/* ScummVM - Scumm Interpreter * Copyright (C) 2006 The ScummVM project * * cinE Engine is (C) 2004-2005 by CinE Team * * 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 "common/stdafx.h" #include "common/endian.h" #include "common/scummsys.h" #include "common/util.h" #include "cine/cine.h" #include "cine/object.h" #include "cine/part.h" #include "cine/resource.h" #include "cine/various.h" namespace Cine { objectStruct objectTable[NUM_MAX_OBJECT]; uint16 globalVars[NUM_MAX_OBJECTDATA]; overlayHeadElement overlayHead; void unloadAllMasks(void) { overlayHeadElement *current = overlayHead.next; while (current) { overlayHeadElement *next = current->next; free(current); current = next; } resetMessageHead(); } void resetMessageHead(void) { overlayHead.next = NULL; overlayHead.previous = NULL; } void loadObject(char *pObjectName) { uint16 numEntry; uint16 entrySize; uint16 i; byte *ptr; checkDataDisk(-1); ptr = readBundleFile(findFileInBundle(pObjectName)); setMouseCursor(MOUSE_CURSOR_DISK); numEntry = READ_BE_UINT16(ptr); ptr += 2; entrySize = READ_BE_UINT16(ptr); ptr += 2; assert(numEntry <= NUM_MAX_OBJECT); for (i = 0; i < numEntry; i++) { if (objectTable[i].costume != -2) { // flag is keep ? Common::MemoryReadStream readS(ptr, entrySize); objectTable[i].x = readS.readSint16BE(); objectTable[i].y = readS.readSint16BE(); objectTable[i].mask = readS.readUint16BE(); objectTable[i].frame = readS.readSint16BE(); objectTable[i].costume = readS.readSint16BE(); readS.read(objectTable[i].name, 20); objectTable[i].part = readS.readUint16BE(); } ptr += entrySize; } if (!strcmp(pObjectName, "INTRO.OBJ")) { for (i = 0; i < 10; i++) { objectTable[i].costume = 0; } } } int8 removeOverlayElement(uint16 objIdx, uint16 param) { overlayHeadElement *currentHeadPtr = &overlayHead; overlayHeadElement *tempHead = currentHeadPtr; overlayHeadElement *tempPtr2; currentHeadPtr = tempHead->next; while (currentHeadPtr && (objIdx == currentHeadPtr->objIdx || param == currentHeadPtr->type)) { tempHead = currentHeadPtr; currentHeadPtr = tempHead->next; } if (!currentHeadPtr) { return -1; } if (objIdx != currentHeadPtr->objIdx || param != currentHeadPtr->type) { return -1; } tempHead->next = currentHeadPtr->next; tempPtr2 = currentHeadPtr->next; if (!tempPtr2) { tempPtr2 = &overlayHead; } tempPtr2->previous = currentHeadPtr->previous; free(currentHeadPtr); return 0; } int16 freeOverlay(uint16 objIdx, uint16 param) { overlayHeadElement *currentHeadPtr = overlayHead.next; overlayHeadElement *tempHead = &overlayHead; overlayHeadElement *tempPtr2; while (currentHeadPtr && ((currentHeadPtr->objIdx != objIdx) || (currentHeadPtr->type != param))) { tempHead = currentHeadPtr; currentHeadPtr = tempHead->next; } if (!currentHeadPtr) { return -1; } if (!((currentHeadPtr->objIdx == objIdx) && (currentHeadPtr->type == param))) { return -1; } tempHead->next = currentHeadPtr->next; tempPtr2 = currentHeadPtr->next; if (!tempPtr2) { tempPtr2 = &overlayHead; } tempPtr2->previous = currentHeadPtr->previous; //TODO: fix ! //free(currentHeadPtr); return 0; } void loadOverlayElement(uint16 objIdx, uint16 param) { overlayHeadElement *currentHeadPtr = &overlayHead; overlayHeadElement *pNewElement; uint16 si = objectTable[objIdx].mask; overlayHeadElement *tempHead = currentHeadPtr; currentHeadPtr = tempHead->next; while (currentHeadPtr && (objectTable[currentHeadPtr->objIdx].mask < si)) { tempHead = currentHeadPtr; currentHeadPtr = tempHead->next; } pNewElement = (overlayHeadElement *)malloc(sizeof(overlayHeadElement)); assert(pNewElement); pNewElement->next = tempHead->next; tempHead->next = pNewElement; pNewElement->objIdx = objIdx; pNewElement->type = param; if (!currentHeadPtr) { currentHeadPtr = &overlayHead; } pNewElement->previous = currentHeadPtr->previous; currentHeadPtr->previous = pNewElement; } void setupObject(byte objIdx, uint16 param1, uint16 param2, uint16 param3, uint16 param4) { objectTable[objIdx].x = param1; objectTable[objIdx].y = param2; objectTable[objIdx].mask = param3; objectTable[objIdx].frame = param4; if (!removeOverlayElement(objIdx, 0)) { loadOverlayElement(objIdx, 0); } } void subObjectParam(byte objIdx, byte paramIdx, int16 newValue) { paramIdx--; assert(paramIdx <= 5); switch (paramIdx) { case 0: objectTable[objIdx].x -= newValue; break; case 1: objectTable[objIdx].y -= newValue; break; case 2: objectTable[objIdx].mask -= newValue; if (!removeOverlayElement(objIdx, 0)) { loadOverlayElement(objIdx, 0); } break; case 3: objectTable[objIdx].frame -= newValue; break; case 4: objectTable[objIdx].costume -= newValue; break; case 5: objectTable[objIdx].part -= newValue; break; } } void addObjectParam(byte objIdx, byte paramIdx, int16 newValue) { paramIdx--; assert(paramIdx <= 5); switch (paramIdx) { case 0: objectTable[objIdx].x += newValue; break; case 1: objectTable[objIdx].y += newValue; break; case 2: objectTable[objIdx].mask += newValue; if (!removeOverlayElement(objIdx, 0)) { loadOverlayElement(objIdx, 0); } break; case 3: objectTable[objIdx].frame += newValue; break; case 4: objectTable[objIdx].costume += newValue; break; case 5: objectTable[objIdx].part += newValue; break; } } void modifyObjectParam(byte objIdx, byte paramIdx, int16 newValue) { paramIdx--; assert(paramIdx <= 5); switch (paramIdx) { case 0: objectTable[objIdx].x = newValue; break; case 1: objectTable[objIdx].y = newValue; break; case 2: objectTable[objIdx].mask = newValue; if (!removeOverlayElement(objIdx, 0)) { loadOverlayElement(objIdx, 0); } break; case 3: objectTable[objIdx].frame = newValue; break; case 4: if (newValue == -1) { objectTable[objIdx].costume = globalVars[0]; } else { objectTable[objIdx].costume = newValue; } break; case 5: objectTable[objIdx].part = newValue; break; } } byte compareObjectParam(byte objIdx, byte param1, int16 param2) { byte compareResult = 0; switch (param1 - 1) { case 0: if (objectTable[objIdx].x == param2) { compareResult |= 1; } if (objectTable[objIdx].x > param2) { compareResult |= 2; } if (objectTable[objIdx].x < param2) { compareResult |= 4; } break; case 1: if (objectTable[objIdx].y == param2) { compareResult |= 1; } if (objectTable[objIdx].y > param2) { compareResult |= 2; } if (objectTable[objIdx].y < param2) { compareResult |= 4; } break; case 2: if (objectTable[objIdx].mask == param2) { compareResult |= 1; } if (objectTable[objIdx].mask > param2) { compareResult |= 2; } if (objectTable[objIdx].mask < param2) { compareResult |= 4; } break; case 3: if (objectTable[objIdx].frame == param2) { compareResult |= 1; } if (objectTable[objIdx].frame > param2) { compareResult |= 2; } if (objectTable[objIdx].frame < param2) { compareResult |= 4; } break; case 4: if (objectTable[objIdx].costume == param2) { compareResult |= 1; } if (objectTable[objIdx].costume > param2) { compareResult |= 2; } if (objectTable[objIdx].costume < param2) { compareResult |= 4; } break; default: error("Unsupported compare type: %d in compareObjectParam", param1 - 1); } return compareResult; } int16 getObjectParam(uint16 objIdx, uint16 paramIdx) { assert(objIdx <= NUM_MAX_OBJECT); paramIdx--; assert(paramIdx <= 5); switch (paramIdx) { case 0: return objectTable[objIdx].x; case 1: return objectTable[objIdx].y; case 2: return objectTable[objIdx].mask; case 3: return objectTable[objIdx].frame; case 4: return objectTable[objIdx].costume; case 5: return objectTable[objIdx].part; } return 0; } } // End of namespace Cine