mirror of
https://github.com/libretro/scummvm.git
synced 2024-12-22 18:02:05 +00:00
26981a5ffc
svn-id: r45618
563 lines
14 KiB
C++
563 lines
14 KiB
C++
/* ScummVM - Graphic Adventure Engine
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*
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* ScummVM is the legal property of its developers, whose names
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* are too numerous to list here. Please refer to the COPYRIGHT
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* file distributed with this source distribution.
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*
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* This program is free software; you can redistribute it and/or
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* modify it under the terms of the GNU General Public License
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* as published by the Free Software Foundation; either version 2
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* of the License, or (at your option) any later version.
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* This program is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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* GNU General Public License for more details.
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* You should have received a copy of the GNU General Public License
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* along with this program; if not, write to the Free Software
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* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.
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*
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* $URL$
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* $Id$
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*
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* This file contains utilities to handle multi-part objects.
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*/
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#include "tinsel/multiobj.h"
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#include "tinsel/handle.h"
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#include "tinsel/object.h"
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#include "tinsel/tinsel.h"
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namespace Tinsel {
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/**
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* Initialise a multi-part object using a list of images to init
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* each object piece. One object is created for each image in the list.
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* All objects are given the same palette as the first image. A pointer
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* to the first (master) object created is returned.
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* @param pInitTbl Pointer to multi-object initialisation table
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*/
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OBJECT *MultiInitObject(const MULTI_INIT *pInitTbl) {
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OBJ_INIT obj_init; // object init table
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OBJECT *pFirst, *pObj; // object pointers
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FRAME *pFrame; // list of images for the multi-part object
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if (FROM_LE_32(pInitTbl->hMulFrame)) {
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// we have a frame handle
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pFrame = (FRAME *)LockMem(FROM_LE_32(pInitTbl->hMulFrame));
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obj_init.hObjImg = READ_LE_UINT32(pFrame); // first objects shape
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} else { // this must be a animation list for a NULL object
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pFrame = NULL;
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obj_init.hObjImg = 0; // first objects shape
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}
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// init the object init table
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obj_init.objFlags = (int)FROM_LE_32(pInitTbl->mulFlags); // all objects have same flags
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obj_init.objID = (int)FROM_LE_32(pInitTbl->mulID); // all objects have same ID
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obj_init.objX = (int)FROM_LE_32(pInitTbl->mulX); // all objects have same X ani pos
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obj_init.objY = (int)FROM_LE_32(pInitTbl->mulY); // all objects have same Y ani pos
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obj_init.objZ = (int)FROM_LE_32(pInitTbl->mulZ); // all objects have same Z pos
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// create and init the first object
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pObj = pFirst = InitObject(&obj_init);
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if (pFrame) {
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// if we have any animation frames
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pFrame++;
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while (READ_LE_UINT32(pFrame) != 0) {
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// set next objects shape
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obj_init.hObjImg = READ_LE_UINT32(pFrame);
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// create next object and link to previous
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pObj = pObj->pSlave = InitObject(&obj_init);
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pFrame++;
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}
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}
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// null end of list for final object
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pObj->pSlave = NULL;
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// return master object
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return pFirst;
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}
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/**
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* Inserts the multi-part object onto the specified object list.
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* @param pObjList List to insert multi-part object onto
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* @param pInsObj Head of multi-part object to insert
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*/
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void MultiInsertObject(OBJECT *pObjList, OBJECT *pInsObj) {
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// validate object pointer
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assert(isValidObject(pInsObj));
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// for all the objects that make up this multi-part
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do {
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// add next part to the specified list
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InsertObject(pObjList, pInsObj);
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// next obj in list
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pInsObj = pInsObj->pSlave;
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} while (pInsObj != NULL);
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}
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/**
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* Deletes all the pieces of a multi-part object from the
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* specified object list.
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* @param pObjList List to delete multi-part object from
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* @param pMultiObj Multi-part object to be deleted
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*/
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void MultiDeleteObject(OBJECT *pObjList, OBJECT *pMultiObj) {
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// validate object pointer
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assert(isValidObject(pMultiObj));
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// for all the objects that make up this multi-part
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do {
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// delete object
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DelObject(pObjList, pMultiObj);
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// next obj in list
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pMultiObj = pMultiObj->pSlave;
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}
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while (pMultiObj != NULL);
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}
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/**
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* Hides a multi-part object by giving each object a "NullImage"
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* image pointer.
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* @param pMultiObj Multi-part object to be hidden
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*/
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void MultiHideObject(OBJECT *pMultiObj) {
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// validate object pointer
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assert(isValidObject(pMultiObj));
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// set master shape to null animation frame
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pMultiObj->hShape = 0;
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// change all objects
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MultiReshape(pMultiObj);
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}
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/**
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* Horizontally flip a multi-part object.
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* @param pFlipObj Head of multi-part object to flip
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*/
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void MultiHorizontalFlip(OBJECT *pFlipObj) {
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// validate object pointer
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assert(isValidObject(pFlipObj));
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// for all the objects that make up this multi-part
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do {
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// horizontally flip the next part
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AnimateObjectFlags(pFlipObj, pFlipObj->flags ^ DMA_FLIPH,
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pFlipObj->hImg);
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// next obj in list
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pFlipObj = pFlipObj->pSlave;
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} while (pFlipObj != NULL);
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}
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/**
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* Vertically flip a multi-part object.
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* @param pFlipObj Head of multi-part object to flip
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*/
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void MultiVerticalFlip(OBJECT *pFlipObj) {
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// validate object pointer
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assert(isValidObject(pFlipObj));
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// for all the objects that make up this multi-part
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do {
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// vertically flip the next part
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AnimateObjectFlags(pFlipObj, pFlipObj->flags ^ DMA_FLIPV,
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pFlipObj->hImg);
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// next obj in list
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pFlipObj = pFlipObj->pSlave;
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}
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while (pFlipObj != NULL);
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}
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/**
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* Adjusts the coordinates of a multi-part object. The adjustments
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* take into account the orientation of the object.
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* @param pMultiObj Multi-part object to be adjusted
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* @param deltaX X adjustment
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* @param deltaY Y adjustment
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*/
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void MultiAdjustXY(OBJECT *pMultiObj, int deltaX, int deltaY) {
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// validate object pointer
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assert(isValidObject(pMultiObj));
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if (deltaX == 0 && deltaY == 0)
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return; // ignore no change
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if (!TinselV2) {
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// *** This may be wrong!!!
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if (pMultiObj->flags & DMA_FLIPH) {
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// image is flipped horizontally - flip the x direction
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deltaX = -deltaX;
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}
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if (pMultiObj->flags & DMA_FLIPV) {
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// image is flipped vertically - flip the y direction
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deltaY = -deltaY;
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}
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}
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// for all the objects that make up this multi-part
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do {
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// signal a change in the object
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pMultiObj->flags |= DMA_CHANGED;
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// adjust the x position
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pMultiObj->xPos += intToFrac(deltaX);
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// adjust the y position
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pMultiObj->yPos += intToFrac(deltaY);
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// next obj in list
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pMultiObj = pMultiObj->pSlave;
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} while (pMultiObj != NULL);
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}
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/**
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* Moves all the pieces of a multi-part object by the specified
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* amount. Does not take into account the objects orientation.
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* @param pMultiObj Multi-part object to be adjusted
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* @param deltaX X movement
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* @param deltaY Y movement
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*/
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void MultiMoveRelXY(OBJECT *pMultiObj, int deltaX, int deltaY) {
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// validate object pointer
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assert(isValidObject(pMultiObj));
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if (deltaX == 0 && deltaY == 0)
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return; // ignore no change
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// for all the objects that make up this multi-part
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do {
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// signal a change in the object
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pMultiObj->flags |= DMA_CHANGED;
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// adjust the x position
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pMultiObj->xPos += intToFrac(deltaX);
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// adjust the y position
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pMultiObj->yPos += intToFrac(deltaY);
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// next obj in list
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pMultiObj = pMultiObj->pSlave;
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} while (pMultiObj != NULL);
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}
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/**
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* Sets the x & y anim position of all pieces of a multi-part object.
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* @param pMultiObj Multi-part object whose position is to be changed
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* @param newAniX New x animation position
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* @param newAniY New y animation position
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*/
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void MultiSetAniXY(OBJECT *pMultiObj, int newAniX, int newAniY) {
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int curAniX, curAniY; // objects current animation position
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// validate object pointer
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assert(isValidObject(pMultiObj));
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// get master objects current animation position
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GetAniPosition(pMultiObj, &curAniX, &curAniY);
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// calc difference between current and new positions
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newAniX -= curAniX;
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newAniY -= curAniY;
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// move all pieces by the difference
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MultiMoveRelXY(pMultiObj, newAniX, newAniY);
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}
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/**
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* Sets the x anim position of all pieces of a multi-part object.
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* @param pMultiObj Multi-part object whose x position is to be changed
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* @param newAniX New x animation position
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*/
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void MultiSetAniX(OBJECT *pMultiObj, int newAniX) {
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int curAniX, curAniY; // objects current animation position
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// validate object pointer
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assert(isValidObject(pMultiObj));
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// get master objects current animation position
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GetAniPosition(pMultiObj, &curAniX, &curAniY);
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// calc x difference between current and new positions
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newAniX -= curAniX;
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curAniY = 0;
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// move all pieces by the difference
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MultiMoveRelXY(pMultiObj, newAniX, curAniY);
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}
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/**
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* Sets the y anim position of all pieces of a multi-part object.
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* @param pMultiObj Multi-part object whose x position is to be changed
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* @param newAniX New y animation position
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*/
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void MultiSetAniY(OBJECT *pMultiObj, int newAniY) {
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int curAniX, curAniY; // objects current animation position
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// validate object pointer
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assert(isValidObject(pMultiObj));
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// get master objects current animation position
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GetAniPosition(pMultiObj, &curAniX, &curAniY);
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// calc y difference between current and new positions
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curAniX = 0;
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newAniY -= curAniY;
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// move all pieces by the difference
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MultiMoveRelXY(pMultiObj, curAniX, newAniY);
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}
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/**
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* Sets the Z position of all pieces of a multi-part object.
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* @param pMultiObj Multi-part object to be adjusted
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* @param newZ New Z order
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*/
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void MultiSetZPosition(OBJECT *pMultiObj, int newZ) {
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// validate object pointer
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assert(isValidObject(pMultiObj));
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// for all the objects that make up this multi-part
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do {
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// signal a change in the object
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pMultiObj->flags |= DMA_CHANGED;
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// set the new z position
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pMultiObj->zPos = newZ;
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// next obj in list
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pMultiObj = pMultiObj->pSlave;
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}
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while (pMultiObj != NULL);
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}
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/**
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* Reshape a multi-part object.
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* @param pMultiObj Multi-part object to re-shape
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*/
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void MultiReshape(OBJECT *pMultiObj) {
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SCNHANDLE hFrame;
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// validate object pointer
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assert(isValidObject(pMultiObj));
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// get objects current anim frame
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hFrame = pMultiObj->hShape;
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if (hFrame != 0 && hFrame != pMultiObj->hMirror) {
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// a valid shape frame which is different from previous
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// get pointer to frame
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const FRAME *pFrame = (const FRAME *)LockMem(hFrame);
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// update previous
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pMultiObj->hMirror = hFrame;
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while (READ_LE_UINT32(pFrame) != 0 && pMultiObj != NULL) {
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// a normal image - update the current object with this image
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AnimateObject(pMultiObj, READ_LE_UINT32(pFrame));
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// move to next image for this frame
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pFrame++;
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// move to next part of object
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pMultiObj = pMultiObj->pSlave;
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}
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// null the remaining object parts
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while (pMultiObj != NULL) {
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// set a null image for this object part
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AnimateObject(pMultiObj, 0);
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// move to next part of object
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pMultiObj = pMultiObj->pSlave;
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}
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} else if (hFrame == 0) {
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// update previous
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pMultiObj->hMirror = hFrame;
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// null all the object parts
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while (pMultiObj != NULL) {
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// set a null image for this object part
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AnimateObject(pMultiObj, 0);
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// move to next part of object
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pMultiObj = pMultiObj->pSlave;
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}
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}
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}
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/**
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* Returns the left-most point of a multi-part object.
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* @param pMulti Multi-part object
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*/
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int MultiLeftmost(OBJECT *pMulti) {
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int left;
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// validate object pointer
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assert(isValidObject(pMulti));
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// init leftmost point to first object
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left = fracToInt(pMulti->xPos);
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// for all the objects in this multi
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while ((pMulti = pMulti->pSlave) != NULL) {
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if (pMulti->hImg != 0) {
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// non null object part
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if (fracToInt(pMulti->xPos) < left)
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// this object is further left
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left = fracToInt(pMulti->xPos);
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}
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}
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// return left-most point
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return left;
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}
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/**
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* Returns the right-most point of a multi-part object.
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* @param pMulti Multi-part object
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*/
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int MultiRightmost(OBJECT *pMulti) {
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int right;
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// validate object pointer
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assert(isValidObject(pMulti));
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// init right-most point to first object
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right = fracToInt(pMulti->xPos) + pMulti->width;
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// for all the objects in this multi
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while ((pMulti = pMulti->pSlave) != NULL) {
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if (pMulti->hImg != 0) {
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// non null object part
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if (fracToInt(pMulti->xPos) + pMulti->width > right)
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// this object is further right
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right = fracToInt(pMulti->xPos) + pMulti->width;
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}
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}
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// return right-most point
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return right - 1;
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}
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/**
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* Returns the highest point of a multi-part object.
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* @param pMulti Multi-part object
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*/
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int MultiHighest(OBJECT *pMulti) {
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int highest;
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// validate object pointer
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assert(isValidObject(pMulti));
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// init highest point to first object
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highest = fracToInt(pMulti->yPos);
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// for all the objects in this multi
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while ((pMulti = pMulti->pSlave) != NULL) {
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if (pMulti->hImg != 0) {
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// non null object part
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if (fracToInt(pMulti->yPos) < highest)
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// this object is higher
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highest = fracToInt(pMulti->yPos);
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}
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}
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// return highest point
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return highest;
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}
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/**
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* Returns the lowest point of a multi-part object.
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* @param pMulti Multi-part object
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*/
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int MultiLowest(OBJECT *pMulti) {
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int lowest;
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// validate object pointer
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assert(isValidObject(pMulti));
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// init lowest point to first object
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lowest = fracToInt(pMulti->yPos) + pMulti->height;
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// for all the objects in this multi
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while ((pMulti = pMulti->pSlave) != NULL) {
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if (pMulti->hImg != 0) {
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// non null object part
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if (fracToInt(pMulti->yPos) + pMulti->height > lowest)
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// this object is lower
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lowest = fracToInt(pMulti->yPos) + pMulti->height;
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}
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}
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// return lowest point
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return lowest - 1;
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}
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/**
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* Returns TRUE if the object currently has an image.
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* @param pMulti Multi-part object
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*/
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bool MultiHasShape(POBJECT pMulti) {
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return (pMulti->hShape != 0);
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}
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/**
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* Bodge for text on movies. Makes sure it appears for it's lifetime.
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* @param pMultiObj Multi-part object to be adjusted
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*/
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void MultiForceRedraw(POBJECT pMultiObj) {
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// validate object pointer
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assert(isValidObject(pMultiObj));
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// for all the objects that make up this multi-part
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do {
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// signal a change in the object
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pMultiObj->flags |= DMA_CHANGED;
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// next obj in list
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pMultiObj = pMultiObj->pSlave;
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} while (pMultiObj != NULL);
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}
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} // End of namespace Tinsel
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