/* ScummVM - Graphic Adventure Engine
*
* ScummVM is the legal property of its developers, whose names
* are too numerous to list here. Please refer to the COPYRIGHT
* file distributed with this source distribution.
*
* This program is free software; you can redistribute it and/or
* modify it under the terms of the GNU General Public License
* as published by the Free Software Foundation; either version 2
* of the License, or (at your option) any later version.
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software
* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.
*
* $URL$
* $Id$
*
*/
#include "parallaction/parallaction.h"
namespace Parallaction {
static uint16 _doorData1 = 1000;
static Zone *_zoneTrap = NULL;
static uint16 walkData1 = 0;
static uint16 walkData2 = 0; // next walk frame
inline byte PathBuffer::getValue(uint16 x, uint16 y) {
byte m = data[(x >> 3) + y * internalWidth];
uint n = (_vm->getPlatform() == Common::kPlatformPC) ? (x & 7) : (7 - (x & 7));
return ((1 << n) & m) >> n;
}
// adjusts position towards nearest walkable point
//
void PathBuilder::correctPathPoint(Common::Point &to) {
if (_vm->_pathBuffer->getValue(to.x, to.y)) return;
int16 right = to.x;
int16 left = to.x;
do {
right++;
} while ((_vm->_pathBuffer->getValue(right, to.y) == 0) && (right < _vm->_pathBuffer->w));
do {
left--;
} while ((_vm->_pathBuffer->getValue(left, to.y) == 0) && (left > 0));
right = (right == _vm->_pathBuffer->w) ? 1000 : right - to.x;
left = (left == 0) ? 1000 : to.x - left;
int16 top = to.y;
int16 bottom = to.y;
do {
top--;
} while ((_vm->_pathBuffer->getValue(to.x, top) == 0) && (top > 0));
do {
bottom++;
} while ((_vm->_pathBuffer->getValue(to.x, bottom) == 0) && (bottom < _vm->_pathBuffer->h));
top = (top == 0) ? 1000 : to.y - top;
bottom = (bottom == _vm->_pathBuffer->h) ? 1000 : bottom - to.y;
int16 closeX = (right >= left) ? left : right;
int16 closeY = (top >= bottom) ? bottom : top;
int16 close = (closeX >= closeY) ? closeY : closeX;
if (close == right) {
to.x += right;
} else
if (close == left) {
to.x -= left;
} else
if (close == top) {
to.y -= top;
} else
if (close == bottom) {
to.y += bottom;
}
return;
}
uint32 PathBuilder::buildSubPath(const Common::Point& pos, const Common::Point& stop) {
uint32 v28 = 0;
uint32 v2C = 0;
uint32 v34 = pos.sqrDist(stop); // square distance from current position and target
uint32 v30 = v34;
_subPath.clear();
Common::Point v20(pos);
while (true) {
WalkNodeList::iterator nearest = _vm->_location._walkNodes.end();
WalkNodeList::iterator locNode = _vm->_location._walkNodes.begin();
// scans location path nodes searching for the nearest Node
// which can't be farther than the target position
// otherwise no _closest_node is selected
while (locNode != _vm->_location._walkNodes.end()) {
Common::Point v8;
(*locNode)->getPoint(v8);
v2C = v8.sqrDist(stop);
v28 = v8.sqrDist(v20);
if (v2C < v34 && v28 < v30) {
v30 = v28;
nearest = locNode;
}
locNode++;
}
if (nearest == _vm->_location._walkNodes.end()) break;
(*nearest)->getPoint(v20);
v34 = v30 = v20.sqrDist(stop);
_subPath.push_back(new WalkNode(**nearest));
}
return v34;
}
#if 0
void printNodes(WalkNodeList *list, const char* text) {
printf("%s\n-------------------\n", text);
for (WalkNodeList::iterator it = list->begin(); it != list->end(); it++)
printf("node [%p] (%i, %i)\n", *it, (*it)->_x, (*it)->_y);
return;
}
#endif
//
// x, y: mouse click (foot) coordinates
//
WalkNodeList *PathBuilder::buildPath(uint16 x, uint16 y) {
debugC(1, kDebugWalk, "PathBuilder::buildPath to (%i, %i)", x, y);
Common::Point to(x, y);
correctPathPoint(to);
debugC(1, kDebugWalk, "found closest path point at (%i, %i)", to.x, to.y);
WalkNode *v48 = new WalkNode(to.x, to.y);
WalkNode *v44 = new WalkNode(*v48);
uint16 v38 = walkFunc1(to.x, to.y, v44);
if (v38 == 1) {
// destination directly reachable
debugC(1, kDebugWalk, "direct move to (%i, %i)", to.x, to.y);
delete v44;
_list = new WalkNodeList;
_list->push_back(v48);
return _list;
}
// path is obstructed: look for alternative
_list = new WalkNodeList;
_list->push_back(v48);
#if 0
printNodes(_list, "start");
#endif
Common::Point stop(v48->_x, v48->_y);
Common::Point pos;
_vm->_char.getFoot(pos);
uint32 v34 = buildSubPath(pos, stop);
if (v38 != 0 && v34 > v38) {
// no alternative path (gap?)
_list->clear();
_list->push_back(v44);
return _list;
}
_list->insert(_list->begin(), _subPath.begin(), _subPath.end());
#if 0
printNodes(_list, "first segment");
#endif
(*_list->begin())->getPoint(stop);
buildSubPath(pos, stop);
_list->insert(_list->begin(), _subPath.begin(), _subPath.end());
#if 0
printNodes(_list, "complete");
#endif
delete v44;
return _list;
}
//
// x,y : top left coordinates
//
// 0 : Point not reachable
// 1 : Point reachable in a straight line
// other values: square distance to target (point not reachable in a straight line)
//
uint16 PathBuilder::walkFunc1(int16 x, int16 y, WalkNode *Node) {
Common::Point arg(x, y);
Common::Point v4(0, 0);
Common::Point foot;
_vm->_char.getFoot(foot);
Common::Point v8(foot);
while (foot != arg) {
if (foot.x < x && _vm->_pathBuffer->getValue(foot.x + 1, foot.y) != 0) foot.x++;
if (foot.x > x && _vm->_pathBuffer->getValue(foot.x - 1, foot.y) != 0) foot.x--;
if (foot.y < y && _vm->_pathBuffer->getValue(foot.x, foot.y + 1) != 0) foot.y++;
if (foot.y > y && _vm->_pathBuffer->getValue(foot.x, foot.y - 1) != 0) foot.y--;
if (foot == v8 && foot != arg) {
// foot couldn't move and still away from target
v4 = foot;
while (foot != arg) {
if (foot.x < x && _vm->_pathBuffer->getValue(foot.x + 1, foot.y) == 0) foot.x++;
if (foot.x > x && _vm->_pathBuffer->getValue(foot.x - 1, foot.y) == 0) foot.x--;
if (foot.y < y && _vm->_pathBuffer->getValue(foot.x, foot.y + 1) == 0) foot.y++;
if (foot.y > y && _vm->_pathBuffer->getValue(foot.x, foot.y - 1) == 0) foot.y--;
if (foot == v8 && foot != arg)
return 0;
v8 = foot;
}
Node->_x = v4.x;
Node->_y = v4.y;
return (x - v4.x) * (x - v4.x) + (y - v4.y) * (y - v4.y);
}
v8 = foot;
}
// there exists an unobstructed path
return 1;
}
void Parallaction::clipMove(Common::Point& pos, const WalkNode* from) {
if ((pos.x < from->_x) && (pos.x < _pathBuffer->w) && (_pathBuffer->getValue(pos.x + 2, pos.y) != 0)) {
pos.x = (pos.x + 2 < from->_x) ? pos.x + 2 : from->_x;
}
if ((pos.x > from->_x) && (pos.x > 0) && (_pathBuffer->getValue(pos.x - 2, pos.y) != 0)) {
pos.x = (pos.x - 2 > from->_x) ? pos.x - 2 : from->_x;
}
if ((pos.y < from->_y) && (pos.y < _pathBuffer->h) && (_pathBuffer->getValue(pos.x, pos.y + 2) != 0)) {
pos.y = (pos.y + 2 <= from->_y) ? pos.y + 2 : from->_y;
}
if ((pos.y > from->_y) && (pos.y > 0) && (_pathBuffer->getValue(pos.x, pos.y - 2) != 0)) {
pos.y = (pos.y - 2 >= from->_y) ? pos.y - 2 :from->_y;
}
return;
}
int16 Parallaction::selectWalkFrame(const Common::Point& pos, const WalkNode* from) {
Common::Point dist(from->_x - pos.x, from->_y - pos.y);
if (dist.x < 0)
dist.x = -dist.x;
if (dist.y < 0)
dist.y = -dist.y;
walkData1++;
// walk frame selection
int16 v16;
if (_char._ani.getFrameNum() == 20) {
if (dist.x > dist.y) {
walkData2 = (from->_x > pos.x) ? 0 : 7;
walkData1 %= 12;
v16 = walkData1 / 2;
} else {
walkData2 = (from->_y > pos.y) ? 14 : 17;
walkData1 %= 8;
v16 = walkData1 / 4;
}
} else {
if (dist.x > dist.y) {
walkData2 = (from->_x > pos.x) ? 0 : 9;
walkData1 %= 16;
v16 = walkData1 / 2;
} else {
walkData2 = (from->_y > pos.y) ? 18 : 21;
walkData1 %= 8;
v16 = walkData1 / 4;
}
}
return v16;
}
uint16 Parallaction::checkDoor() {
// printf("checkDoor()...");
if (_currentLocationIndex != _doorData1) {
_doorData1 = _currentLocationIndex;
_zoneTrap = NULL;
}
_engineFlags &= ~kEngineWalking;
Common::Point foot;
_char.getFoot(foot);
Zone *z = hitZone(kZoneDoor, foot.x, foot.y);
if (z != NULL) {
if ((z->_flags & kFlagsClosed) == 0) {
_location._startPosition = z->u.door->_startPos;
_location._startFrame = z->u.door->_startFrame;
scheduleLocationSwitch(z->u.door->_location);
_zoneTrap = NULL;
} else {
runCommands(z->_commands, z);
}
}
_char.getFoot(foot);
z = hitZone(kZoneTrap, foot.x, foot.y);
if (z != NULL) {
_localFlags[_currentLocationIndex] |= kFlagsEnter;
runCommands(z->_commands, z);
_localFlags[_currentLocationIndex] &= ~kFlagsEnter;
_zoneTrap = z;
} else
if (_zoneTrap != NULL) {
_localFlags[_currentLocationIndex] |= kFlagsExit;
runCommands(_zoneTrap->_commands, _zoneTrap);
_localFlags[_currentLocationIndex] &= ~kFlagsExit;
_zoneTrap = NULL;
}
// printf("done\n");
_char._ani._frame = walkData2;
return _char._ani._frame;
}
void Parallaction::finalizeWalk(WalkNodeList *list) {
checkDoor();
delete list;
}
void Parallaction_ns::walk() {
if ((_engineFlags & kEngineWalking) == 0) {
return;
}
WalkNodeList *list = _char._walkPath;
_char._ani._oldPos.x = _char._ani._left;
_char._ani._oldPos.y = _char._ani._top;
Common::Point pos;
_char.getFoot(pos);
WalkNodeList::iterator it = list->begin();
if (it != list->end()) {
if ((*it)->_x == pos.x && (*it)->_y == pos.y) {
debugC(1, kDebugWalk, "jobWalk reached node (%i, %i)", (*it)->_x, (*it)->_y);
it = list->erase(it);
}
}
if (it == list->end()) {
debugC(1, kDebugWalk, "jobWalk reached last node");
// j->_finished = 1;
finalizeWalk(list);
return;
}
_char._walkPath = list;
// selectWalkFrame must be performed before position is changed by clipMove
int16 v16 = selectWalkFrame(pos, *it);
clipMove(pos, *it);
_char.setFoot(pos);
Common::Point newpos(_char._ani._left, _char._ani._top);
if (newpos == _char._ani._oldPos) {
debugC(1, kDebugWalk, "jobWalk was blocked by an unforeseen obstacle");
// j->_finished = 1;
finalizeWalk(list);
} else {
_char._ani._frame = v16 + walkData2 + 1;
}
return;
}
WalkNode::WalkNode() : _x(0), _y(0) {
}
WalkNode::WalkNode(int16 x, int16 y) : _x(x), _y(y) {
}
WalkNode::WalkNode(const WalkNode& w) : _x(w._x), _y(w._y) {
}
void WalkNode::getPoint(Common::Point &p) const {
p.x = _x;
p.y = _y;
}
PathBuilder::PathBuilder(Animation *anim) : _anim(anim), _list(0) {
}
} // namespace Parallaction