %X", i, id); _hotspots[i].clear(); } } } void Hotspots::removeState(uint8 state) { for (int i = 0; i < kHotspotCount; i++) { Hotspot &spot = _hotspots[i]; if (spot.getState() == state) { debugC(1, kDebugHotspots, "Removing hotspot %d: %X (by state %X)", i, spot.id, state); spot.clear(); } } } void Hotspots::recalculate(bool force) { debugC(5, kDebugHotspots, "Recalculating hotspots"); for (int i = 0; (i < kHotspotCount) && !_hotspots[i].isEnd(); i++) { Hotspot &spot = _hotspots[i]; if (!force && ((spot.flags & 0x80) != 0)) // Not forcing a special hotspot continue; if (spot.funcPos == 0) // Simple coordinates don't need update continue; // Setting the needed script Script *curScript = _vm->_game->_script; _vm->_game->_script = spot.script; if (!_vm->_game->_script) _vm->_game->_script = curScript; // Calling the function that contains the positions _vm->_game->_script->call(spot.funcPos); // Calculate positions int16 left = _vm->_game->_script->readValExpr(); int16 top = _vm->_game->_script->readValExpr(); int16 width = _vm->_game->_script->readValExpr(); int16 height = _vm->_game->_script->readValExpr(); // Re-read the flags too, if applicable uint16 flags = 0; if (spot.getState() == (kStateFilled | kStateType2)) flags = _vm->_game->_script->readValExpr(); // Apply backDelta, if needed if ((_vm->_draw->_renderFlags & RENDERFLAG_CAPTUREPOP) && (left != -1)) { left += _vm->_draw->_backDeltaX; top += _vm->_draw->_backDeltaY; } // Clamping if (left < 0) { width += left; left = 0; } if (top < 0) { height += top; top = 0; } // Set the updated position spot.left = left; spot.top = top; spot.right = left + width - 1; spot.bottom = top + height - 1; if (spot.getState() == (kStateFilled | kStateType2)) spot.flags = flags; // Return _vm->_game->_script->pop(); _vm->_game->_script = curScript; } } void Hotspots::push(uint8 all, bool force) { debugC(1, kDebugHotspots, "Pushing hotspots (%d, %d)", all, force); // Should we push at all? if (!_shouldPush && !force) return; // Count the hotspots uint32 size = 0; for (int i = 0; (i < kHotspotCount) && !_hotspots[i].isEnd(); i++) { Hotspot &spot = _hotspots[i]; // Save all of them if ( (all == 1) || // Don't save the global ones ((all == 0) && (spot.id >= 20)) || // Only save disabled ones ((all == 2) && ((spot.getState() == (kStateFilledDisabled | kStateType1)) || (spot.getState() == (kStateDisabled)) || (spot.getState() == (kStateFilledDisabled | kStateType2))))) { size++; } } StackEntry backup; backup.shouldPush = _shouldPush; backup.size = size; backup.key = _currentKey; backup.id = _currentId; backup.index = _currentIndex; backup.hotspots = new Hotspot[size]; // Copy the hotspots Hotspot *destPtr = backup.hotspots; for (int i = 0; (i < kHotspotCount) && !_hotspots[i].isEnd(); i++) { Hotspot &spot = _hotspots[i]; // Save all of them if ( (all == 1) || // Don't save the global ones ((all == 0) && (spot.id >= 20)) || // Only save disabled ones ((all == 2) && ((spot.getState() == (kStateFilledDisabled | kStateType1)) || (spot.getState() == (kStateDisabled)) || (spot.getState() == (kStateFilledDisabled | kStateType2))))) { memcpy(destPtr, &spot, sizeof(Hotspot)); destPtr++; spot.clear(); } } // Reset current state _shouldPush = false; _currentKey = 0; _currentId = 0; _currentIndex = 0; _stack.push(backup); } void Hotspots::pop() { debugC(1, kDebugHotspots, "Popping hotspots"); assert(!_stack.empty()); StackEntry backup = _stack.pop(); // Find the end of the filled hotspot space int i; Hotspot *destPtr = _hotspots; for (i = 0; i < kHotspotCount; i++, destPtr++) if (destPtr->isEnd()) break; if (((uint32) (kHotspotCount - i)) < backup.size) error("Hotspots::pop(): Not enough free space in the current Hotspot " "array to pop %d elements (got %d)", backup.size, kHotspotCount - i); // Copy memcpy(destPtr, backup.hotspots, backup.size * sizeof(Hotspot)); _shouldPush = backup.shouldPush; _currentKey = backup.key; _currentId = backup.id; _currentIndex = backup.index; delete[] backup.hotspots; } bool Hotspots::isValid(uint16 key, uint16 id, uint16 index) const { if (index >= kHotspotCount) return false; if (key == 0) return false; if (!(Hotspot::getState(id) & kStateFilled)) return false; return true; } void Hotspots::call(uint16 offset) { debugC(4, kDebugHotspots, "Calling hotspot function %d", offset); _vm->_game->_script->call(offset); _shouldPush = true; int16 stackSize = _stack.size(); _vm->_inter->funcBlock(0); while (stackSize != _stack.size()) pop(); _shouldPush = false; _vm->_game->_script->pop(); recalculate(false); } void Hotspots::enter(uint16 index) { debugC(2, kDebugHotspots, "Entering hotspot %d", index); if (index >= kHotspotCount) { warning("Hotspots::enter(): Index %d out of range", index); return; } Hotspot &spot = _hotspots[index]; // If requested, write the ID into a variable if ((spot.getState() == (kStateFilled | kStateType1)) || (spot.getState() == (kStateFilled | kStateType2))) WRITE_VAR(17, -(spot.id & 0x0FFF)); if (spot.funcEnter != 0) call(spot.funcEnter); } void Hotspots::leave(uint16 index) { debugC(2, kDebugHotspots, "Leaving hotspot %d", index); if (index >= kHotspotCount) { warning("Hotspots::leave(): Index %d out of range", index); return; } Hotspot &spot = _hotspots[index]; // If requested, write the ID into a variable if ((spot.getState() == (kStateFilled | kStateType1)) || (spot.getState() == (kStateFilled | kStateType2))) WRITE_VAR(17, spot.id & 0x0FFF); if (spot.funcLeave != 0) call(spot.funcLeave); } int16 Hotspots::curWindow(int16 &dx, int16 &dy) const { if ((_vm->_draw->_renderFlags & 0x80)==0) return(0); for (int i = 0; i < 10; i++) if (_vm->_draw->_fascinWin[i].id != -1) if (_vm->_global->_inter_mouseX >= _vm->_draw->_fascinWin[i].left && _vm->_global->_inter_mouseX < _vm->_draw->_fascinWin[i].left + _vm->_draw->_fascinWin[i].width && _vm->_global->_inter_mouseY >= _vm->_draw->_fascinWin[i].top && _vm->_global->_inter_mouseY < _vm->_draw->_fascinWin[i].top + _vm->_draw->_fascinWin[i].height) if (_vm->_draw->_fascinWin[i].id == _vm->_draw->_winCount-1) { dx = _vm->_draw->_fascinWin[i].left; dy = _vm->_draw->_fascinWin[i].top; if (_vm->_global->_inter_mouseX < _vm->_draw->_fascinWin[i].left + 12 && _vm->_global->_inter_mouseY < _vm->_draw->_fascinWin[i].top + 12 && (VAR((_vm->_draw->_winVarArrayStatus / 4) + i) & 2)) return(5); if (_vm->_global->_inter_mouseX >= _vm->_draw->_fascinWin[i].left + _vm->_draw->_fascinWin[i].width - 12 && _vm->_global->_inter_mouseY < _vm->_draw->_fascinWin[i].top + 12 && (VAR((_vm->_draw->_winVarArrayStatus / 4) + i) & 4)) return(6); return(-i); } return(0); } uint16 Hotspots::checkMouse(Type type, uint16 &id, uint16 &index) const { id = 0; index = 0; int16 dx = 0; int16 dy = 0; int16 winId = -1; if (_vm->getGameType() == kGameTypeFascination) winId = _vm->_draw->isOverWin(dx, dy); warning("checkmouse %d - %d %d",winId, dx, dy); if (winId < 0) { winId = 0; dx = 0; dy = 0; } else winId *= 256; if (type == kTypeMove) { // Check where the mouse was moved to for (int i = 0; (i < kHotspotCount) && !_hotspots[i].isEnd(); i++) { const Hotspot &spot = _hotspots[i]; if (spot.isDisabled()) // Only consider enabled hotspots continue; //Strangerke, for Fascination if ((spot.flags & 0xFF00) != winId) continue; if (spot.getType() > kTypeMove) // Only consider click and move hotspots continue; // if (spot.getWindow() != 0) // Only check the main window // continue; if (!spot.isIn(_vm->_global->_inter_mouseX - dx, _vm->_global->_inter_mouseY - dy)) // If we're not in it, ignore it continue; id = spot.id; index = i; return spot.key; } return 0; } else if (type == kTypeClick) { // Check if something was clicked for (int i = 0; (i < kHotspotCount) && !_hotspots[i].isEnd(); i++) { const Hotspot &spot = _hotspots[i]; if (spot.isDisabled()) // Only consider enabled hotspots continue; //Strangerke, for Fascination if ((spot.flags & 0xFF00) != winId) continue; // if (spot.getWindow() != 0) // Only check the main window // continue; if (spot.getType() < kTypeMove) // Only consider hotspots that can be clicked continue; if (!spot.isIn(_vm->_global->_inter_mouseX - dx, _vm->_global->_inter_mouseY - dy)) // If we're not in it, ignore it continue; if (!spot.buttonMatch(_vm->_game->_mouseButtons)) // Don't follow hotspots with button requirements we don't meet continue; id = spot.id; index = i; if ((spot.getType() == kTypeMove) || (spot.getType() == kTypeClick)) // It's a move or click => return the key return spot.key; // Otherwise, the key has a different meaning, so ignore it return 0; } if (_vm->_game->_mouseButtons != kMouseButtonsLeft) // Let the right mouse button act as an escape key return kKeyEscape; return 0; } return 0; } bool Hotspots::checkHotspotChanged() { uint16 key, id, index; // Get the current hotspot key = checkMouse(kTypeMove, id, index); if (key == _currentKey) // Nothing changed => nothing to do return false; // Leave the old area if (isValid(_currentKey, _currentId,_currentIndex)) leave(_currentIndex); _currentKey = key; _currentId = id; _currentIndex = index; // Enter the new one if (isValid(key, id, index)) enter(index); return true; } uint16 Hotspots::check(uint8 handleMouse, int16 delay, uint16 &id, uint16 &index) { if (delay >= -1) { _currentKey = 0; _currentId = 0; _currentIndex = 0; } id = 0; index = 0; if (handleMouse) { if ((_vm->_draw->_cursorIndex == -1) && (_currentKey == 0)) { // Last know state: No hotspot hit. Look if that changed _currentKey = checkMouse(kTypeMove, _currentId, _currentIndex); if (isValid(_currentKey, _currentId, _currentIndex)) enter(_currentIndex); } _vm->_draw->animateCursor(-1); } uint32 startTime = _vm->_util->getTimeKey(); // Update display _vm->_draw->blitInvalidated(); _vm->_video->waitRetrace(); uint16 key = 0; while (key == 0) { if (_vm->_inter->_terminate || _vm->shouldQuit()) { if (handleMouse) _vm->_draw->blitCursor(); return 0; } // Anything changed? checkHotspotChanged(); // Update display if (!_vm->_draw->_noInvalidated) { if (handleMouse) _vm->_draw->animateCursor(-1); else _vm->_draw->blitInvalidated(); _vm->_video->waitRetrace(); } if (handleMouse) _vm->_game->evaluateScroll(); // Update keyboard and mouse state key = _vm->_game->checkKeys(&_vm->_global->_inter_mouseX, &_vm->_global->_inter_mouseY, &_vm->_game->_mouseButtons, handleMouse); if (!handleMouse && (_vm->_game->_mouseButtons != kMouseButtonsNone)) { // We don't want any mouse input but got one => Wait till it went away _vm->_util->waitMouseRelease(0); key = 3; } if (key != 0) { // Got a key press if (handleMouse & 1) _vm->_draw->blitCursor(); id = 0; index = 0; // Leave the current hotspot if (isValid(_currentKey, _currentId, _currentIndex)) leave(_currentIndex); _currentKey = 0; break; } if (handleMouse) { if (_vm->_game->_mouseButtons != kMouseButtonsNone) { // Mouse button pressed int i; if (_vm->getGameType() == kGameTypeFascination) i = _vm->_draw->handleCurWin(); else i = 0; if (!i) { _vm->_draw->animateCursor(2); if (delay > 0) { // If a delay was requested, wait the specified time _vm->_util->delay(delay); } else if (handleMouse & 1) _vm->_util->waitMouseRelease(1); _vm->_draw->animateCursor(-1); // Which region was clicked? key = checkMouse(kTypeClick, id, index); if ((key != 0) || (id != 0)) { // Got a valid region if ( (handleMouse & 1) && ((delay <= 0) || (_vm->_game->_mouseButtons == kMouseButtonsNone))) _vm->_draw->blitCursor(); // If the hotspot changed, leave the old one if (key != _currentKey) leave(_currentIndex); _currentKey = 0; break; } if (handleMouse & 4) // Nothing further than one simple check was requested => return return 0; // Leave the current area if (_currentKey != 0) leave(_currentIndex); // No click, but do we have a move event? If so, enter that hotspot _currentKey = checkMouse(kTypeMove, _currentId, _currentIndex); if (isValid(_currentKey, _currentId, _currentIndex)) enter(_currentIndex); } else { WRITE_VAR(16, (int32) i); if (id) id=0; if (index) index=0; return(0); } } else // No mouse button pressed, check whether the position changed at least checkHotspotChanged(); } if ((delay == -2) && (key == 0) && (_vm->_game->_mouseButtons == kMouseButtonsNone)) { // Nothing found and no further handling requested. Return. id = 0; index = 0; break; } if (handleMouse) _vm->_draw->animateCursor(-1); if ((delay < 0) && (key == 0) && (_vm->_game->_mouseButtons == kMouseButtonsNone)) { // Look if we've maybe reached the timeout uint32 curTime = _vm->_util->getTimeKey(); if ((curTime + delay) > startTime) { // If so, return id = 0; index = 0; break; } } // Sleep for a short amount of time _vm->_util->delay(10); } return key; } uint16 Hotspots::check(uint8 handleMouse, int16 delay) { uint16 id, index; // Check and ignore the id and index return Hotspots::check(handleMouse, delay, id, index); } uint16 Hotspots::updateInput(uint16 xPos, uint16 yPos, uint16 width, uint16 height, uint16 backColor, uint16 frontColor, char *str, uint16 fontIndex, Type type, int16 &duration, uint16 &id, uint16 &index) { if ((fontIndex >= Draw::kFontCount) || !_vm->_draw->_fonts[fontIndex]) { warning("Hotspots::updateInput(): Invalid font specified: %d", fontIndex); return 0; } // Check if we need to consider mouse events bool handleMouse = false; if ( (_vm->_game->_handleMouse != 0) && ((_vm->_global->_useMouse != 0) || (_vm->_game->_forceHandleMouse != 0))) handleMouse = true; const Font &font = *_vm->_draw->_fonts[fontIndex]; // Current position in the string, preset to the end uint32 pos = strlen(str); /* Size of input field in characters. * If the font is not monospaced, we can't know that */ uint32 editSize = font.isMonospaced() ? (width / font.getCharWidth()) : 0; uint16 key = 0; char tempStr[256]; while (1) { // If we the edit field has enough space, add a space for the new character strncpy0(tempStr, str, 254); strcat(tempStr, " "); if ((editSize != 0) && strlen(tempStr) > editSize) strncpy0(tempStr, str, 255); // Clear input area fillRect(xPos, yPos, font.isMonospaced() ? (editSize * font.getCharWidth()) : width, height, backColor); // Print the current string, vertically centered printText(xPos, yPos + (height - font.getCharHeight()) / 2, tempStr, fontIndex, frontColor); // If we've reached the end of the input field, set the cursor to the last character if ((editSize != 0) && (pos == editSize)) pos--; // The character under the cursor char curSym = tempStr[pos]; if (_vm->_inter->_variables) WRITE_VAR(56, pos); bool first = true; while (1) { tempStr[0] = curSym; tempStr[1] = 0; // Draw cursor uint16 cursorX, cursorY, cursorWidth, cursorHeight; getTextCursorPos(font, str, pos, xPos, yPos, width, height, cursorX, cursorY, cursorWidth, cursorHeight); fillRect(cursorX, cursorY, cursorWidth, cursorHeight, frontColor); if (first) { // The first time, purge old information too key = check(handleMouse, -1, id, index); if (key == 0) // We didn't catch any input, let's try again with a real timeout key = check(handleMouse, -300, id, index); first = false; } else // Try to catch a character key = check(handleMouse, -300, id, index); tempStr[0] = curSym; tempStr[1] = 0; // Clear cursor getTextCursorPos(font, str, pos, xPos, yPos, width, height, cursorX, cursorY, cursorWidth, cursorHeight); fillRect(cursorX, cursorY, cursorWidth, cursorHeight, backColor); // Print the current string, vertically centered printText(cursorX, yPos + (height - font.getCharHeight()) / 2, tempStr, fontIndex, frontColor); if ((key != 0) || (id != 0)) // We did get a key, stop looking break; // Try again key = check(handleMouse, -300, id, index); if ((key != 0) || (id != 0) || _vm->_inter->_terminate || _vm->shouldQuit()) // We did get a key, stop looking break; if (duration > 0) { // Look if we reached the time limit duration -= 600; if (duration <= 1) { // If so, abort key = 0; id = 0; break; } } } if ((key == 0) || (id != 0) || _vm->_inter->_terminate || _vm->shouldQuit()) // Got no key, or a region ID instead, return return 0; switch (key) { case kKeyRight: // If possible, move the cursor right if (((editSize != 0) && ((pos > strlen(str)) || (pos > (editSize - 1)))) || ((editSize == 0) && (pos > strlen(str)))) { pos++; continue; } // Continue downwards instead return kKeyDown; case kKeyLeft: // If possible, move the cursor left if (pos > 0) { pos--; continue; } // Continue upwards instead return kKeyUp; case kKeyBackspace: if (pos > 0) { // Delete the character to the left _vm->_util->cutFromStr(str, pos - 1, 1); pos--; continue; } else { if (pos < strlen(str)) // Delete the character to the right _vm->_util->cutFromStr(str, pos, 1); } case kKeyDelete: if (pos >= strlen(str)) continue; // Delete the character to the right _vm->_util->cutFromStr(str, pos, 1); continue; case kKeyReturn: case kKeyF1: case kKeyF2: case kKeyF3: case kKeyF4: case kKeyF5: case kKeyF6: case kKeyF7: case kKeyF8: case kKeyF9: case kKeyF10: case kKeyUp: case kKeyDown: return key; case kKeyEscape: // If we got an escape event, wait until the mouse buttons have been released if (_vm->_global->_useMouse != 0) continue; _vm->_game->_forceHandleMouse = !_vm->_game->_forceHandleMouse; handleMouse = false; if ( (_vm->_game->_handleMouse != 0) && ((_vm->_global->_useMouse != 0) || (_vm->_game->_forceHandleMouse != 0))) handleMouse = true; while (_vm->_global->_pressedKeys[1] != 0) ; continue; default: // Got a "normal" key uint16 savedKey = key; key &= 0xFF; if (((type == kTypeInputFloatNoLeave) || (type == kTypeInputFloatLeave)) && (key >= ' ') && (key <= 0xFF)) { // Only allow character found in numerical floating values const char *str1 = "0123456789-.,+ "; const char *str2 = "0123456789-,,+ "; if ((((savedKey >> 8) > 1) && ((savedKey >> 8) < 12)) && ((_vm->_global->_pressedKeys[42] != 0) || (_vm->_global->_pressedKeys[56] != 0))) key = ((savedKey >> 8) - 1) % 10 + '0'; int i; for (i = 0; str1[i] != 0; i++) { if (key == str1[i]) { key = str2[i]; break; } } if (i == (int16) strlen(str1)) key = 0; } if ((key >= ' ') && (key <= 0xFF)) { if (editSize == 0) { // Length of the string + current character + next one int length = _vm->_draw->stringLength(str, fontIndex) + font.getCharWidth(' ') + font.getCharWidth(key); if (length > width) // We're above the limit, ignore the key continue; if (((int32) strlen(str)) >= (_vm->_global->_inter_animDataSize * 4 - 1)) // Above the limit of character allowed in a string, ignore the key continue; } else { if (strlen(str) > editSize) // We're over the upper character limit for this field continue; else if (editSize == strlen(str)) // We've reached the upper limit, overwrite the last character _vm->_util->cutFromStr(str, strlen(str) - 1, 1); } // Advance cursor pos++; tempStr[0] = key; tempStr[1] = 0; // Add character _vm->_util->insertStr(tempStr, str, pos - 1); } } } } uint16 Hotspots::handleInputs(int16 time, uint16 inputCount, uint16 &curInput, InputDesc *inputs, uint16 &id, uint16 &index) { // Redraw all texts in all inputs we currently manage updateAllTexts(inputs); for (int i = 0; i < 40; i++) WRITE_VAR(17 + i, 0); while (1) { // Find the hotspot index to our current input uint16 hotspotIndex = inputToHotspot(curInput); assert(hotspotIndex != 0xFFFF); Hotspot inputSpot = _hotspots[hotspotIndex]; // Handle input events from that input field uint16 key = updateInput(inputSpot.left, inputSpot.top, inputSpot.right - inputSpot.left + 1, inputSpot.bottom - inputSpot.top + 1, inputs[curInput].backColor, inputs[curInput].frontColor, GET_VARO_STR(inputSpot.key), inputs[curInput].fontIndex, inputSpot.getType(), time, id, index); if (_vm->_inter->_terminate) return 0; switch (key) { case kKeyNone: if (id == 0) // No key and no hotspot => return return 0; if (_vm->_game->_mouseButtons != kMouseButtonsNone) // Clicked something, get the hotspot index index = findClickedInput(index); if (!_hotspots[index].isInput()) // It's no input, return return 0; // Get the associated input index curInput = hotspotToInput(index); break; case kKeyF1: case kKeyF2: case kKeyF3: case kKeyF4: case kKeyF5: case kKeyF6: case kKeyF7: case kKeyF8: case kKeyF9: case kKeyF10: return key; case kKeyReturn: // Just one input => return if (inputCount == 1) return kKeyReturn; // End of input chain reached => wrap if (curInput == (inputCount - 1)) { curInput = 0; break; } // Next input curInput++; break; case kKeyDown: // Next input if ((inputCount - 1) > curInput) curInput++; break; case kKeyUp: // Previous input if (curInput > 0) curInput--; break; } } } void Hotspots::evaluateNew(uint16 i, uint16 *ids, InputDesc *inputs, uint16 &inputId, bool &hasInput, uint16 &inputCount) { ids[i] = 0; // Type and window byte type = _vm->_game->_script->readByte(); byte window = 0; if ((type & 0x40) != 0) { // Got a window ID type -= 0x40; window = _vm->_game->_script->readByte(); } // Coordinates uint16 left, top, width, height, right, bottom; uint32 funcPos = 0; if ((type & 0x80) != 0) { // Complex coordinate expressions funcPos = _vm->_game->_script->pos(); left = _vm->_game->_script->readValExpr(); top = _vm->_game->_script->readValExpr(); width = _vm->_game->_script->readValExpr(); height = _vm->_game->_script->readValExpr(); } else { // Immediate values funcPos = 0; left = _vm->_game->_script->readUint16(); top = _vm->_game->_script->readUint16(); width = _vm->_game->_script->readUint16(); height = _vm->_game->_script->readUint16(); } if (_vm->_draw->_renderFlags & 64) { warning("_renderFlags check added for Fascination"); _vm->_draw->_invalidatedTops[0] = 0; _vm->_draw->_invalidatedLefts[0] = 0; _vm->_draw->_invalidatedRights[0] = 319; _vm->_draw->_invalidatedBottoms[0] = 199; _vm->_draw->_invalidatedCount = 1; if (window == 0) { _vm->_video->drawLine(*_vm->_draw->_spritesArray[_vm->_draw->_destSurface], left + width - 1, top, left + width - 1, top + height - 1, 0); _vm->_video->drawLine(*_vm->_draw->_spritesArray[_vm->_draw->_destSurface], left, top, left, top + height - 1, 0); _vm->_video->drawLine(*_vm->_draw->_spritesArray[_vm->_draw->_destSurface], left, top, left + width - 1, top, 0); _vm->_video->drawLine(*_vm->_draw->_spritesArray[_vm->_draw->_destSurface], left, top + height - 1, left + width - 1, top + height - 1, 0); } else if ((_vm->_draw->_fascinWin[window].id != -1) && (_vm->_draw->_fascinWin[window].id == _vm->_draw->_winCount - 1)) { left += _vm->_draw->_fascinWin[window].left; top += _vm->_draw->_fascinWin[window].top; _vm->_video->drawLine(*_vm->_draw->_spritesArray[_vm->_draw->_destSurface], left + width - 1, top, left + width - 1, top + height - 1, 0); _vm->_video->drawLine(*_vm->_draw->_spritesArray[_vm->_draw->_destSurface], left, top, left, top + height - 1, 0); _vm->_video->drawLine(*_vm->_draw->_spritesArray[_vm->_draw->_destSurface], left, top, left + width - 1, top, 0); _vm->_video->drawLine(*_vm->_draw->_spritesArray[_vm->_draw->_destSurface], left, top + height - 1, left + width - 1, top + height - 1, 0); left -= _vm->_draw->_fascinWin[window].left; top -= _vm->_draw->_fascinWin[window].top; } } type &= 0x7F; // Apply global drawing offset if ((_vm->_draw->_renderFlags & RENDERFLAG_CAPTUREPOP) && (left != 0xFFFF)) { left += _vm->_draw->_backDeltaX; top += _vm->_draw->_backDeltaY; } right = left + width - 1; bottom = top + height - 1; // Enabling the hotspots again if ((type == kTypeEnable2) || (type == kTypeEnable1)) { uint8 wantedState = 0; if (type == kTypeEnable2) wantedState = kStateFilledDisabled | kStateType2; else wantedState = kStateFilledDisabled | kStateType1; _vm->_game->_script->skip(6); for (int j = 0; j < kHotspotCount; j++) { Hotspot &spot = _hotspots[j]; if (spot.getState() == wantedState) { spot.enable(); spot.funcEnter = _vm->_game->_script->pos(); spot.funcLeave = _vm->_game->_script->pos(); } } _vm->_game->_script->skipBlock(); return; } int16 key = 0; int16 flags = 0; Font *font = 0; uint32 funcEnter = 0, funcLeave = 0; // Evaluate parameters for the new hotspot switch (type) { case kTypeNone: _vm->_game->_script->skip(6); funcEnter = _vm->_game->_script->pos(); _vm->_game->_script->skipBlock(); funcLeave = _vm->_game->_script->pos(); _vm->_game->_script->skipBlock(); key = i + ((kStateFilled | kStateType2) << 12); flags = type + (window << 8); break; case kTypeMove: key = _vm->_game->_script->readInt16(); ids[i] = _vm->_game->_script->readInt16(); flags = _vm->_game->_script->readInt16(); funcEnter = _vm->_game->_script->pos(); _vm->_game->_script->skipBlock(); funcLeave = _vm->_game->_script->pos(); _vm->_game->_script->skipBlock(); if (key == 0) key = i + ((kStateFilled | kStateType2) << 12); flags = type + (window << 8) + (flags << 4); break; case kTypeInput1NoLeave: case kTypeInput1Leave: case kTypeInput2NoLeave: case kTypeInput2Leave: case kTypeInput3NoLeave: case kTypeInput3Leave: case kTypeInputFloatNoLeave: case kTypeInputFloatLeave: hasInput = true; _vm->_util->clearKeyBuf(); // Input text parameters key = _vm->_game->_script->readVarIndex(); inputs[inputCount].fontIndex = _vm->_game->_script->readInt16(); inputs[inputCount].backColor = _vm->_game->_script->readByte(); inputs[inputCount].frontColor = _vm->_game->_script->readByte(); inputs[inputCount].length = 0; inputs[inputCount].str = 0; if ((type >= kTypeInput2NoLeave) && (type <= kTypeInput3Leave)) { uint16 length = _vm->_game->_script->readUint16(); inputs[inputCount].str = (const char *) (_vm->_game->_script->getData() + _vm->_game->_script->pos()); _vm->_game->_script->skip(length); } if (left == 0xFFFF) { if (!(type & 1)) // No coordinates but a leave block => skip it _vm->_game->_script->skipBlock(); break; } font = _vm->_draw->_fonts[inputs[inputCount].fontIndex]; if (font->isMonospaced()) right = left + width * font->getCharWidth() - 1; funcEnter = 0; funcPos = 0; funcLeave = 0; if (!(type & 1)) { // Got a leave funcLeave = _vm->_game->_script->pos(); _vm->_game->_script->skipBlock(); } flags = type; inputCount++; break; case 20: inputId = i; // Fall through to case 2 case kTypeClick: key = _vm->_game->_script->readInt16(); ids[i] = _vm->_game->_script->readInt16(); flags = _vm->_game->_script->readInt16(); funcEnter = 0; funcLeave = _vm->_game->_script->pos(); _vm->_game->_script->skipBlock(); flags = ((uint16) kTypeClick) + (window << 8) + (flags << 4); break; case kTypeClickEnter: key = _vm->_game->_script->readInt16(); ids[i] = _vm->_game->_script->readInt16(); flags = _vm->_game->_script->readInt16() & 3; funcEnter = _vm->_game->_script->pos(); _vm->_game->_script->skipBlock(); funcLeave = 0; flags = ((uint16) kTypeClick) + (window << 8) + (flags << 4); break; } // Add the new hotspot add(i | (kStateFilled << 12), left, top, right, bottom, flags, key, funcEnter, funcLeave, funcPos); } bool Hotspots::evaluateFind(uint16 key, int16 timeVal, const uint16 *ids, uint16 hotspotIndex1, uint16 hotspotIndex2, uint16 endIndex, int16 &duration, uint16 &id, uint16 &index, bool &finished) { if (id != 0) // We already found a hotspot, nothing to do return true; if (key != 0) { // We've got a key // Find the hotspot with that key associated findKey(key, id, index); if (id != 0) // Found it return true; // Try it case insensitively findKeyCaseInsensitive(key, id, index); if (id != 0) // Found it return true; return false; } if (duration != 0) { // We've got a time duration if (hotspotIndex1 != 0) { finished = leaveNthPlain(hotspotIndex1, endIndex, timeVal, ids, id, index, duration); } else if (hotspotIndex2 != 0) { findNthPlain(hotspotIndex2, endIndex, id, index); } else { // Enter the first hotspot for (int i = 0; (i < kHotspotCount) && !_hotspots[i].isEnd(); i++) { Hotspot &spot = _hotspots[i]; if (spot.isFilledNew()) { id = spot.id; index = i; break; } } // Leave the current hotspot if ((_currentKey != 0) && (_hotspots[_currentIndex].funcLeave != 0)) call(_hotspots[_currentIndex].funcLeave); _currentKey = 0; } if (id != 0) return true; return false; } return false; } void Hotspots::evaluate() { InputDesc inputs[20]; uint16 ids[kHotspotCount]; // Push all local hotspots push(0); // Find the current end of the hotspot block uint16 endIndex = 0; while (!_hotspots[endIndex].isEnd()) endIndex++; _shouldPush = false; _vm->_game->_script->skip(1); // Number of new hotspots byte count = _vm->_game->_script->readByte(); // Parameters of this block _vm->_game->_handleMouse = _vm->_game->_script->peekByte(0); int16 duration = _vm->_game->_script->peekByte(1); byte hotspotIndex1 = _vm->_game->_script->peekByte(3); byte hotspotIndex2 = _vm->_game->_script->peekByte(4); bool needRecalculation = _vm->_game->_script->peekByte(5) != 0; // Seconds -> Milliseconds duration *= 1000; if ((hotspotIndex1 != 0) || (hotspotIndex2 != 0)) { duration /= 100; if (_vm->_game->_script->peekByte(1) == 100) duration = 2; } int16 timeVal = duration; _vm->_game->_script->skip(6); setCurrentHotspot(0, 0); bool finishedDuration = false; uint16 id = 0; uint16 inputId = 0xFFFF; uint16 index = 0; bool hasInput = false; uint16 inputCount = 0; // Adding new hotspots for (uint16 i = 0; i < count; i++) evaluateNew(i, ids, inputs, inputId, hasInput, inputCount); // Recalculate all hotspots if requested if (needRecalculation) recalculate(true); _vm->_game->_forceHandleMouse = 0; _vm->_util->clearKeyBuf(); while ((id == 0) && !_vm->_inter->_terminate && !_vm->shouldQuit()) { uint16 key = 0; if (hasInput) { // Input uint16 curInput = 0; key = handleInputs(duration, inputCount, curInput, inputs, id, index); // Notify the script of the current input index WRITE_VAR(17 + 38, curInput); if (key == kKeyReturn) { // Return pressed, invoke input leave findFirstInputLeave(id, inputId, index); break; } } else // Normal move or click check key = check(_vm->_game->_handleMouse, -duration, id, index); key = convertSpecialKey(key); // Try to find a fitting hotspot Hotspots::evaluateFind(key, timeVal, ids, hotspotIndex1, hotspotIndex2, endIndex, duration, id, index, finishedDuration); if (finishedDuration) break; if ((id == 0) || (_hotspots[index].funcLeave != 0)) // We don't have a new ID, but haven't yet handled the leave function continue; _vm->_inter->storeMouse(); setCurrentHotspot(ids, id); // Enter it if (_hotspots[index].funcEnter != 0) call(_hotspots[index].funcEnter); setCurrentHotspot(0, 0); id = 0; } if ((id & 0xFFF) == inputId) matchInputStrings(inputs); if (_vm->_game->_handleMouse == 1) _vm->_draw->blitCursor(); if (!_vm->_inter->_terminate && (!finishedDuration)) { _vm->_game->_script->seek(_hotspots[index].funcLeave); _vm->_inter->storeMouse(); if (getCurrentHotspot() == 0) { // No hotspot currently handled, now we'll handle the newly found one setCurrentHotspot(ids, id); } } else _vm->_game->_script->setFinished(true); for (int i = 0; i < count; i++) // Remove all local hotspots remove(i + (kStateFilled << 12)); for (int i = 0; i < kHotspotCount; i++) { Hotspot &spot = _hotspots[i]; // Disable the ones still there if ((spot.getState() == (kStateFilled | kStateType1)) || (spot.getState() == (kStateFilled | kStateType2))) spot.disable(); } } int16 Hotspots::findCursor(uint16 x, uint16 y) const { int16 cursor = 0; int16 deltax = 0; int16 deltay = 0; if ( _vm->getGameType() == kGameTypeFascination ) { cursor = curWindow(deltax, deltay); } if (cursor == 0) { for (int i = 0; (i < kHotspotCount) && !_hotspots[i].isEnd(); i++) { const Hotspot &spot = _hotspots[i]; if ((spot.getWindow() != 0) || spot.isDisabled()) // Ignore disabled and non-main-windowed hotspots continue; if (!spot.isIn(x, y)) // We're not in that hotspot, ignore it continue; if (spot.getCursor() == 0) { // Hotspot doesn't itself specify a cursor... if (spot.getType() >= kTypeInput1NoLeave) { // ...but the type has a generic one cursor = 3; break; } else if ((spot.getButton() != kMouseButtonsRight) && (cursor == 0)) // ...but there's a generic "click" cursor cursor = 1; } else if (cursor == 0) // Hotspot had an attached cursor index cursor = spot.getCursor(); } } else { if (cursor < 0) { int16 curType = - cursor * 256; cursor = 0; for (int i = 0; (i < kHotspotCount) && !_hotspots[i].isEnd(); i++) { const Hotspot &spot = _hotspots[i]; if ((spot.flags & 0xFF00) == curType) if (spot.isIn(x - deltax, y - deltay)) { if (spot.getType() < kTypeInput1NoLeave) cursor = 1; else cursor = 3; break; } } } if (_vm->_draw->_cursorAnimLow[cursor] == -1) // If the cursor is invalid... there's a generic "click" cursor cursor = 1; } return cursor; } void Hotspots::oPlaytoons_F_1B() { int16 shortId; int16 longId; int16 var2; int16 fontIndex; int16 var4; uint16 left; uint16 top; uint16 right; uint16 bottom; shortId = _vm->_game->_script->readValExpr(); var2 = _vm->_game->_script->readValExpr(); _vm->_game->_script->evalExpr(0); fontIndex = _vm->_game->_script->readValExpr(); var4 = _vm->_game->_script->readValExpr(); // this variable is always set to 0 in Playtoons // var_4 += unk_var; for (int i = 0; i < kHotspotCount; i++) { if (_hotspots[i].isEnd()) { return; } if ((_hotspots[i].id == 0xD000 + shortId) || (_hotspots[i].id == 0xB000 + shortId) || (_hotspots[i].id == 0x4000 + shortId)) { longId = _hotspots[i].id; warning("oPlaytoons_F_1B: shortId %d, var2 %d fontIndex %d var4 %d - longId %d", shortId, var2, fontIndex, var4, longId); left = _hotspots[i].left; top = _hotspots[i].top; right = _hotspots[i].right; bottom = _hotspots[i].bottom; left += 2; top += 2; right -= 2; bottom -= 2; if ((_vm->_draw->_needAdjust != 2) && (_vm->_draw->_needAdjust != 10)) { left += 2; top += 2; right -= 2; bottom -= 2; } // oPlaytoons_sub_F_1B(0x8000 + var2, left, top, right, bottom, _vm->_game->_script->getResultStr(), var3, var4, shortId); _vm->_draw->oPlaytoons_sub_F_1B(0x8000+ var2, left, top, right, bottom, _vm->_game->_script->getResultStr(), fontIndex, var4, shortId); return; } } warning("shortId not found %d", shortId); return; } uint16 Hotspots::inputToHotspot(uint16 input) const { uint16 inputIndex = 0; for (int i = 0; i < kHotspotCount; i++) { const Hotspot &spot = _hotspots[i]; if (!spot.isActiveInput()) // Not an active input continue; if (inputIndex == input) // We've found our input return i; // Next one inputIndex++; } // None found return 0xFFFF; } uint16 Hotspots::hotspotToInput(uint16 hotspot) const { uint16 input = 0; for (int i = 0; i < kHotspotCount; i++) { const Hotspot &spot = _hotspots[i]; if (!spot.isActiveInput()) // Not an active input continue; if (i == hotspot) // We've found our hotspot break; // Next one input++; } return input; } uint16 Hotspots::findClickedInput(uint16 index) const { for (int i = 0; (i < kHotspotCount) && !_hotspots[i].isEnd(); i++) { const Hotspot &spot = _hotspots[i]; if (spot.getWindow() != 0) // Ignore other windows continue; if (spot.isDisabled()) // Ignore disabled hotspots continue; if (!spot.isIn(_vm->_global->_inter_mouseX, _vm->_global->_inter_mouseY)) // This one wasn't it continue; if (spot.getCursor() != 0) // This one specifies a cursor, so we don't want it continue; if (!spot.isInput()) // It's no input continue; index = i; break; } return index; } bool Hotspots::findFirstInputLeave(uint16 &id, uint16 &inputId, uint16 &index) const { for (int i = 0; (i < kHotspotCount) && !_hotspots[i].isEnd(); i++) { const Hotspot &spot = _hotspots[i]; if (!spot.isFilledEnabled()) // Not filled or disabled continue; if (!spot.isInputLeave()) // Not an input with a leave function continue; id = spot.id; inputId = spot.id & 0x7FFF; index = i; return true; } return false; } bool Hotspots::findKey(uint16 key, uint16 &id, uint16 &index) const { id = 0; index = 0; for (int i = 0; (i < kHotspotCount) && !_hotspots[i].isEnd(); i++) { const Hotspot &spot = _hotspots[i]; if (!spot.isFilledEnabled()) // Not filled or disabled continue; // Key match Catch all if ((spot.key == key) || (spot.key == 0x7FFF)) { id = spot.id; index = i; return true; } } return false; } bool Hotspots::findKeyCaseInsensitive(uint16 key, uint16 &id, uint16 &index) const { id = 0; index = 0; for (int i = 0; (i < kHotspotCount) && !_hotspots[i].isEnd(); i++) { const Hotspot &spot = _hotspots[i]; if (!spot.isFilledEnabled()) // Not filled or disabled, ignore continue; if ((spot.key & 0xFF00) != 0) continue; if (spot.key == 0) // No associated key, ignore continue; // Compare if (toupper(key & 0xFF) == toupper(spot.key)) { id = spot.id; index = i; return true; } } return false; } bool Hotspots::findNthPlain(uint16 n, uint16 startIndex, uint16 &id, uint16 &index) const { id = 0; index = 0; uint16 counter = 0; for (int i = startIndex; (i < kHotspotCount) && !_hotspots[i].isEnd(); i++) { const Hotspot &spot = _hotspots[i]; if (!spot.isFilledNew()) // Not filled, ignore continue; if (++counter != n) // Not yet the one we want continue; id = spot.id; index = i; return true; } return false; } bool Hotspots::leaveNthPlain(uint16 n, uint16 startIndex, int16 timeVal, const uint16 *ids, uint16 &id, uint16 &index, int16 &duration) { id = 0; index = 0; if (!findNthPlain(n, startIndex, id, index)) // Doesn't exist return false; _vm->_inter->storeMouse(); if (getCurrentHotspot() != 0) // We already handle a hotspot return false; setCurrentHotspot(ids, id); const Hotspot &spot = _hotspots[index]; if (spot.funcLeave != 0) { // It has a leave function uint32 startTime, callTime; // Call the leave and time it startTime = _vm->_util->getTimeKey(); call(spot.funcLeave); callTime = _vm->_util->getTimeKey() - startTime; // Remove the time it took from the time we have available duration = CLIP(timeVal - callTime, 2, timeVal); } if (getCurrentHotspot() == 0) { id = 0; index = 0; } return getCurrentHotspot() != 0; } void Hotspots::setCurrentHotspot(const uint16 *ids, uint16 id) const { if (!ids) { WRITE_VAR(16, 0); return; } if (Hotspot::getState(id) == kStateFilled) WRITE_VAR(16, ids[id & 0xFFF]); else WRITE_VAR(16, id & 0xFFF); } uint32 Hotspots::getCurrentHotspot() const { return VAR(16); } void Hotspots::cleanFloatString(const Hotspot &spot) const { char *to, *from; to = from = GET_VARO_STR(spot.key); for (int i = 0; (i < 257) && (*from != '\0'); i++, from++) { char c = *from; // Skip spaces if (c == ' ') continue; // Convert decimal separator if necessary if ((_vm->_global->_language == kLanguageBritish) && (c == '.')) c = ','; *to++ = c; } *to = '\0'; } void Hotspots::checkStringMatch(const Hotspot &spot, const InputDesc &input, uint16 inputPos) const { const char *str = input.str; char tempStr[256]; char spotStr[256]; strncpy0(tempStr, GET_VARO_STR(spot.key), 255); if (spot.getType() < kTypeInput3NoLeave) _vm->_util->cleanupStr(tempStr); uint16 pos = 0; do { strncpy0(spotStr, str, 255); pos += strlen(str) + 1; str += strlen(str) + 1; if (spot.getType() < kTypeInput3NoLeave) _vm->_util->cleanupStr(spotStr); // Compare the entered string with the string we wanted if (strcmp(tempStr, spotStr) == 0) { WRITE_VAR(17, VAR(17) + 1); WRITE_VAR(17 + inputPos, 1); break; } } while (input.length > pos); } void Hotspots::matchInputStrings(const InputDesc *inputs) const { uint16 strInputCount = 0; uint16 inputIndex = 0; uint16 inputPos = 1; for (int i = 0; i < kHotspotCount; i++) { const Hotspot &spot = _hotspots[i]; // Looking for all enabled inputs if (spot.isEnd()) continue; if (!spot.isFilledEnabled()) continue; if (!spot.isInput()) continue; if (spot.getType() >= kTypeInputFloatNoLeave) cleanFloatString(spot); if ((spot.getType() >= kTypeInput2NoLeave) && (spot.getType() <= kTypeInput3Leave)) { // Look if we find a match between the wanted and the typed string checkStringMatch(spot, inputs[inputIndex], inputPos); strInputCount++; } else WRITE_VAR(17 + inputPos, 2); inputIndex++; inputPos++; } // Notify the scripts if we reached the requested hotspot WRITE_VAR(17, (uint32) (strInputCount == ((uint16) VAR(17)))); } uint16 Hotspots::convertSpecialKey(uint16 key) const { if (((key & 0xFF) >= ' ') && ((key & 0xFF) <= 0xFF) && ((key >> 8) > 1) && ((key >> 8) < 12)) key = '0' + (((key >> 8) - 1) % 10) + (key & 0xFF00); return key; } void Hotspots::getTextCursorPos(const Font &font, const char *str, uint32 pos, uint16 x, uint16 y, uint16 width, uint16 height, uint16 &cursorX, uint16 &cursorY, uint16 &cursorWidth, uint16 &cursorHeight) const { if (!font.isMonospaced()) { // Cursor to the right of the current character cursorX = x; cursorY = y; cursorWidth = 1; cursorHeight = height; // Iterate through the string and add each character's width for (uint32 i = 0; i < pos; i++) cursorX += font.getCharWidth(str[i]); } else { // Cursor underlining the current character cursorX = x + font.getCharWidth() * pos; cursorY = y + height - 1; cursorWidth = font.getCharWidth(); cursorHeight = 1; } } void Hotspots::fillRect(uint16 x, uint16 y, uint16 width, uint16 height, uint16 color) const { _vm->_draw->_destSurface = 21; _vm->_draw->_destSpriteX = x; _vm->_draw->_destSpriteY = y; _vm->_draw->_spriteRight = width; _vm->_draw->_spriteBottom = height; _vm->_draw->_backColor = color; _vm->_draw->spriteOperation(DRAW_FILLRECT | 0x10 ); } void Hotspots::printText(uint16 x, uint16 y, const char *str, uint16 fontIndex, uint16 color) const { _vm->_draw->_destSpriteX = x; _vm->_draw->_destSpriteY = y; _vm->_draw->_frontColor = color; _vm->_draw->_fontIndex = fontIndex; _vm->_draw->_textToPrint = str; _vm->_draw->_transparency = 1; _vm->_draw->spriteOperation(DRAW_PRINTTEXT | 0x10); } void Hotspots::updateAllTexts(const InputDesc *inputs) const { uint16 input = 0; for (int i = 0; i < kHotspotCount; i++) { const Hotspot &spot = _hotspots[i]; if (spot.isEnd()) // It's an end, we don't want it continue; if (!spot.isFilledEnabled()) // This one's either not used or disabled continue; if (!spot.isInput()) // Not an input continue; // Get its text char tempStr[256]; strncpy0(tempStr, GET_VARO_STR(spot.key), 255); // Coordinates uint16 x = spot.left; uint16 y = spot.top; uint16 width = spot.right - spot.left + 1; uint16 height = spot.bottom - spot.top + 1; // Clear the background fillRect(x, y, width, height, inputs[input].backColor); // Center the text vertically y += (height - _vm->_draw->_fonts[_vm->_draw->_fontIndex]->getCharHeight()) / 2; // Draw it printText(x, y, tempStr, inputs[input].fontIndex, inputs[input].frontColor); input++; } } } // End of namespace Gob