scummvm/engines/fullpipe/motion.cpp

3138 lines
75 KiB
C++

/* ScummVM - Graphic Adventure Engine
*
* ScummVM is the legal property of its developers, whose names
* are too numerous to list here. Please refer to the COPYRIGHT
* file distributed with this source distribution.
*
* This program is free software; you can redistribute it and/or
* modify it under the terms of the GNU General Public License
* as published by the Free Software Foundation; either version 2
* of the License, or (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software
* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.
*
*/
#include "fullpipe/fullpipe.h"
#include "fullpipe/utils.h"
#include "fullpipe/statics.h"
#include "fullpipe/gameloader.h"
#include "fullpipe/motion.h"
namespace Fullpipe {
bool MotionController::load(MfcArchive &file) {
// Is originally empty file.readClass();
debugC(5, kDebugLoading, "MotionController::load()");
return true;
}
void MotionController::enableLinks(const char *linkName, bool enable) {
warning("STUB: MotionController::enableLinks()");
}
MovGraphLink *MotionController::getLinkByName(const char *name) {
debugC(4, kDebugPathfinding, "MotionController::getLinkByName(%s)", name);
if (_objtype == kObjTypeMctlCompound) {
MctlCompound *obj = (MctlCompound *)this;
for (uint i = 0; i < obj->getMotionControllerCount(); i++) {
MotionController *con = obj->getMotionController(i);
if (con->_objtype == kObjTypeMovGraph) {
MovGraph *gr = (MovGraph *)con;
for (ObList::iterator l = gr->_links.begin(); l != gr->_links.end(); ++l) {
assert(((CObject *)*l)->_objtype == kObjTypeMovGraphLink);
MovGraphLink *lnk = (MovGraphLink *)*l;
if (!strcmp(lnk->_name, name))
return lnk;
}
}
}
}
if (_objtype == kObjTypeMovGraph) {
MovGraph *gr = (MovGraph *)this;
for (ObList::iterator l = gr->_links.begin(); l != gr->_links.end(); ++l) {
assert(((CObject *)*l)->_objtype == kObjTypeMovGraphLink);
MovGraphLink *lnk = (MovGraphLink *)*l;
if (!strcmp(lnk->_name, name))
return lnk;
}
}
return 0;
}
bool MctlCompound::load(MfcArchive &file) {
debugC(5, kDebugLoading, "MctlCompound::load()");
int count = file.readUint32LE();
debugC(6, kDebugLoading, "MctlCompound::count = %d", count);
for (int i = 0; i < count; i++) {
debugC(6, kDebugLoading, "CompoundArray[%d]", i);
MctlItem *obj = new MctlItem();
obj->_motionControllerObj = (MotionController *)file.readClass();
int count1 = file.readUint32LE();
debugC(6, kDebugLoading, "ConnectionPoint::count: %d", count1);
for (int j = 0; j < count1; j++) {
debugC(6, kDebugLoading, "ConnectionPoint[%d]", j);
MctlConnectionPoint *obj1 = (MctlConnectionPoint *)file.readClass();
obj->_connectionPoints.push_back(obj1);
}
obj->_field_20 = file.readUint32LE();
obj->_field_24 = file.readUint32LE();
debugC(6, kDebugLoading, "graphReact");
obj->_movGraphReactObj = (MovGraphReact *)file.readClass();
_motionControllers.push_back(obj);
}
return true;
}
void MctlCompound::attachObject(StaticANIObject *obj) {
debugC(4, kDebugPathfinding, "MctlCompound::attachObject(*%d)", obj->_id);
for (uint i = 0; i < _motionControllers.size(); i++)
_motionControllers[i]->_motionControllerObj->attachObject(obj);
}
int MctlCompound::detachObject(StaticANIObject *obj) {
debugC(4, kDebugPathfinding, "MctlCompound::detachObject(*%d)", obj->_id);
for (uint i = 0; i < _motionControllers.size(); i++)
_motionControllers[i]->_motionControllerObj->detachObject(obj);
return 1;
}
void MctlCompound::initMctlGraph() {
if (_objtype != kObjTypeMctlCompound)
return;
debugC(4, kDebugPathfinding, "MctlCompound::initMctlGraph()");
for (uint i = 0; i < _motionControllers.size(); i++) {
if (_motionControllers[i]->_motionControllerObj->_objtype != kObjTypeMovGraph)
continue;
MovGraph *gr = (MovGraph *)_motionControllers[i]->_motionControllerObj;
MctlGraph *newgr = new MctlGraph();
newgr->_links = gr->_links;
newgr->_nodes = gr->_nodes;
gr->_links.clear();
gr->_nodes.clear();
delete gr;
_motionControllers[i]->_motionControllerObj = newgr;
}
}
void MctlCompound::detachAllObjects() {
debugC(4, kDebugPathfinding, "MctlCompound::detachAllObjects()");
for (uint i = 0; i < _motionControllers.size(); i++)
_motionControllers[i]->_motionControllerObj->detachAllObjects();
}
MessageQueue *MctlCompound::startMove(StaticANIObject *ani, int sourceX, int sourceY, int fuzzyMatch, int staticsId) {
int idx = -1;
int sourceIdx = -1;
debugC(4, kDebugPathfinding, "MctlCompound::startMove(*%d, %d, %d, %d, %d)", (ani ? ani->_id : -1), sourceX, sourceY, fuzzyMatch, staticsId);
if (!ani)
return 0;
for (uint i = 0; i < _motionControllers.size(); i++) {
if (_motionControllers[i]->_movGraphReactObj) {
if (_motionControllers[i]->_movGraphReactObj->pointInRegion(ani->_ox, ani->_oy)) {
idx = i;
break;
}
}
}
for (uint i = 0; i < _motionControllers.size(); i++) {
if (_motionControllers[i]->_movGraphReactObj) {
if (_motionControllers[i]->_movGraphReactObj->pointInRegion(sourceX, sourceY)) {
sourceIdx = i;
break;
}
}
}
if (idx == -1)
return 0;
if (sourceIdx == -1)
return 0;
debugC(1, kDebugPathfinding, "WWW 2");
if (idx == sourceIdx)
return _motionControllers[idx]->_motionControllerObj->startMove(ani, sourceX, sourceY, fuzzyMatch, staticsId);
double dist;
MctlConnectionPoint *cp = findClosestConnectionPoint(ani->_ox, ani->_oy, idx, sourceX, sourceY, sourceIdx, &dist);
if (!cp)
return 0;
MessageQueue *mq = _motionControllers[idx]->_motionControllerObj->makeQueue(ani, cp->_connectionX, cp->_connectionY, 1, cp->_mctlmirror);
if (!mq)
return 0;
for (uint i = 0; i < cp->_messageQueueObj->getCount(); i++) {
ExCommand *ex = new ExCommand(cp->_messageQueueObj->getExCommandByIndex(i));
ex->_excFlags |= 2;
mq->addExCommandToEnd(ex);
}
ExCommand *ex = new ExCommand(ani->_id, 51, 0, sourceX, sourceY, 0, 1, 0, 0, 0);
ex->_excFlags |= 2;
ex->_field_20 = fuzzyMatch;
ex->_param = ani->_odelay;
mq->addExCommandToEnd(ex);
if (!mq->chain(ani)) {
delete mq;
return 0;
}
return mq;
}
MessageQueue *MctlCompound::makeQueue(StaticANIObject *subj, int xpos, int ypos, int fuzzyMatch, int staticsId) {
int match1 = -1;
int match2 = -1;
debugC(1, kDebugPathfinding, "MctlCompound::makeQueue(*%d, %d, %d, %d, %d)", (subj ? subj->_id : -1), xpos, ypos, fuzzyMatch, staticsId);
if (!subj)
return 0;
for (uint i = 0; i < _motionControllers.size(); i++) {
if (_motionControllers[i]->_movGraphReactObj) {
if (_motionControllers[i]->_movGraphReactObj->pointInRegion(subj->_ox, subj->_oy)) {
match1 = i;
break;
}
}
}
if (match1 == -1)
return 0;
for (uint i = 0; i < _motionControllers.size(); i++) {
if (_motionControllers[i]->_movGraphReactObj) {
if (_motionControllers[i]->_movGraphReactObj->pointInRegion(xpos, ypos)) {
match2 = i;
break;
}
}
}
if (match2 == -1)
return 0;
if (match1 == match2)
return _motionControllers[match1]->_motionControllerObj->makeQueue(subj, xpos, ypos, fuzzyMatch, staticsId);
double dist;
MctlConnectionPoint *closestP = findClosestConnectionPoint(subj->_ox, subj->_oy, match1, xpos, ypos, match2, &dist);
if (!closestP)
return 0;
MessageQueue *mq = _motionControllers[match1]->_motionControllerObj->makeQueue(subj, closestP->_connectionX, closestP->_connectionY, 1, closestP->_mctlmirror);
ExCommand *ex;
if (mq) {
for (uint i = 0; i < closestP->_messageQueueObj->getCount(); i++) {
ex = closestP->_messageQueueObj->getExCommandByIndex(i)->createClone();
ex->_excFlags |= 2;
mq->addExCommandToEnd(ex);
}
ex = new ExCommand(subj->_id, 51, 0, xpos, ypos, 0, 1, 0, 0, 0);
ex->_field_20 = fuzzyMatch;
ex->_param = subj->_odelay;
ex->_excFlags |= 2;
mq->addExCommandToEnd(ex);
}
return mq;
}
MctlItem::~MctlItem() {
delete _movGraphReactObj;
delete _motionControllerObj;
}
MctlLadder::MctlLadder() {
_width = 0;
_ladderX = 0;
_height = 0;
_ladderY = 0;
_ladder_field_14 = 0;
_ladder_field_20 = 0;
_ladder_field_24 = 0;
}
MctlLadder::~MctlLadder() {
detachAllObjects();
}
int MctlLadder::collisionDetection(StaticANIObject *man) {
if (findObjectPos(man) < 0)
return 0;
double delta;
if ((double)(man->_oy - _ladderY) / (double)_height < 0.0)
delta = -0.5;
else
delta = 0.5;
int res = (int)((double)(man->_oy - _ladderY) / (double)_height + delta);
if (res < 0)
return 0;
return res;
}
void MctlLadder::attachObject(StaticANIObject *obj) {
debugC(4, kDebugPathfinding, "MctlLadder::attachObject(*%d)", obj->_id);
if (findObjectPos(obj) < 0) {
MctlLadderMovement *movement = new MctlLadderMovement;
if (initMovement(obj, movement)) {
_aniHandler.attachObject(obj->_id);
_ladmovements.push_back(movement);
} else {
delete movement;
}
}
}
int MctlLadder::findObjectPos(StaticANIObject *obj) {
for (uint i = 0; i < _ladmovements.size(); i++)
if (_ladmovements[i]->objId == obj->_id)
return i;
return -1;
}
bool MctlLadder::initMovement(StaticANIObject *ani, MctlLadderMovement *movement) {
debugC(4, kDebugPathfinding, "MctlLadder::initMovement(*%d, ...)", ani->_id);
GameVar *v = g_fp->getGameLoaderGameVar()->getSubVarByName(ani->getName());
if (!v)
return false;
GameVar *l = v->getSubVarByName("Test_Ladder");
if (!l)
return false;
movement->staticIdsSize = 6;
movement->movVars = new MctlLadderMovementVars;
movement->staticIds = new int[movement->staticIdsSize];
v = l->getSubVarByName("Up");
if (!v)
return false;
movement->movVars->varUpStart = v->getSubVarAsInt("Start");
movement->movVars->varUpGo = v->getSubVarAsInt("Go");
movement->movVars->varUpStop = v->getSubVarAsInt("Stop");
movement->staticIds[0] = ani->getMovementById(movement->movVars->varUpStart)->_staticsObj1->_staticsId;
movement->staticIds[2] = ani->getMovementById(movement->movVars->varUpGo)->_staticsObj1->_staticsId;
v = l->getSubVarByName("Down");
if (!v)
return false;
movement->movVars->varDownStart = v->getSubVarAsInt("Start");
movement->movVars->varDownGo = v->getSubVarAsInt("Go");
movement->movVars->varDownStop = v->getSubVarAsInt("Stop");
movement->staticIds[1] = ani->getMovementById(movement->movVars->varDownStart)->_staticsObj1->_staticsId;
movement->staticIds[3] = ani->getMovementById(movement->movVars->varDownGo)->_staticsObj1->_staticsId;
movement->objId = ani->_id;
return true;
}
void MctlLadder::detachAllObjects() {
debugC(4, kDebugPathfinding, "MctlLadder::detachAllObjects()");
_aniHandler.detachAllObjects();
for (uint i = 0; i < _ladmovements.size(); i++) {
delete _ladmovements[i]->movVars;
delete[] _ladmovements[i]->staticIds;
}
_ladmovements.clear();
}
MessageQueue *MctlLadder::startMove(StaticANIObject *subj, int xpos, int ypos, int fuzzyMatch, int staticsId) {
debugC(4, kDebugPathfinding, "MctlLadder::startMove(*%d, %d, %d, %d, %d)", (subj ? subj->_id : -1), xpos, ypos, fuzzyMatch, staticsId);
MessageQueue *mq = makeQueue(subj, xpos, ypos, fuzzyMatch, staticsId);
if (mq) {
if (mq->chain(subj))
return mq;
}
return 0;
}
MessageQueue *MctlLadder::makeQueue(StaticANIObject *ani, int xpos, int ypos, int fuzzyMatch, int staticsId) {
debugC(1, kDebugPathfinding, "MctlLadder::makeQueue(*%d, %d, %d, %d, %d)", (ani ? ani->_id : -1), xpos, ypos, fuzzyMatch, staticsId);
int pos = findObjectPos(ani);
if (pos < 0)
return 0;
double dh = _height;
double corr = (double)(ani->_oy - _ladderY) / dh;
int dl = (int)(corr + (corr < 0.0 ? -0.5 : 0.5));
corr = (double)(ypos - _ladderY) / dh;
int dl2 = (int)(corr + (corr < 0.0 ? -0.5 : 0.5));
int normx = _ladderX + dl2 * _width;
int normy = _ladderY + dl2 * _height;
if (dl == dl2 || dl2 < 0)
return 0;
int direction = (normy - ani->_oy) < 0 ? 0 : 1;
MakeQueueStruct mkQueue;
PicAniInfo picinfo;
MessageQueue *mq;
ExCommand *ex;
Common::Point point;
if (ani->_movement) {
ani->getPicAniInfo(&picinfo);
int ox = ani->_ox;
int oy = ani->_oy;
ani->_movement->calcSomeXY(point, 1, ani->_someDynamicPhaseIndex);
ani->_statics = ani->_movement->_staticsObj2;
ani->_movement = 0;
ani->setOXY(point.x + ox, point.y + oy);
mq = makeQueue(ani, normx, normy, fuzzyMatch, staticsId);
ani->setPicAniInfo(&picinfo);
return mq;
}
if (ani->_statics->_staticsId == _ladmovements[pos]->staticIds[0]) {
mkQueue.ani = ani;
if (staticsId)
mkQueue.staticsId2 = staticsId;
else
mkQueue.staticsId2 = _ladmovements[pos]->staticIds[direction];
mkQueue.x1 = normx;
mkQueue.y1 = normy;
mkQueue.field_1C = _ladder_field_14;
mkQueue.flags = 14;
mkQueue.movementId = direction ? _ladmovements[pos]->movVars->varDownGo : _ladmovements[pos]->movVars->varUpGo;
return _aniHandler.makeRunQueue(&mkQueue);
}
if (ani->_statics->_staticsId == _ladmovements[pos]->staticIds[2]) {
if (!direction) {
mkQueue.ani = ani;
if (staticsId)
mkQueue.staticsId2 = staticsId;
else
mkQueue.staticsId2 = _ladmovements[pos]->staticIds[0];
mkQueue.x1 = normx;
mkQueue.y1 = normy;
mkQueue.field_1C = _ladder_field_14;
mkQueue.flags = 14;
mkQueue.movementId = _ladmovements[pos]->movVars->varUpGo;
return _aniHandler.makeRunQueue(&mkQueue);
}
int ox = ani->_ox;
int oy = ani->_oy;
ani->getMovementById(_ladmovements[pos]->movVars->varUpStop)->calcSomeXY(point, 0, -1);
mkQueue.ani = ani;
if (staticsId)
mkQueue.staticsId2 = staticsId;
else
mkQueue.staticsId2 = _ladmovements[pos]->staticIds[1];
mkQueue.field_1C = _ladder_field_14;
mkQueue.x1 = normx;
mkQueue.y1 = normy;
mkQueue.y2 = point.y + oy;
mkQueue.x2 = point.x + ox;
mkQueue.flags = 63;
mkQueue.staticsId1 = _ladmovements[pos]->staticIds[0];
mkQueue.movementId = _ladmovements[pos]->movVars->varDownGo;
mq = _aniHandler.makeRunQueue(&mkQueue);
ex = new ExCommand(ani->_id, 1, _ladmovements[pos]->movVars->varUpStop, 0, 0, 0, 1, 0, 0, 0);
ex->_param = ani->_odelay;
ex->_excFlags |= 2;
mq->insertExCommandAt(0, ex);
return mq;
}
if (ani->_statics->_staticsId != _ladmovements[pos]->staticIds[3]) {
mq = _aniHandler.makeQueue(ani, _ladmovements[pos]->staticIds[0], 0, 0, 0);
if (!mq)
return 0;
int nx = ani->_ox;
int ny = ani->_oy;
_aniHandler.getTransitionSize(&point, ani->_id, ani->_statics->_staticsId, _ladmovements[pos]->staticIds[0]);
nx += point.x;
ny += point.y;
ani->getPicAniInfo(&picinfo);
ani->_statics = ani->getStaticsById(_ladmovements[pos]->staticIds[0]);
ani->_movement = 0;
ani->setOXY(nx, ny);
MessageQueue *newmq = makeQueue(ani, normx, normy, fuzzyMatch, staticsId);
mq->mergeQueue(newmq);
delete newmq;
ani->setPicAniInfo(&picinfo);
return mq;
}
if (!direction) {
int nx = ani->_ox;
int ny = ani->_oy;
ani->getMovementById(_ladmovements[pos]->movVars->varDownStop)->calcSomeXY(point, 0, -1);
nx += point.x;
ny += point.y;
mkQueue.ani = ani;
if (staticsId)
mkQueue.staticsId2 = staticsId;
else
mkQueue.staticsId2 = _ladmovements[pos]->staticIds[0];
mkQueue.field_1C = _ladder_field_14;
mkQueue.x1 = normx;
mkQueue.y1 = normy;
mkQueue.y2 = ny;
mkQueue.x2 = nx;
mkQueue.flags = 63;
mkQueue.staticsId1 = _ladmovements[pos]->staticIds[1];
mkQueue.movementId = _ladmovements[pos]->movVars->varUpGo;
mq = _aniHandler.makeRunQueue(&mkQueue);
ex = new ExCommand(ani->_id, 1, _ladmovements[pos]->movVars->varDownStop, 0, 0, 0, 1, 0, 0, 0);
ex->_param = ani->_odelay;
ex->_excFlags |= 2;
mq->insertExCommandAt(0, ex);
return mq;
}
mkQueue.ani = ani;
if (staticsId)
mkQueue.staticsId2 = staticsId;
else
mkQueue.staticsId2 = _ladmovements[pos]->staticIds[1];
mkQueue.x1 = normx;
mkQueue.y1 = normy;
mkQueue.field_1C = _ladder_field_14;
mkQueue.flags = 14;
mkQueue.movementId = _ladmovements[pos]->movVars->varDownGo;
return _aniHandler.makeRunQueue(&mkQueue);
}
MessageQueue *MctlLadder::controllerWalkTo(StaticANIObject *ani, int off) {
return makeQueue(ani, _ladderX + off * _width, _ladderY + off * _height, 1, 0);
}
MctlConnectionPoint *MctlCompound::findClosestConnectionPoint(int ox, int oy, int destIndex, int connectionX, int connectionY, int sourceIdx, double *minDistancePtr) {
if (destIndex == sourceIdx) {
*minDistancePtr = sqrt((double)((oy - connectionY) * (oy - connectionY) + (ox - connectionX) * (ox - connectionX)));
return 0;
}
double currDistance = 0.0;
double minDistance = 1.0e10;
MctlConnectionPoint *minConnectionPoint = 0;
for (uint i = 0; i < _motionControllers[sourceIdx]->_connectionPoints.size(); i++) {
for (uint j = 0; j < _motionControllers.size(); j++) {
if (_motionControllers[j]->_movGraphReactObj) {
MctlConnectionPoint *pt = _motionControllers[sourceIdx]->_connectionPoints[i];
if (_motionControllers[j]->_movGraphReactObj->pointInRegion(pt->_connectionX, pt->_connectionY)) {
MctlConnectionPoint *npt = findClosestConnectionPoint(ox, oy, destIndex, pt->_connectionX, pt->_connectionY, j, &currDistance);
if (currDistance < minDistance) {
minDistance = currDistance;
if (npt)
minConnectionPoint = npt;
else
minConnectionPoint = pt;
}
}
}
}
}
*minDistancePtr = minDistance;
return minConnectionPoint;
}
void MctlCompound::replaceNodeX(int from, int to) {
for (uint i = 0; i < _motionControllers.size(); i++) {
if (_motionControllers[i]->_motionControllerObj->_objtype == kObjTypeMovGraph) {
MovGraph *gr = (MovGraph *)_motionControllers[i]->_motionControllerObj;
for (ObList::iterator n = gr->_nodes.begin(); n != gr->_nodes.end(); ++n) {
MovGraphNode *node = (MovGraphNode *)*n;
if (node->_x == from)
node->_x = to;
}
gr->recalcLinkParams();
}
}
}
MctlConnectionPoint::MctlConnectionPoint() {
_connectionX = 0;
_connectionY = 0;
_mctlflags = 0;
_mctlstatic = 0;
_mctlmirror = 0;
_messageQueueObj = 0;
_motionControllerObj = 0;
}
MctlConnectionPoint::~MctlConnectionPoint() {
delete _messageQueueObj;
}
MctlMQ::MctlMQ(MctlMQ *src) {
index = src->index;
pt1 = src->pt1;
pt2 = src->pt2;
distance1 = src->distance1;
distance2 = src->distance2;
subIndex = src->subIndex;
item1Index = src->item1Index;
items = src->items;
itemsCount = src->itemsCount;
flags = src->flags;
}
void MctlMQ::clear() {
index = 0;
pt1.x = pt1.y = 0;
pt2.x = pt2.y = 0;
distance1 = 0;
distance2 = 0;
subIndex = 0;
item1Index = 0;
items.clear();
itemsCount = 0;
flags = 0;
}
bool MctlCompoundArray::load(MfcArchive &file) {
debugC(5, kDebugLoading, "MctlCompoundArray::load()");
int count = file.readUint32LE();
debugC(0, kDebugLoading, "MctlCompoundArray::count = %d", count);
assert(0);
return true;
}
MovGraphItem::MovGraphItem() {
ani = 0;
field_4 = 0;
movitems = 0;
count = 0;
field_30 = 0;
field_34 = 0;
field_38 = 0;
field_3C = 0;
}
void MovGraphItem::free() {
for (uint i = 0; i < movitems->size(); i++) {
(*movitems)[i]->movarr->_movSteps.clear();
delete (*movitems)[i]->movarr;
}
delete movitems;
movitems = 0;
}
int MovGraph_messageHandler(ExCommand *cmd);
MovArr *movGraphCallback(StaticANIObject *ani, Common::Array<MovItem *> *items, signed int counter) {
int residx = 0;
int itemidx = 0;
while (counter > 1) {
if ((*items)[itemidx]->_mfield_4 > (*items)[itemidx + 1]->_mfield_4)
residx = itemidx;
counter--;
itemidx++;
}
return (*items)[residx]->movarr;
}
MovGraph::MovGraph() {
_callback1 = movGraphCallback;
_field_44 = 0;
insertMessageHandler(MovGraph_messageHandler, getMessageHandlersCount() - 1, 129);
_objtype = kObjTypeMovGraph;
}
MovGraph::~MovGraph() {
warning("STUB: MovGraph::~MovGraph()");
}
bool MovGraph::load(MfcArchive &file) {
debugC(5, kDebugLoading, "MovGraph::load()");
_links.load(file);
_nodes.load(file);
return true;
}
void MovGraph::attachObject(StaticANIObject *obj) {
debugC(4, kDebugPathfinding, "MovGraph::attachObject(*%d)", obj->_id);
_aniHandler.detachAllObjects();
_aniHandler.attachObject(obj->_id);
for (uint i = 0; i < _items.size(); i++)
if (_items[i]->ani == obj)
return;
MovGraphItem *item = new MovGraphItem();
item->ani = obj;
_items.push_back(item);
_aniHandler.attachObject(obj->_id); // FIXME: Is it really needed?
}
int MovGraph::detachObject(StaticANIObject *obj) {
warning("STUB: MovGraph::detachObject()");
return 0;
}
void MovGraph::detachAllObjects() {
debugC(4, kDebugPathfinding, "MovGraph::detachAllObjects()");
for (uint i = 0; i < _items.size(); i++) {
_items[i]->free();
_items[i]->movarr._movSteps.clear();
}
_items.clear();
}
Common::Array<MovItem *> *MovGraph::getPaths(StaticANIObject *ani, int x, int y, int flag1, int *rescount) {
debugC(4, kDebugPathfinding, "MovGraph::getPaths(*%d, %d, %d, %d, &rescount)", (ani ? ani->_id : -1), x, y, flag1);
*rescount = 0;
if (_items.size() <= 0)
return 0;
uint idx = 0;
while (_items[idx]->ani != ani) {
idx++;
if (idx >= _items.size())
return 0;
}
_items[idx]->free();
recalcLinkParams();
_items[idx]->movarr._movSteps.clear();
Common::Point point;
point.x = ani->_ox;
point.y = ani->_oy;
if (!getHitPoint(idx, ani->_ox, ani->_oy, &_items[idx]->movarr, 0))
getNearestPoint(idx, &point, &_items[idx]->movarr);
_items[idx]->count = 0;
delete _items[idx]->movitems;
_items[idx]->movitems = 0;
int arrSize;
Common::Array<MovArr *> *movarr = getHitPoints(x, y, &arrSize, flag1, 0);
if (movarr) {
for (int i = 0; i < arrSize; i++) {
int sz;
Common::Array<MovItem *> *movitems = getPaths(&_items[idx]->movarr, (*movarr)[i], &sz);
if (sz > 0) {
for (int j = 0; j < sz; j++)
_items[idx]->movitems->push_back(movitems[j]);
}
delete movitems;
}
delete movarr;
}
if (_items[idx]->count) {
*rescount = _items[idx]->count;
return _items[idx]->movitems;
}
return 0;
}
bool MovGraph::setPosImmediate(StaticANIObject *obj, int x, int y) {
obj->setOXY(x, y);
return resetPosition(obj, 1);
}
MessageQueue *MovGraph::startMove(StaticANIObject *ani, int xpos, int ypos, int fuzzyMatch, int staticsId) {
debugC(4, kDebugPathfinding, "MovGraph::startMove(*%d, %d, %d, %d, %d)", (ani ? ani->_id : -1), xpos, ypos, fuzzyMatch, staticsId);
if (!ani) {
if (!_items.size())
return 0;
ani = _items[0]->ani;
}
if (ABS(ani->_ox - xpos) < 50 && ABS(ani->_oy - ypos) < 50)
return 0;
if (!ani->isIdle())
return 0;
if (ani->_flags & 0x100)
return 0;
int count;
Common::Array<MovItem *> *movitems = getPaths(ani, xpos, ypos, fuzzyMatch, &count);
if (!movitems)
return 0;
if (ani->_movement) {
Common::Point point;
ani->calcStepLen(&point);
MessageQueue *mq = sub1(ani, ani->_ox - point.x, ani->_oy - point.y, ani->_movement->_staticsObj1->_staticsId, xpos, ypos, 0, fuzzyMatch);
if (!mq || !mq->getExCommandByIndex(0))
return 0;
ExCommand *ex = mq->getExCommandByIndex(0);
if ((ex->_messageKind != 1 && ex->_messageKind != 20) || ex->_messageNum != ani->_movement->_id ||
(ex->_field_14 >= 1 && ex->_field_14 <= ani->_movement->_currDynamicPhaseIndex)) {
mq = new MessageQueue(g_fp->_globalMessageQueueList->compact());
ex = new ExCommand(ani->_id, 21, 0, 0, 0, 0, 1, 0, 0, 0);
ex->_param = ani->_odelay;
ex->_field_3C = 1;
ex->_field_24 = 0;
mq->addExCommandToEnd(ex);
ex = new ExCommand(ani->_id, 51, 0, xpos, ypos, 0, 1, 0, 0, 0);
ex->_param = ani->_odelay;
ex->_field_3C = 1;
ex->_field_24 = 0;
ex->_field_20 = fuzzyMatch;
mq->addExCommandToEnd(ex);
if (mq->chain(0))
return mq;
delete mq;
return 0;
}
int count2;
ani->setSomeDynamicPhaseIndex(ex->_field_14);
getPaths(ani, xpos, ypos, fuzzyMatch, &count2);
int idx = getObjectIndex(ani);
count = _items[idx]->count;
movitems = _items[idx]->movitems;
}
return method50(ani, _callback1(ani, movitems, count), staticsId);
}
void MovGraph::setSelFunc(MovArr *(*callback1)(StaticANIObject *ani, Common::Array<MovItem *> *items, signed int counter)) {
_callback1 = callback1;
}
bool MovGraph::resetPosition(StaticANIObject *ani, int flag) {
debugC(4, kDebugPathfinding, "MovGraph::resetPosition(*%d, %d)", (ani ? ani->_id : -1), flag);
int idx = getObjectIndex(ani);
if (idx == -1)
return false;
Common::Point point;
MovArr movarr;
point.x = ani->_ox;
point.y = ani->_oy;
getNearestPoint(idx, &point, &movarr);
ani->setOXY(point.x, point.y);
if (flag) {
Statics *st;
if (ani->_statics) {
int t = _aniHandler.getNumMovements(ani->_id, ani->_statics->_staticsId, movarr._link->_dwordArray2[_field_44]);
if (t > _aniHandler.getNumMovements(ani->_id, ani->_statics->_staticsId, movarr._link->_dwordArray2[_field_44 + 1]))
st = ani->getStaticsById(movarr._link->_dwordArray2[_field_44 + 1]);
else
st = ani->getStaticsById(movarr._link->_dwordArray2[_field_44]);
} else {
ani->stopAnim_maybe();
st = ani->getStaticsById(movarr._link->_dwordArray2[_field_44]);
}
ani->_statics = st;
}
return true;
}
bool MovGraph::canDropInventory(StaticANIObject *ani, int x, int y) {
int idx = getObjectIndex(ani);
MovArr m;
if (idx != -1) {
if (x != -1 || y != -1) {
int counter;
Common::Array<MovItem *> *movitem = getPaths(ani, x, y, 0, &counter);
if (movitem) {
MovArr *movarr = _callback1(ani, movitem, counter);
int cnt = movarr->_movStepCount;
if (cnt > 0) {
if (movarr->_movSteps[cnt - 1]->link->_flags & 0x4000000)
return true;
}
}
} else if (getHitPoint(idx, ani->_ox, ani->_oy, &m, 0) && m._link && (m._link->_flags & 0x4000000)) {
return true;
}
}
return false;
}
MessageQueue *MovGraph::makeQueue(StaticANIObject *subj, int xpos, int ypos, int fuzzyMatch, int staticsId) {
debugC(1, kDebugPathfinding, "MovGraph::makeQueue(*%d, %d, %d, %d, %d)", (subj ? subj->_id : -1), xpos, ypos, fuzzyMatch, staticsId);
PicAniInfo picAniInfo;
int ss;
Common::Array<MovItem *> *movitem = getPaths(subj, xpos, ypos, fuzzyMatch, &ss);
subj->getPicAniInfo(&picAniInfo);
if (movitem) {
MovArr *goal = _callback1(subj, movitem, ss);
int idx = getObjectIndex(subj);
for (int i = 0; i < _items[idx]->count; i++) {
if ((*_items[idx]->movitems)[i]->movarr == goal) {
if (subj->_movement) {
Common::Point point;
subj->calcStepLen(&point);
MessageQueue *mq = sub1(subj, subj->_ox - point.x, subj->_oy - point.y, subj->_movement->_staticsObj1->_staticsId, xpos, ypos, 0, fuzzyMatch);
if (!mq || !mq->getExCommandByIndex(0))
return 0;
ExCommand *ex = mq->getExCommandByIndex(0);
if ((ex->_messageKind != 1 && ex->_messageKind != 20) ||
ex->_messageNum != subj->_movement->_id ||
(ex->_field_14 >= 1 && ex->_field_14 <= subj->_movement->_currDynamicPhaseIndex))
subj->playIdle();
}
}
}
}
movitem = getPaths(subj, xpos, ypos, fuzzyMatch, &ss);
if (movitem) {
MovArr *goal = _callback1(subj, movitem, ss);
int idx = getObjectIndex(subj);
if (_items[idx]->count > 0) {
int arridx = 0;
while ((*_items[idx]->movitems)[arridx]->movarr != goal) {
arridx++;
if (arridx >= _items[idx]->count) {
subj->setPicAniInfo(&picAniInfo);
return 0;
}
}
_items[idx]->movarr._movSteps.clear();
_items[idx]->movarr = *(*_items[idx]->movitems)[arridx]->movarr;
_items[idx]->movarr._movSteps = (*_items[idx]->movitems)[arridx]->movarr->_movSteps;
_items[idx]->movarr._afield_8 = -1;
_items[idx]->movarr._link = 0;
MessageQueue *mq = makeWholeQueue(_items[idx]->ani, &_items[idx]->movarr, staticsId);
if (mq) {
ExCommand *ex = new ExCommand();
ex->_messageKind = 17;
ex->_messageNum = 54;
ex->_parentId = subj->_id;
ex->_field_3C = 1;
mq->addExCommandToEnd(ex);
}
subj->setPicAniInfo(&picAniInfo);
return mq;
}
}
subj->setPicAniInfo(&picAniInfo);
return 0;
}
MessageQueue *MovGraph::sub1(StaticANIObject *ani, int x, int y, int stid, int x1, int y1, int stid2, int flag1) {
debugC(4, kDebugPathfinding, "MovGraph::sub1(*%d, %d, %d, %d, %d, %d, %d, %d)", (ani ? ani->_id : -1), x, y, stid, x1, y1, stid2, flag1);
PicAniInfo picinfo;
ani->getPicAniInfo(&picinfo);
ani->_statics = ani->getStaticsById(stid);
ani->_movement = 0;
ani->setOXY(x, y);
int rescount;
Common::Array<MovItem *> *movitems = getPaths(ani, x1, y1, flag1, &rescount);
if (!movitems) {
ani->setPicAniInfo(&picinfo);
return 0;
}
MessageQueue *res = 0;
MovArr *goal = _callback1(ani, movitems, rescount);
int idx = getObjectIndex(ani);
MovGraphItem *movgitem = _items[idx];
int cnt = movgitem->count;
for (int nidx = 0; nidx < cnt; nidx++) {
if ((*movgitem->movitems)[nidx]->movarr == goal) {
movgitem->movarr._movSteps.clear();
_items[idx]->movarr = *(*movgitem->movitems)[nidx]->movarr;
_items[idx]->movarr._movSteps = (*movgitem->movitems)[nidx]->movarr->_movSteps;
_items[idx]->movarr._afield_8 = -1;
_items[idx]->movarr._link = 0;
res = makeWholeQueue(_items[idx]->ani, &_items[idx]->movarr, stid2);
break;
}
}
ani->setPicAniInfo(&picinfo);
return res;
}
MessageQueue *MovGraph::makeWholeQueue(StaticANIObject *ani, MovArr *movarr, int staticsId) {
debugC(4, kDebugPathfinding, "MovGraph::makeWholeQueue(*%d, *, %d)", (ani ? ani->_id : -1), staticsId);
if (!movarr->_movStepCount)
return 0;
MessageQueue *mq = 0;
int ox = ani->_ox;
int oy = ani->_oy;
int id1 = 0;
int id2;
for (int i = 0; i < movarr->_movStepCount; i++) {
while (i < movarr->_movStepCount - 1) {
if (movarr->_movSteps[i ]->link->_dwordArray1[movarr->_movSteps[i - 1]->sfield_0 + _field_44] !=
movarr->_movSteps[i + 1]->link->_dwordArray1[movarr->_movSteps[i ]->sfield_0 + _field_44])
break;
i++;
}
MovStep *st = movarr->_movSteps[i];
ani->getMovementById(st->link->_dwordArray1[_field_44 + st->sfield_0]);
if (i == movarr->_movStepCount - 1 && staticsId) {
id2 = staticsId;
} else {
if (i < movarr->_movStepCount - 1)
id2 = ani->getMovementById(movarr->_movSteps[i + 1]->link->_dwordArray1[_field_44 + st->sfield_0])->_staticsObj1->_staticsId;
else
id2 = st->link->_dwordArray2[_field_44 + st->sfield_0];
}
int nx, ny, nd;
if (i == movarr->_movStepCount - 1) {
nx = movarr->_point.x;
ny = movarr->_point.y;
nd = st->link->_graphSrc->_z;
} else {
if (st->sfield_0) {
nx = st->link->_graphSrc->_x;
ny = st->link->_graphSrc->_y;
nd = st->link->_graphSrc->_z;
} else {
nx = st->link->_graphDst->_x;
ny = st->link->_graphDst->_y;
nd = st->link->_graphDst->_z;
}
}
MakeQueueStruct mkQueue;
memset(&mkQueue, 0, sizeof(mkQueue));
mkQueue.ani = ani;
mkQueue.staticsId2 = id2;
mkQueue.staticsId1 = id1;
mkQueue.x1 = nx;
mkQueue.x2 = ox;
mkQueue.y2 = oy;
mkQueue.y1 = ny;
mkQueue.field_1C = nd;
mkQueue.movementId = st->link->_dwordArray1[_field_44 + st->sfield_0];
mkQueue.flags = 0xe;
if (mq)
mkQueue.flags |= 0x31;
MessageQueue *newmq = _aniHandler.makeRunQueue(&mkQueue);
if (mq) {
if (newmq) {
mq->mergeQueue(newmq);
delete newmq;
}
} else {
mq = newmq;
}
ox = nx;
oy = ny;
id1 = id2;
}
return mq;
}
MessageQueue *MovGraph::method50(StaticANIObject *ani, MovArr *movarr, int staticsId) {
debugC(4, kDebugPathfinding, "MovGraph::method50(*%d, *, %d)", (ani ? ani->_id : -1), staticsId);
if (_items.size() == 0)
return 0;
uint idx;
int movidx = 0;
bool done = false;
for (idx = 0; idx <= _items.size() && !done; idx++) {
if (idx == _items.size())
return 0;
if (_items[idx]->ani == ani) {
if (!_items[idx]->movitems)
return 0;
if (_items[idx]->count < 1)
return 0;
for (movidx = 0; movidx < _items[idx]->count; movidx++) {
if ((*_items[idx]->movitems)[movidx]->movarr == movarr) {
done = true;
break;
}
}
}
}
_items[idx]->movarr._movSteps.clear();
_items[idx]->movarr = *(*_items[idx]->movitems)[movidx]->movarr;
_items[idx]->movarr._movSteps = (*_items[idx]->movitems)[movidx]->movarr->_movSteps;
_items[idx]->movarr._afield_8 = -1;
_items[idx]->movarr._link = 0;
MessageQueue *mq = makeWholeQueue(_items[idx]->ani, &_items[idx]->movarr, 0);
if (!mq)
return 0;
ExCommand *ex = new ExCommand();
ex->_messageKind = 17;
ex->_messageNum = 54;
ex->_parentId = ani->_id;
ex->_field_3C = 1;
mq->addExCommandToEnd(ex);
if (!mq->chain(ani)) {
delete mq;
return 0;
}
return mq;
}
double MovGraph::putToLink(Common::Point *point, MovGraphLink *link, int fuzzyMatch) {
int n1x = link->_graphSrc->_x;
int n1y = link->_graphSrc->_y;
int n2x = link->_graphDst->_x;
int n2y = link->_graphDst->_y;
double dist1x = (double)(point->x - n1x);
double dist1y = (double)(n1y - point->y);
double dist2x = (double)(n2x - n1x);
double dist2y = (double)(n1y - n2y);
double dist1 = sqrt(dist1x * dist1x + dist1y * dist1y);
double dist2 = (dist2y * dist1y + dist2x * dist1x) / link->_length / dist1;
double distm = dist2 * dist1;
double res = sqrt(1.0 - dist2 * dist2) * dist1;
if (dist2 <= 0.0 || distm >= link->_length) {
if (fuzzyMatch) {
if (dist2 > 0.0) {
if (distm >= link->_length) {
point->x = n2x;
point->y = n2y;
}
} else {
point->x = n1x;
point->y = n1y;
}
} else {
return -1.0;
}
} else {
point->x = n1x + (int)((double)(n2x - n1x) * distm / link->_length);
point->y = n1y + (int)((double)(n2y - n1y) * distm / link->_length);
}
return res;
}
void MovGraph::recalcLinkParams() {
debugC(4, kDebugPathfinding, "MovGraph::recalcLinkParams()");
for (ObList::iterator i = _links.begin(); i != _links.end(); ++i) {
assert(((CObject *)*i)->_objtype == kObjTypeMovGraphLink);
MovGraphLink *lnk = (MovGraphLink *)*i;
lnk->_flags &= 0x7FFFFFFF;
lnk->recalcLength();
}
}
bool MovGraph::getNearestPoint(int unusedArg, Common::Point *p, MovArr *movarr) {
debugC(4, kDebugPathfinding, "MovGraph::getNearestPoint(...)");
MovGraphLink *link = 0;
double mindist = 1.0e20;
int resx = 0, resy = 0;
for (ObList::iterator i = _links.begin(); i != _links.end(); ++i) {
MovGraphLink *lnk = (MovGraphLink *)*i;
if ((lnk->_flags & 0x10000000) && !(lnk->_flags & 0x20000000) ) {
double dx1 = lnk->_graphSrc->_x - p->x;
double dy1 = lnk->_graphSrc->_y - p->y;
double dx2 = lnk->_graphDst->_x - p->x;
double dy2 = lnk->_graphDst->_y - p->y;
double dx3 = lnk->_graphDst->_x - lnk->_graphSrc->_x;
double dy3 = lnk->_graphDst->_y - lnk->_graphSrc->_y;
double sq1 = sqrt(dy1 * dy1 + dx1 * dx1);
double sdist = (dy3 * dy1 + dx3 * dx1) / lnk->_length / sq1;
double ldist = sdist * sq1;
double dist = sqrt(1.0 - sdist * sdist) * sq1;
if (ldist < 0.0) {
ldist = 0.0;
dist = sqrt(dx1 * dx1 + dy1 * dy1);
}
if (ldist > lnk->_length) {
ldist = lnk->_length;
dist = sqrt(dx2 * dx2 + dy2 * dy2);
}
if (ldist >= 0.0 && ldist <= lnk->_length && dist < mindist) {
resx = lnk->_graphSrc->_x + (int)(dx3 * ldist / lnk->_length);
resy = lnk->_graphSrc->_y + (int)(dy3 * ldist / lnk->_length);
mindist = dist;
link = lnk;
}
}
}
if (mindist < 1.0e20) {
if (movarr)
movarr->_link = link;
if (p) {
p->x = resx;
p->y = resy;
}
return true;
}
return false;
}
int MovGraph::getObjectIndex(StaticANIObject *ani) {
for (uint i = 0; i < _items.size(); i++)
if (_items[i]->ani == ani)
return i;
return -1;
}
Common::Array<MovArr *> *MovGraph::getHitPoints(int x, int y, int *arrSize, int flag1, int flag2) {
debugC(4, kDebugPathfinding, "MovGraph::getHitPoints(...)");
if (!_links.size()) {
*arrSize = 0;
return 0;
}
Common::Array<MovArr *> *arr = new Common::Array<MovArr *>;
MovArr *movarr;
for (ObList::iterator i = _links.begin(); i != _links.end(); ++i) {
MovGraphLink *lnk = (MovGraphLink *)*i;
if (flag1) {
Common::Point point(x, y);
double dist = putToLink(&point, lnk, 0);
if (dist >= 0.0 && dist < 2.0) {
movarr = new MovArr;
movarr->_link = lnk;
movarr->_dist = ((double)(lnk->_graphSrc->_y - lnk->_graphDst->_y) * (double)(lnk->_graphSrc->_y - point.y) +
(double)(lnk->_graphDst->_x - lnk->_graphSrc->_x) * (double)(point.x - lnk->_graphSrc->_x)) /
lnk->_length / lnk->_length;
movarr->_point = point;
arr->push_back(movarr);
}
} else {
if (lnk->_movGraphReact) {
if (lnk->_movGraphReact->pointInRegion(x, y)) {
if (!(lnk->_flags & 0x10000000) || lnk->_flags & 0x20000000) {
if (!flag2) {
movarr = new MovArr;
movarr->_link = lnk;
movarr->_dist = 0.0;
movarr->_point.x = lnk->_graphSrc->_x;
movarr->_point.y = lnk->_graphSrc->_y;
arr->push_back(movarr);
movarr = new MovArr;
movarr->_link = lnk;
movarr->_dist = 1.0;
movarr->_point.x = lnk->_graphSrc->_x;
movarr->_point.y = lnk->_graphSrc->_y;
arr->push_back(movarr);
}
} else {
movarr = new MovArr;
movarr->_link = lnk;
movarr->_dist = ((double)(lnk->_graphSrc->_y - lnk->_graphDst->_y) * (double)(lnk->_graphSrc->_y - y) +
(double)(lnk->_graphDst->_x - lnk->_graphSrc->_x) * (double)(x - lnk->_graphSrc->_x)) /
lnk->_length / lnk->_length;
movarr->_point.x = x;
movarr->_point.y = y;
putToLink(&movarr->_point, lnk, 0);
arr->push_back(movarr);
}
}
}
}
}
*arrSize = arr->size();
return arr;
}
void MovGraph::findAllPaths(MovGraphLink *lnk, MovGraphLink *lnk2, Common::Array<MovGraphLink *> &tempObList1, Common::Array<MovGraphLink *> &allPaths) {
debugC(4, kDebugPathfinding, "MovGraph::findAllPaths(...)");
if (lnk == lnk2) {
for (uint i = 0; i < tempObList1.size(); i++)
allPaths.push_back(tempObList1[i]);
allPaths.push_back(lnk);
} else {
lnk->_flags |= 0x80000000;
tempObList1.push_back(lnk);
for (ObList::iterator i = _links.begin(); i != _links.end(); ++i) {
MovGraphLink *l = (MovGraphLink *)*i;
if (l->_graphSrc != lnk->_graphSrc) {
if (l->_graphDst != lnk->_graphSrc) {
if (l->_graphSrc != lnk->_graphDst && l->_graphDst != lnk->_graphDst)
continue;
}
}
if (!(l->_flags & 0xA0000000))
findAllPaths(l, lnk2, tempObList1, allPaths);
}
lnk->_flags &= 0x7FFFFFFF;
}
}
// Returns a list of possible paths two points in graph space
Common::Array<MovItem *> *MovGraph::getPaths(MovArr *currPos, MovArr *destPos, int *pathCount) {
debugC(4, kDebugPathfinding, "MovGraph::getPaths(...)");
Common::Array<MovGraphLink *> tempObList1;
Common::Array<MovGraphLink *> allPaths;
// Get all paths between two edges of the graph
findAllPaths(currPos->_link, destPos->_link, tempObList1, allPaths);
*pathCount = 0;
if (!allPaths.size())
return 0;
*pathCount = allPaths.size();
Common::Array<MovItem *> *res = new Common::Array<MovItem *>;
for (int i = 0; i < *pathCount; i++) {
MovItem *r = new MovItem;
genMovItem(r, allPaths[i], currPos, destPos);
res->push_back(r);
delete allPaths[i];
}
// Start the resulting path from current position
destPos->_link = currPos->_link;
return res;
}
void MovGraph::genMovItem(MovItem *movitem, MovGraphLink *grlink, MovArr *movarr1, MovArr *movarr2) {
warning("STUB: MovGraph::genMovItem()");
}
bool MovGraph::getHitPoint(int idx, int x, int y, MovArr *arr, int a6) {
int staticsId;
if (_items[idx]->ani->_statics) {
staticsId = _items[idx]->ani->_statics->_staticsId;
} else {
if (!_items[idx]->ani->_movement->_staticsObj2)
return 0;
staticsId = _items[idx]->ani->_movement->_staticsObj2->_staticsId;
}
int arrSize;
Common::Array<MovArr *> *movarr = getHitPoints(x, y, &arrSize, 0, 1);
if (!movarr)
return getNearestPoint(idx, 0, arr);
bool res = false;
int idxmin = -1;
int offmin = 100;
for (int i = 0; i < arrSize; i++) {
int off = _aniHandler.getNumMovements(_items[idx]->ani->_id, staticsId, (*movarr)[i]->_link->_dwordArray2[_field_44]);
if (off < offmin) {
offmin = off;
idxmin = i;
}
off = _aniHandler.getNumMovements(_items[idx]->ani->_id, staticsId, (*movarr)[i]->_link->_dwordArray2[_field_44 + 1]);
if (off < offmin) {
offmin = off;
idxmin = i;
}
}
if (idxmin != -1) {
*arr = *(*movarr)[idxmin];
res = true;
}
delete movarr;
return res;
}
void MovGraph::setEnds(MovStep *step1, MovStep *step2) {
debugC(4, kDebugPathfinding, "MovGraph::setEnds(...)");
if (step1->link->_graphSrc == step2->link->_graphDst) {
step1->sfield_0 = 1;
step2->sfield_0 = 1;
return;
}
if (step1->link->_graphSrc == step2->link->_graphSrc) {
step1->sfield_0 = 1;
step2->sfield_0 = 0;
} else {
step1->sfield_0 = 0;
if (step1->link->_graphDst != step2->link->_graphSrc) {
step2->sfield_0 = 1;
} else {
step2->sfield_0 = 0;
}
}
}
int MctlGraph::getObjIndex(int objectId) {
for (uint i = 0; i < _items2.size(); i++)
if (_items2[i]->_objectId == objectId)
return i;
return -1;
}
int MctlGraph::getDirByStatics(int idx, int staticsId) {
for (int i = 0; i < 4; i++)
if (_items2[idx]->_subItems[i]._staticsId1 == staticsId || _items2[idx]->_subItems[i]._staticsId2 == staticsId)
return i;
return -1;
}
int MctlGraph::getDirByMovement(int idx, int movId) {
for (int i = 0; i < 4; i++)
if (_items2[idx]->_subItems[i]._walk[0]._movementId == movId
|| _items2[idx]->_subItems[i]._walk[1]._movementId == movId
|| _items2[idx]->_subItems[i]._walk[2]._movementId == movId)
return i;
return -1;
}
int MctlGraph::getDirByPoint(int index, StaticANIObject *ani) {
if (getHitNode(ani->_ox, ani->_oy, 0) || getHitLink(ani->_ox, ani->_oy, -1, 0) || getNearestLink(ani->_ox, ani->_oy)) {
int minidx = -1;
int min = 0;
for (int i = 0; i < 4; i++) {
debugC(1, kDebugPathfinding, "WWW 5");
int tmp = _aniHandler.getNumMovements(ani->_id, ani->_statics->_staticsId, _items2[index]->_subItems[i]._staticsId1);
if (tmp >= 0 && (minidx == -1 || tmp < min)) {
minidx = i;
min = tmp;
}
}
return minidx;
}
return -1;
}
bool MctlGraph::fillData(StaticANIObject *obj, MctlAni *item) {
debugC(4, kDebugPathfinding, "MovGraph::fillData(%d, ...)", obj->_id);
item->_obj = obj;
item->_objectId = obj->_id;
GameVar *var = g_fp->getGameLoaderGameVar()->getSubVarByName(obj->_objectName);
if (!var)
return false;
var = var->getSubVarByName("Test_walk");
if (!var)
return false;
GameVar *varD = 0;
Common::Point point;
for (int dir = 0; dir < 4; dir++) {
switch (dir) {
case 0:
varD = var->getSubVarByName("Right");
break;
case 1:
varD = var->getSubVarByName("Left");
break;
case 2:
varD = var->getSubVarByName("Up");
break;
case 3:
varD = var->getSubVarByName("Down");
break;
}
if (!varD)
return false;
for (int act = 0; act < 3; act++) {
int idx = 0;
switch(act) {
case 0:
idx = varD->getSubVarAsInt("Start");
break;
case 1:
idx = varD->getSubVarAsInt("Go");
break;
case 2:
idx = varD->getSubVarAsInt("Stop");
break;
}
item->_subItems[dir]._walk[act]._movementId = idx;
Movement *mov = obj->getMovementById(idx);
item->_subItems[dir]._walk[act]._mov = mov;
if (mov) {
mov->calcSomeXY(point, 0, -1);
item->_subItems[dir]._walk[act]._mx = point.x;
item->_subItems[dir]._walk[act]._my = point.y;
}
}
for (int act = 0; act < 4; act++) {
int idx = 0;
switch(act) {
case 0:
idx = varD->getSubVarAsInt("TurnR");
break;
case 1:
idx = varD->getSubVarAsInt("TurnL");
break;
case 2:
idx = varD->getSubVarAsInt("TurnU");
break;
case 3:
idx = varD->getSubVarAsInt("TurnD");
break;
}
item->_subItems[dir]._turn[act]._movementId = idx;
Movement *mov = obj->getMovementById(idx);
item->_subItems[dir]._turn[act]._mov = mov;
if (mov) {
mov->calcSomeXY(point, 0, -1);
item->_subItems[dir]._turn[act]._mx = point.x;
item->_subItems[dir]._turn[act]._my = point.y;
}
}
for (int act = 0; act < 4; act++) {
int idx = 0;
switch(act) {
case 0:
idx = varD->getSubVarAsInt("TurnSR");
break;
case 1:
idx = varD->getSubVarAsInt("TurnSL");
break;
case 2:
idx = varD->getSubVarAsInt("TurnSU");
break;
case 3:
idx = varD->getSubVarAsInt("TurnSD");
break;
}
item->_subItems[dir]._turnS[act]._movementId = idx;
Movement *mov = obj->getMovementById(idx);
item->_subItems[dir]._turnS[act]._mov = mov;
if (mov) {
mov->calcSomeXY(point, 0, -1);
item->_subItems[dir]._turnS[act]._mx = point.x;
item->_subItems[dir]._turnS[act]._my = point.y;
}
}
item->_subItems[dir]._staticsId1 = item->_subItems[dir]._walk[0]._mov->_staticsObj1->_staticsId;
item->_subItems[dir]._staticsId2 = item->_subItems[dir]._walk[0]._mov->_staticsObj2->_staticsId;
}
return true;
}
void MctlGraph::attachObject(StaticANIObject *obj) {
debugC(4, kDebugPathfinding, "MctlGraph::attachObject(*%d)", obj->_id);
MovGraph::attachObject(obj);
int id = getObjIndex(obj->_id);
if (id >= 0) {
_items2[id]->_obj = obj;
} else {
MctlAni *item = new MctlAni;
if (fillData(obj, item)) {
_items2.push_back(item);
} else {
delete item;
}
}
}
void MctlGraph::generateList(MctlMQ *movinfo, Common::Array<MovGraphLink *> *linkList, LinkInfo *lnkSrc, LinkInfo *lnkDst) {
debugC(4, kDebugPathfinding, "MctlGraph::generateList(...)");
MctlMQSub *elem;
Common::Point point;
Common::Rect rect;
int subIndex = movinfo->subIndex;
movinfo->items.clear();
elem = new MctlMQSub;
elem->subIndex = subIndex;
elem->x = movinfo->pt1.x;
elem->y = movinfo->pt1.y;
elem->distance = -1;
movinfo->items.push_back(elem);
int prevSubIndex = movinfo->subIndex;
for (uint i = 0; i < linkList->size(); i++) {
int idx1;
if (linkList->size() <= 1) {
if (linkList->size() == 1)
idx1 = getDirBySize((*linkList)[0], movinfo->pt2.x - movinfo->pt1.x, movinfo->pt2.y - movinfo->pt1.y);
else
idx1 = getDirBySize(0, movinfo->pt2.x - movinfo->pt1.x, movinfo->pt2.y - movinfo->pt1.y);
point.y = -1;
rect.bottom = -1;
rect.right = -1;
rect.top = -1;
rect.left = -1;
} else {
idx1 = getLinkDir(linkList, i, &rect, &point);
}
if (idx1 != prevSubIndex) {
prevSubIndex = idx1;
subIndex = idx1;
elem = new MctlMQSub;
elem->subIndex = subIndex;
elem->x = rect.left;
elem->y = rect.top;
elem->distance = -1;
movinfo->items.push_back(elem);
}
if (i != linkList->size() - 1) {
while (1) {
i++;
if (getLinkDir(linkList, i, &rect, 0) != prevSubIndex) {
i--;
getLinkDir(linkList, i, &rect, &point);
break;
}
if (i == linkList->size() - 1)
break;
}
}
if (movinfo->items.back()->subIndex != 10) {
subIndex = prevSubIndex;
elem = new MctlMQSub;
elem->subIndex = 10;
elem->x = -1;
elem->y = -1;
elem->distance = -1;
movinfo->items.push_back(elem);
if (i == linkList->size() - 1) {
elem = new MctlMQSub;
elem->subIndex = prevSubIndex;
elem->x = movinfo->pt2.x;
elem->y = movinfo->pt2.y;
elem->distance = movinfo->distance2;
movinfo->items.push_back(elem);
} else {
elem = new MctlMQSub;
elem->subIndex = prevSubIndex;
elem->x = rect.right;
elem->y = rect.bottom;
elem->distance = point.y;
movinfo->items.push_back(elem);
}
}
}
if (subIndex != movinfo->item1Index) {
elem = new MctlMQSub;
elem->subIndex = movinfo->item1Index;
elem->x = movinfo->pt2.x;
elem->y = movinfo->pt2.y;
elem->distance = movinfo->distance2;
movinfo->items.push_back(elem);
}
movinfo->itemsCount = movinfo->items.size();
}
MessageQueue *MctlGraph::makeWholeQueue(MctlMQ *mctlMQ) {
debugC(4, kDebugPathfinding, "MctlGraph::makeWholeQueue(...)");
MctlMQ movinfo(mctlMQ);
int curX = mctlMQ->pt1.x;
int curY = mctlMQ->pt1.y;
int curDistance = mctlMQ->distance1;
MessageQueue *mq = new MessageQueue(g_fp->_globalMessageQueueList->compact());
for (int i = 0; i < mctlMQ->itemsCount - 1; i++) {
if (mctlMQ->items[i + 1]->subIndex != 10) {
MG2I *mg2i;
if (i >= mctlMQ->itemsCount - 2 || mctlMQ->items[i + 2]->subIndex != 10) {
movinfo.flags = 0;
mg2i = &_items2[mctlMQ->index]->_subItems[mctlMQ->items[i]->subIndex]._turnS[mctlMQ->items[i + 1]->subIndex];
} else {
movinfo.flags = 2;
mg2i = &_items2[mctlMQ->index]->_subItems[mctlMQ->items[i]->subIndex]._turn[mctlMQ->items[i + 1]->subIndex];
}
if (i < mctlMQ->itemsCount - 2
|| (mctlMQ->items[i]->x == mctlMQ->items[i + 1]->x
&& mctlMQ->items[i]->y == mctlMQ->items[i + 1]->y)
|| mctlMQ->items[i]->x == -1
|| mctlMQ->items[i]->y == -1
|| mctlMQ->items[i + 1]->x == -1
|| mctlMQ->items[i + 1]->y == -1) {
ExCommand *ex = new ExCommand(_items2[mctlMQ->index]->_objectId, 1, mg2i->_movementId, 0, 0, 0, 1, 0, 0, 0);
ex->_excFlags |= 2;
ex->_param = _items2[mctlMQ->index]->_obj->_odelay;
ex->_field_24 = 1;
ex->_field_14 = -1;
mq->addExCommandToEnd(ex);
curX += mg2i->_mx;
curY += mg2i->_my;
} else {
MakeQueueStruct mkQueue;
memset(&mkQueue, 0, sizeof(mkQueue));
mkQueue.ani = _items2[mctlMQ->index]->_obj;
mkQueue.staticsId2 = mg2i->_mov->_staticsObj2->_staticsId;
mkQueue.x1 = mctlMQ->items[i + 1]->x;
mkQueue.y1 = mctlMQ->items[i + 1]->y;
mkQueue.field_1C = mctlMQ->items[i + 1]->distance;
mkQueue.staticsId1 = mg2i->_mov->_staticsObj1->_staticsId;
mkQueue.x2 = mctlMQ->items[i]->x;
mkQueue.y2 = mctlMQ->items[i]->y;
mkQueue.field_10 = 1;
mkQueue.flags = 0x7f;
mkQueue.movementId = mg2i->_movementId;
MessageQueue *mq2 = _aniHandler.makeRunQueue(&mkQueue);
mq->mergeQueue(mq2);
delete mq2;
curX = mctlMQ->items[i + 1]->x;
curY = mctlMQ->items[i + 1]->y;
}
} else {
movinfo.item1Index = mctlMQ->items[i]->subIndex;
movinfo.subIndex = movinfo.item1Index;
movinfo.pt1.y = curY;
movinfo.pt1.x = curX;
movinfo.distance1 = curDistance;
movinfo.pt2.x = mctlMQ->items[i + 2]->x;
movinfo.pt2.y = mctlMQ->items[i + 2]->y;
movinfo.distance2 = mctlMQ->items[i + 2]->distance;
if (i < mctlMQ->itemsCount - 4
&& mctlMQ->items[i + 2]->subIndex != 10
&& mctlMQ->items[i + 3]->subIndex != 10
&& mctlMQ->items[i + 2]->subIndex != mctlMQ->items[i + 3]->subIndex
&& mctlMQ->items[i + 4]->subIndex == 10) {
MG2I *m = &_items2[mctlMQ->index]->_subItems[mctlMQ->items[i + 2]->subIndex]._turn[mctlMQ->items[i + 3]->subIndex];
if (movinfo.item1Index && movinfo.item1Index != 1) {
movinfo.pt2.y -= m->_my;
movinfo.flags = (movinfo.flags & 2) | 1;
} else {
movinfo.pt2.x -= m->_mx;
movinfo.flags = (movinfo.flags & 2) | 1;
}
} else if (i < mctlMQ->itemsCount - 3
&& mctlMQ->items[i + 2]->subIndex != 10
&& mctlMQ->items[i + 3]->subIndex != 10
&& mctlMQ->items[i + 2]->subIndex != mctlMQ->items[i + 3]->subIndex) {
MG2I *m = &_items2[mctlMQ->index]->_subItems[mctlMQ->items[i + 2]->subIndex]._turnS[mctlMQ->items[i + 3]->subIndex];
movinfo.pt2.x -= m->_mx;
movinfo.pt2.y -= m->_my;
movinfo.flags = (movinfo.flags & 2) | (mctlMQ->flags & 1);
} else {
movinfo.flags = (movinfo.flags & 2) | (mctlMQ->flags & 1);
}
i++; // intentional
MessageQueue *mq2 = makeLineQueue(&movinfo);
if (!mq2) {
delete mq;
return 0;
}
mq->mergeQueue(mq2);
delete mq2;
curX = movinfo.pt2.x;
curY = movinfo.pt2.y;
curDistance = movinfo.distance2;
}
}
mctlMQ->pt2.x = movinfo.pt2.x;
mctlMQ->pt2.y = movinfo.pt2.y;
return mq;
}
int MctlGraph::detachObject(StaticANIObject *obj) {
warning("STUB: MctlGraph::detachObject()");
return 0;
}
void MctlGraph::detachAllObjects() {
debugC(4, kDebugPathfinding, "MctlGraph::detachAllObjects()");
for (uint i = 0; i < _items2.size(); i++)
delete _items2[i];
_items2.clear();
}
MessageQueue *MctlGraph::startMove(StaticANIObject *ani, int xpos, int ypos, int fuzzyMatch, int staticsId) {
debugC(4, kDebugPathfinding, "MctlGraph::startMove(*%d, %d, %d, %d, %d)", ani->_id, xpos, ypos, fuzzyMatch, staticsId);
if (!ani->isIdle())
return 0;
if (ani->_flags & 0x100)
return 0;
debugC(1, kDebugPathfinding, "WWW 3");
MessageQueue *mq = makeQueue(ani, xpos, ypos, fuzzyMatch, staticsId);
if (!mq)
return 0;
if (ani->_movement) {
if (mq->getCount() <= 1 || mq->getExCommandByIndex(0)->_messageKind != 22) {
PicAniInfo picAniInfo;
ani->getPicAniInfo(&picAniInfo);
ani->updateStepPos();
MessageQueue *mq1 = makeQueue(ani, xpos, ypos, fuzzyMatch, staticsId);
ani->setPicAniInfo(&picAniInfo);
if (mq1) {
delete mq;
mq = mq1;
}
} else {
ani->_movement = 0;
}
}
if (!mq->chain(ani)) {
delete mq;
return 0;
}
return mq;
}
MessageQueue *MctlGraph::makeQueue(StaticANIObject *obj, int xpos, int ypos, int fuzzyMatch, int staticsId) {
LinkInfo linkInfoDest;
LinkInfo linkInfoSource;
MctlMQ mctlMQ1;
PicAniInfo picAniInfo;
Common::Point point;
debugC(1, kDebugPathfinding, "MctlGraph::makeQueue(%d, %d, %d, %d, %d)", obj->_id, xpos, ypos, fuzzyMatch, staticsId);
int idx = getObjIndex(obj->_id);
if (idx < 0)
return 0;
linkInfoSource.link = 0;
linkInfoSource.node = 0;
linkInfoDest.link = 0;
linkInfoDest.node = 0;
point.x = 0;
obj->getPicAniInfo(&picAniInfo);
int idxsub;
if (obj->_movement)
idxsub = getDirByMovement(idx, obj->_movement->_id);
else
idxsub = getDirByStatics(idx, obj->_statics->_staticsId);
bool subMgm = false;
if (idxsub == -1) {
debugC(1, kDebugPathfinding, "WWW 4");
idxsub = getDirByPoint(idx, obj);
subMgm = true;
if (idxsub == -1)
return 0;
}
if (obj->_movement) {
int newx, newy;
if (subMgm) {
obj->_messageQueueId = 0;
obj->changeStatics2(_items2[idx]->_subItems[idxsub]._staticsId1);
newx = obj->_ox;
newy = obj->_oy;
} else {
obj->_movement->calcSomeXY(point, 0, picAniInfo.dynamicPhaseIndex);
newx = obj->_movement->_ox - point.x;
newy = obj->_movement->_oy - point.y;
if (idxsub != 1 && idxsub) {
if (idxsub == 2 || idxsub == 3) {
newy = obj->_movement->_oy;
}
} else {
newx = obj->_movement->_ox;
}
}
obj->_movement = 0;
obj->setOXY(newx, newy);
}
if (obj->_ox == xpos && obj->_oy == ypos) {
MessageQueue *mq = new MessageQueue(g_fp->_globalMessageQueueList->compact());
if (staticsId && obj->_statics->_staticsId != staticsId) {
int idxwalk = getDirByStatics(idx, staticsId);
if (idxwalk == -1) {
obj->setPicAniInfo(&picAniInfo);
delete mq;
return 0;
}
ExCommand *ex = new ExCommand(picAniInfo.objectId, 1, _items2[idx]->_subItems[idxsub]._turnS[idxwalk]._movementId, 0, 0, 0, 1, 0, 0, 0);
ex->_field_24 = 1;
ex->_param = picAniInfo.field_8;
ex->_excFlags |= 2;
mq->addExCommandToEnd(ex);
} else {
ExCommand *ex = new ExCommand(picAniInfo.objectId, 22, obj->_statics->_staticsId, 0, 0, 0, 1, 0, 0, 0);
ex->_param = picAniInfo.field_8;
ex->_excFlags |= 3;
mq->addExCommandToEnd(ex);
ex = new ExCommand(picAniInfo.objectId, 5, -1, obj->_ox, obj->_oy, 0, 1, 0, 0, 0);
ex->_field_14 = -1;
ex->_param = picAniInfo.field_8;
ex->_excFlags |= 3;
mq->addExCommandToEnd(ex);
}
obj->setPicAniInfo(&picAniInfo);
return mq;
}
linkInfoSource.node = getHitNode(obj->_ox, obj->_oy, 0);
if (!linkInfoSource.node) {
linkInfoSource.link = getHitLink(obj->_ox, obj->_oy, idxsub, 0);
if (!linkInfoSource.link) {
linkInfoSource.link = getNearestLink(obj->_ox, obj->_oy);
if (!linkInfoSource.link) {
obj->setPicAniInfo(&picAniInfo);
return 0;
}
}
}
linkInfoDest.node = getHitNode(xpos, ypos, fuzzyMatch);
if (!linkInfoDest.node) {
linkInfoDest.link = getHitLink(xpos, ypos, idxsub, fuzzyMatch);
if (!linkInfoDest.link) {
obj->setPicAniInfo(&picAniInfo);
return 0;
}
}
Common::Array<MovGraphLink *> tempLinkList;
double minPath = iterate(&linkInfoSource, &linkInfoDest, &tempLinkList);
debugC(0, kDebugPathfinding, "MctlGraph::makeQueue(): path: %g parts: %d", minPath, tempLinkList.size());
if (minPath < 0.0 || ((linkInfoSource.node != linkInfoDest.node || !linkInfoSource.node) && !tempLinkList.size()))
return 0;
mctlMQ1.clear();
mctlMQ1.subIndex = idxsub;
mctlMQ1.pt1.x = obj->_ox;
mctlMQ1.pt1.y = obj->_oy;
int dx1 = obj->_ox;
int dy1 = obj->_oy;
int dx2, dy2;
if (linkInfoSource.node)
mctlMQ1.distance1 = linkInfoSource.node->_z;
else
mctlMQ1.distance1 = linkInfoSource.link->_graphSrc->_z;
if (linkInfoDest.node) {
dx2 = linkInfoDest.node->_x;
dy2 = linkInfoDest.node->_y;
mctlMQ1.pt2.x = linkInfoDest.node->_x;
mctlMQ1.pt2.y = linkInfoDest.node->_y;
mctlMQ1.distance2 = linkInfoDest.node->_z;
} else {
mctlMQ1.pt2.x = xpos;
mctlMQ1.pt2.y = ypos;
MovGraphNode *nod = linkInfoDest.link->_graphSrc;
double dst1 = sqrt((double)((ypos - nod->_y) * (ypos - nod->_y) + (xpos - nod->_x) * (xpos - nod->_x)));
int dst = linkInfoDest.link->_graphDst->_z - nod->_z;
mctlMQ1.distance2 = nod->_z + (int)(dst1 * (double)dst / linkInfoDest.link->_length);
putToLink(&mctlMQ1.pt2, linkInfoDest.link, 1);
dx1 = mctlMQ1.pt1.x;
dy1 = mctlMQ1.pt1.y;
dx2 = mctlMQ1.pt2.x;
dy2 = mctlMQ1.pt2.y;
}
if (staticsId) {
mctlMQ1.item1Index = getDirByStatics(idx, staticsId);
} else if (tempLinkList.size() <= 1) {
if (tempLinkList.size() == 1)
mctlMQ1.item1Index = getDirBySize(tempLinkList[0], dx2 - dx1, dy2 - dy1);
else
mctlMQ1.item1Index = getDirBySize(0, dx2 - dx1, dy2 - dy1);
} else {
mctlMQ1.item1Index = getLinkDir(&tempLinkList, tempLinkList.size() - 1, 0, 0);
}
mctlMQ1.flags = fuzzyMatch != 0;
if (_items2[idx]->_subItems[idxsub]._staticsId1 != obj->_statics->_staticsId)
mctlMQ1.flags |= 2;
generateList(&mctlMQ1, &tempLinkList, &linkInfoSource, &linkInfoDest);
MessageQueue *mq = makeWholeQueue(&mctlMQ1);
linkInfoDest.node = getHitNode(mctlMQ1.pt2.x, mctlMQ1.pt2.y, fuzzyMatch);
if (!linkInfoDest.node)
linkInfoDest.link = getHitLink(mctlMQ1.pt2.x, mctlMQ1.pt2.y, mctlMQ1.item1Index, fuzzyMatch);
if (fuzzyMatch || linkInfoDest.link || linkInfoDest.node) {
if (mq && mq->getCount() > 0 && picAniInfo.movementId) {
ExCommand *ex = mq->getExCommandByIndex(0);
if (ex && (ex->_messageKind == 1 || ex->_messageKind == 20)
&& picAniInfo.movementId == ex->_messageNum
&& picAniInfo.someDynamicPhaseIndex == ex->_field_14) {
mq->deleteExCommandByIndex(0, 1);
} else {
ex = new ExCommand(picAniInfo.objectId, 5, ex->_messageNum, obj->_ox, obj->_oy, 0, 1, 0, 0, 0);
ex->_field_14 = -1;
ex->_param = picAniInfo.field_8;
ex->_excFlags |= 2;
mq->addExCommand(ex);
ex = new ExCommand(picAniInfo.objectId, 22, _items2[idx]->_subItems[idxsub]._staticsId1, 0, 0, 0, 1, 0, 0, 0);
ex->_param = picAniInfo.field_8;
ex->_excFlags |= 3;
mq->addExCommand(ex);
}
}
} else {
if (mq)
delete mq;
mq = 0;
}
obj->setPicAniInfo(&picAniInfo);
return mq;
}
MovGraphNode *MctlGraph::getHitNode(int x, int y, int strictMatch) {
for (ObList::iterator i = _nodes.begin(); i != _nodes.end(); ++i) {
assert(((CObject *)*i)->_objtype == kObjTypeMovGraphNode);
MovGraphNode *node = (MovGraphNode *)*i;
if (!strictMatch) {
if (abs(node->_x - x) < 15 && abs(node->_y - y) < 15)
return node;
} else {
if (node->_x == x && node->_y == y)
return node;
}
}
return 0;
}
int MctlGraph::getDirBySize(MovGraphLink *lnk, int x, int y) {
bool cond;
if (lnk)
cond = abs(lnk->_graphDst->_x - lnk->_graphSrc->_x) > abs(lnk->_graphDst->_y - lnk->_graphSrc->_y);
else
cond = abs(x) > abs(y);
if (cond)
return x <= 0;
else
return ((y > 0) + 2);
}
int MctlGraph::getLinkDir(Common::Array<MovGraphLink *> *linkList, int idx, Common::Rect *rect, Common::Point *point) {
debugC(4, kDebugPathfinding, "MctlGraph::getLinkDir(...)");
MovGraphNode *node1 = (*linkList)[idx]->_graphSrc;
MovGraphNode *node2 = (*linkList)[idx]->_graphDst;
MovGraphNode *node3 = node1;
if (idx != 0) {
MovGraphLink *lnk = (*linkList)[idx - 1];
if (lnk->_graphDst != node1) {
if (lnk->_graphSrc != node1) {
if (lnk->_graphDst == node2 || lnk->_graphSrc == node2) {
node3 = node2;
node2 = node1;
}
goto LABEL_7;
}
}
node3 = node1;
} else if (idx != (int)(linkList->size() - 1)) {
MovGraphLink *lnk = (*linkList)[idx + 1];
if (lnk->_graphDst == node1 || lnk->_graphSrc == node1) {
node3 = node2;
node2 = node1;
} else if (lnk->_graphDst == node2 || lnk->_graphSrc == node2) {
node3 = node1;
}
}
LABEL_7:
if (rect) {
rect->left = node3->_x;
rect->top = node3->_y;
rect->right = node2->_x;
rect->bottom = node2->_y;
}
if (point) {
point->x = node3->_z;
point->y = node2->_z;
}
if (abs(node3->_x - node2->_x) <= abs(node3->_y - node2->_y))
return (node3->_y < node2->_y) + 2;
else
return node3->_x >= node2->_x;
}
MessageQueue *MctlGraph::makeLineQueue(MctlMQ *info) {
debugC(4, kDebugPathfinding, "MctlGraph::makeLineQueue(...)");
int mx1 = 0;
int my1 = 0;
if (!(info->flags & 2)) {
mx1 = _items2[info->index]->_subItems[info->subIndex]._walk[0]._mx;
my1 = _items2[info->index]->_subItems[info->subIndex]._walk[0]._my;
}
int mx2 = 0;
int my2 = 0;
if (!(info->flags & 4)) {
mx2 = _items2[info->index]->_subItems[info->subIndex]._walk[2]._mx;
my2 = _items2[info->index]->_subItems[info->subIndex]._walk[2]._my;
}
Common::Point point;
int y = info->pt2.y - info->pt1.y - my2 - my1;
int x = info->pt2.x - info->pt1.x - mx2 - mx1;
int a2 = 0;
int mgmLen;
_aniHandler.getNumCycles(&point, _items2[info->index]->_subItems[info->subIndex]._walk[1]._mov, x, y, &mgmLen, &a2, info->flags & 1);
int x1 = point.x;
int y1 = point.y;
if (!(info->flags & 1)) {
if (info->subIndex == 1 || info->subIndex == 0) {
a2 = -1;
x1 = mgmLen * _items2[info->index]->_subItems[info->subIndex]._walk[1]._mx;
x = x1;
info->pt2.x = x1 + info->pt1.x + mx1 + mx2;
}
}
if (!(info->flags & 1)) {
if (info->subIndex == 2 || info->subIndex == 3) {
a2 = -1;
y1 = mgmLen * _items2[info->index]->_subItems[info->subIndex]._walk[1]._my;
y = y1;
info->pt2.y = y1 + info->pt1.y + my1 + my2;
}
}
int cntX = 0;
int cntY = 0;
if (!(info->flags & 2)) {
cntX = _items2[info->index]->_subItems[info->subIndex]._walk[0]._mov->countPhasesWithFlag(-1, 1);
cntY = _items2[info->index]->_subItems[info->subIndex]._walk[0]._mov->countPhasesWithFlag(-1, 2);
}
if (mgmLen > 1) {
cntX += (mgmLen - 1) * _items2[info->index]->_subItems[info->subIndex]._walk[1]._mov->countPhasesWithFlag(-1, 1);
cntY += (mgmLen - 1) * _items2[info->index]->_subItems[info->subIndex]._walk[1]._mov->countPhasesWithFlag(-1, 2);
}
if (mgmLen > 0) {
cntX += _items2[info->index]->_subItems[info->subIndex]._walk[1]._mov->countPhasesWithFlag(a2, 1);
cntY += _items2[info->index]->_subItems[info->subIndex]._walk[1]._mov->countPhasesWithFlag(a2, 2);
}
if (!(info->flags & 4)) {
cntX += _items2[info->index]->_subItems[info->subIndex]._walk[2]._mov->countPhasesWithFlag(-1, 1);
cntY += _items2[info->index]->_subItems[info->subIndex]._walk[2]._mov->countPhasesWithFlag(-1, 2);
}
int dx1 = x - x1;
int dy1 = y - y1;
if (cntX)
x1 = (int)((double)dx1 / (double)cntX);
else
x1 = 0;
if (cntY)
y1 = (int)((double)dy1 / (double)cntY);
else
y1 = 0;
int v34 = dx1 - cntX * x1;
int v35 = dy1 - cntY * y1;
Common::Point x2;
Common::Point y2(v34, v35);
if (v34)
x2.x = v34 / abs(v34);
else
x2.x = 0;
if (v35)
x2.y = v35 / abs(v35);
else
x2.y = 0;
MessageQueue *mq = new MessageQueue(g_fp->_globalMessageQueueList->compact());
ExCommand *ex;
if (info->flags & 2) {
ex = new ExCommand(
_items2[info->index]->_objectId,
5,
_items2[info->index]->_subItems[info->subIndex]._walk[1]._movementId,
info->pt1.x,
info->pt1.y,
0,
1,
0,
0,
0);
ex->_field_14 = info->distance1;
ex->_param = _items2[info->index]->_obj->_odelay;
ex->_field_24 = 1;
ex->_excFlags |= 2;
} else {
ex = new ExCommand(
_items2[info->index]->_objectId,
5,
_items2[info->index]->_subItems[info->subIndex]._walk[0]._movementId,
info->pt1.x,
info->pt1.y,
0,
1,
0,
0,
0);
ex->_field_14 = info->distance1;
ex->_param = _items2[info->index]->_obj->_odelay;
ex->_field_24 = 1;
ex->_excFlags |= 2;
mq->addExCommandToEnd(ex);
ex = _aniHandler.createCommand(
_items2[info->index]->_subItems[info->subIndex]._walk[0]._mov,
_items2[info->index]->_objectId,
x1,
y1,
&x2,
&y2,
-1);
ex->_parId = mq->_id;
ex->_param = _items2[info->index]->_obj->_odelay;
}
mq->addExCommandToEnd(ex);
for (int i = 0; i < mgmLen; ++i) {
int par;
if (i == mgmLen - 1)
par = a2;
else
par = -1;
ex = _aniHandler.createCommand(
_items2[info->index]->_subItems[info->subIndex]._walk[1]._mov,
_items2[info->index]->_objectId,
x1,
y1,
&x2,
&y2,
par);
ex->_parId = mq->_id;
ex->_param = _items2[info->index]->_obj->_odelay;
mq->addExCommandToEnd(ex);
}
if (!(info->flags & 4)) {
ex = _aniHandler.createCommand(
_items2[info->index]->_subItems[info->subIndex]._walk[2]._mov,
_items2[info->index]->_objectId,
x1,
y1,
&x2,
&y2,
-1);
ex->_parId = mq->_id;
ex->_param = _items2[info->index]->_obj->_odelay;
mq->addExCommandToEnd(ex);
}
ex = new ExCommand(_items2[info->index]->_objectId, 5, -1, info->pt2.x, info->pt2.y, 0, 1, 0, 0, 0);
ex->_field_14 = info->distance2;
ex->_param = _items2[info->index]->_obj->_odelay;
ex->_field_24 = 0;
ex->_excFlags |= 2;
mq->addExCommandToEnd(ex);
return mq;
}
MovGraphLink *MctlGraph::getHitLink(int x, int y, int idx, int fuzzyMatch) {
debugC(4, kDebugPathfinding, "MctlGraph::getHitLink(...)");
Common::Point point;
MovGraphLink *res = 0;
for (ObList::iterator i = _links.begin(); i != _links.end(); ++i) {
assert(((CObject *)*i)->_objtype == kObjTypeMovGraphLink);
MovGraphLink *lnk = (MovGraphLink *)*i;
if (fuzzyMatch) {
point.x = x;
point.y = y;
double dst = putToLink(&point, lnk, 0);
if (dst >= 0.0 && dst < 2.0)
return lnk;
} else if (!(lnk->_flags & 0x20000000)) {
if (lnk->_movGraphReact->pointInRegion(x, y)) {
if (abs(lnk->_graphSrc->_x - lnk->_graphDst->_x) <= abs(lnk->_graphSrc->_y - lnk->_graphDst->_y)) {
if (idx == 2 || idx == 3)
return lnk;
res = lnk;
} else {
if (idx == 1 || !idx)
return lnk;
res = lnk;
}
}
}
}
return res;
}
MovGraphLink *MctlGraph::getNearestLink(int x, int y) {
debugC(4, kDebugPathfinding, "MctlGraph::getNearestLink(...)");
double mindist = 1.0e20;
MovGraphLink *res = 0;
for (ObList::iterator i = _links.begin(); i != _links.end(); ++i) {
assert(((CObject *)*i)->_objtype == kObjTypeMovGraphLink);
MovGraphLink *lnk = (MovGraphLink *)*i;
if (!(lnk->_flags & 0x20000000)) {
double n1x = lnk->_graphSrc->_x;
double n1y = lnk->_graphSrc->_y;
double n2x = lnk->_graphDst->_x;
double n2y = lnk->_graphDst->_y;
double n1dx = n1x - x;
double n1dy = n1y - y;
double dst1 = sqrt(n1dy * n1dy + n1dx * n1dx);
double coeff1 = ((n1y - n2y) * n1dy + (n2x - n1x) * n1dx) / lnk->_length / dst1;
double dst3 = coeff1 * dst1;
double dst2 = sqrt(1.0 - coeff1 * coeff1) * dst1;
if (coeff1 * dst1 < 0.0) {
dst3 = 0.0;
dst2 = sqrt(n1dy * n1dy + n1dx * n1dx);
}
if (dst3 > lnk->_length) {
dst3 = lnk->_length;
dst2 = sqrt((n2x - x) * (n2x - x) + (n2y - y) * (n2y - y));
}
if (dst3 >= 0.0 && dst3 <= lnk->_length && dst2 < mindist) {
mindist = dst2;
res = lnk;
}
}
}
if (mindist < 1.0e20)
return res;
else
return 0;
}
double MctlGraph::iterate(LinkInfo *linkInfoSource, LinkInfo *linkInfoDest, Common::Array<MovGraphLink *> *listObj) {
debugC(4, kDebugPathfinding, "MctlGraph::iterate(...)");
LinkInfo linkInfoWorkSource;
if (linkInfoSource->link != linkInfoDest->link || linkInfoSource->node != linkInfoDest->node) {
double minDistance = -1.0;
if (linkInfoSource->node) {
for (ObList::iterator i = _links.begin(); i != _links.end(); ++i) {
MovGraphLink *lnk = (MovGraphLink *)*i;
if ((lnk->_graphSrc == linkInfoSource->node || lnk->_graphDst == linkInfoSource->node) && !(lnk->_flags & 0xA0000000)) {
linkInfoWorkSource.node = 0;
linkInfoWorkSource.link = lnk;
Common::Array<MovGraphLink *> tmpList;
lnk->_flags |= 0x80000000;
double newDistance = iterate(&linkInfoWorkSource, linkInfoDest, &tmpList);
if (newDistance >= 0.0 && (minDistance < 0.0 || newDistance + lnk->_length < minDistance)) {
listObj->clear();
listObj->push_back(tmpList);
minDistance = newDistance + lnk->_length;
}
lnk->_flags &= 0x7FFFFFFF;
}
}
} else if (linkInfoSource->link) {
linkInfoWorkSource.node = linkInfoSource->link->_graphSrc;
linkInfoWorkSource.link = 0;
Common::Array<MovGraphLink *> tmpList;
double newDistance = iterate(&linkInfoWorkSource, linkInfoDest, &tmpList);
if (newDistance >= 0.0) {
listObj->clear();
listObj->push_back(linkInfoSource->link);
listObj->push_back(tmpList);
minDistance = newDistance;
}
linkInfoWorkSource.link = 0;
linkInfoWorkSource.node = linkInfoSource->link->_graphDst;
tmpList.clear();
newDistance = iterate(&linkInfoWorkSource, linkInfoDest, &tmpList);
if (newDistance >= 0 && (minDistance < 0.0 || newDistance < minDistance)) {
listObj->clear();
listObj->push_back(linkInfoSource->link);
listObj->push_back(tmpList);
minDistance = newDistance;
}
}
return minDistance;
} else {
if (linkInfoSource->link)
listObj->push_back(linkInfoSource->link);
return 0.0;
}
}
MovGraphNode *MovGraph::calcOffset(int ox, int oy) {
MovGraphNode *res = 0;
double mindist = 1.0e10;
for (ObList::iterator i = _nodes.begin(); i != _nodes.end(); ++i) {
assert(((CObject *)*i)->_objtype == kObjTypeMovGraphNode);
MovGraphNode *node = (MovGraphNode *)*i;
double dist = sqrt((double)((node->_x - oy) * (node->_x - oy) + (node->_x - ox) * (node->_x - ox)));
if (dist < mindist) {
mindist = dist;
res = node;
}
}
return res;
}
MovGraphLink::MovGraphLink() {
_length = 0;
_angle = 0;
_flags = 0x10000000;
_graphDst = 0;
_graphSrc = 0;
_field_3C = 0;
_field_38 = 0;
_movGraphReact = 0;
_name = 0;
_objtype = kObjTypeMovGraphLink;
}
MovGraphLink::~MovGraphLink() {
delete _movGraphReact;
_dwordArray1.clear();
_dwordArray2.clear();
}
bool MovGraphLink::load(MfcArchive &file) {
debugC(5, kDebugLoading, "MovGraphLink::load()");
_dwordArray1.load(file);
_dwordArray2.load(file);
_flags = file.readUint32LE();
debugC(8, kDebugLoading, "GraphNode1");
_graphSrc = (MovGraphNode *)file.readClass();
debugC(8, kDebugLoading, "GraphNode2");
_graphDst = (MovGraphNode *)file.readClass();
_length = file.readDouble();
_angle = file.readDouble();
debugC(8, kDebugLoading, "length: %g, angle: %g", _length, _angle);
_movGraphReact = (MovGraphReact *)file.readClass();
_name = file.readPascalString();
return true;
}
void MovGraphLink::recalcLength() {
if (_graphSrc) {
double dx = _graphDst->_x - _graphSrc->_x;
double dy = _graphDst->_y - _graphSrc->_y;
_length = sqrt(dy * dy + dx * dx);
_angle = atan2(dy, dx);
}
}
bool MovGraphNode::load(MfcArchive &file) {
debugC(5, kDebugLoading, "MovGraphNode::load()");
_field_14 = file.readUint32LE();
_x = file.readSint32LE();
_y = file.readSint32LE();
_z = file.readSint32LE();
return true;
}
ReactParallel::ReactParallel() {
_x1 = 0;
_x2 = 0;
_dy = 0;
_dx = 0;
_y1 = 0;
_y2 = 0;
}
bool ReactParallel::load(MfcArchive &file) {
debugC(5, kDebugLoading, "ReactParallel::load()");
_x1 = file.readSint32LE();
_y1 = file.readSint32LE();
_x2 = file.readSint32LE();
_y2 = file.readSint32LE();
_dx = file.readSint32LE();
_dy = file.readSint32LE();
createRegion();
return true;
}
void ReactParallel::createRegion() {
_points = (Common::Point **)malloc(sizeof(Common::Point *) * 4);
for (int i = 0; i < 4; i++)
_points[i] = new Common::Point;
double at = atan2((double)(_y1 - _y2), (double)(_x1 - _x2)) + 1.570796; // pi/2
double sn = sin(at);
double cs = cos(at);
_points[0]->x = (int16)(_x1 - _dx * cs);
_points[0]->y = (int16)(_y1 - _dx * sn);
_points[1]->x = (int16)(_x2 - _dx * cs);
_points[1]->y = (int16)(_y2 - _dx * sn);
_points[2]->x = (int16)(_x2 + _dy * cs);
_points[2]->y = (int16)(_y2 + _dy * sn);
_points[3]->x = (int16)(_x1 + _dy * cs);
_points[3]->y = (int16)(_y1 + _dy * sn);
_pointCount = 4;
// GdiObject::Attach(_rgn, CreatePolygonRgn(_points, 4, 2);
}
void ReactParallel::setCenter(int x1, int y1, int x2, int y2) {
_x1 = x1;
_y1 = y1;
_x2 = x2;
_y2 = y2;
}
ReactPolygonal::ReactPolygonal() {
_centerX = 0;
_centerY = 0;
_bbox = 0;
}
ReactPolygonal::~ReactPolygonal() {
delete _bbox;
}
bool ReactPolygonal::load(MfcArchive &file) {
debugC(5, kDebugLoading, "ReactPolygonal::load()");
_centerX = file.readSint32LE();
_centerY = file.readSint32LE();
_pointCount = file.readUint32LE();
if (_pointCount > 0) {
_points = (Common::Point **)malloc(sizeof(Common::Point *) * _pointCount);
for (int i = 0; i < _pointCount; i++) {
_points[i] = new Common::Point;
_points[i]->x = file.readUint32LE();
_points[i]->y = file.readUint32LE();
}
}
createRegion();
return true;
}
void ReactPolygonal::createRegion() {
if (_points) {
// GdiObject::Attach(_rgn, CreatePolygonRgn(_points, _pointCount, 2);
}
}
void ReactPolygonal::setCenter(int x1, int y1, int x2, int y2) {
int cX = (x2 + x1) / 2;
int cY = (y2 + y1) / 2;
if (_points) {
for (int i = 0; i < _pointCount; i++) {
_points[i]->x += cX - _centerX;
_points[i]->y += cY - _centerY;
}
}
_centerX = cX;
_centerY = cY;
}
void ReactPolygonal::getBBox(Common::Rect *rect) {
if (!_pointCount)
return;
if (_bbox) {
*rect = *_bbox;
return;
}
rect->left = _points[0]->x;
rect->top = _points[0]->y;
rect->right = _points[0]->x;
rect->bottom = _points[0]->y;
for (int i = 1; i < _pointCount; i++) {
if (rect->left > _points[i]->x)
rect->left = _points[i]->x;
if (rect->top > _points[i]->y)
rect->top = _points[i]->y;
if (rect->right < _points[i]->x)
rect->right = _points[i]->x;
if (rect->bottom < _points[i]->y)
rect->bottom = _points[i]->y;
}
_bbox = new Common::Rect;
*_bbox = *rect;
}
bool MovGraphReact::pointInRegion(int x, int y) {
if (_pointCount < 3) {
return false;
}
int counter = 0;
double xinters;
Common::Point p, p1, p2;
p.x = x;
p.y = y;
p1.x = _points[0]->x;
p1.y = _points[0]->y;
for (int i = 1; i <= _pointCount; i++) {
p2.x = _points[i % _pointCount]->x;
p2.y = _points[i % _pointCount]->y;
if (p.y > MIN(p1.y, p2.y)) {
if (p.y <= MAX(p1.y, p2.y)) {
if (p.x <= MAX(p1.x, p2.x)) {
if (p1.y != p2.y) {
xinters = (p.y - p1.y) * (p2.x - p1.x) / (p2.y - p1.y) + p1.x;
if (p1.x == p2.x || p.x <= xinters) {
counter++;
}
}
}
}
}
p1 = p2;
}
if (counter % 2 == 0) {
return false;
} else {
return true;
}
}
int startWalkTo(int objId, int objKey, int x, int y, int fuzzyMatch) {
MctlCompound *mc = getCurrSceneSc2MotionController();
if (mc)
return (mc->startMove(g_fp->_currentScene->getStaticANIObject1ById(objId, objKey), x, y, fuzzyMatch, 0) != 0);
return 0;
}
bool doSomeAnimation(int objId, int objKey, int a3) {
StaticANIObject *ani = g_fp->_currentScene->getStaticANIObject1ById(objId, objKey);
MctlCompound *cmp = getCurrSceneSc2MotionController();
if (ani && cmp)
return cmp->resetPosition(ani, a3);
return false;
}
bool doSomeAnimation2(int objId, int objKey) {
return doSomeAnimation(objId, objKey, 0);
}
} // End of namespace Fullpipe