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vcmi/AI/VCAI/SectorMap.cpp

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/*
* SectorMap.cpp, part of VCMI engine
*
* Authors: listed in file AUTHORS in main folder
*
* License: GNU General Public License v2.0 or later
* Full text of license available in license.txt file, in main folder
*
*/
#include "StdInc.h"
#include "SectorMap.h"
#include "VCAI.h"
#include "../../CCallback.h"
#include "../../lib/mapping/CMap.h"
#include "../../lib/mapObjects/MapObjects.h"
#include "../../lib/CPathfinder.h"
#include "../../lib/CGameState.h"
extern boost::thread_specific_ptr<CCallback> cb;
extern boost::thread_specific_ptr<VCAI> ai;
SectorMap::SectorMap()
{
update();
}
SectorMap::SectorMap(HeroPtr h)
{
update();
makeParentBFS(h->visitablePos());
}
bool SectorMap::markIfBlocked(TSectorID & sec, crint3 pos, const TerrainTile * t)
{
if (t->blocked && !t->visitable)
{
sec = NOT_AVAILABLE;
return true;
}
return false;
}
bool SectorMap::markIfBlocked(TSectorID & sec, crint3 pos)
{
return markIfBlocked(sec, pos, getTile(pos));
}
void SectorMap::update()
{
visibleTiles = cb->getAllVisibleTiles();
auto shape = visibleTiles->shape();
sector.resize(boost::extents[shape[0]][shape[1]][shape[2]]);
clear();
int curSector = 3; //0 is invisible, 1 is not explored
CCallback * cbp = cb.get(); //optimization
foreach_tile_pos([&](crint3 pos)
{
if (retrieveTile(pos) == NOT_CHECKED)
{
if (!markIfBlocked(retrieveTile(pos), pos))
exploreNewSector(pos, curSector++, cbp);
}
});
valid = true;
}
SectorMap::TSectorID & SectorMap::retrieveTileN(SectorMap::TSectorArray & a, const int3 & pos)
{
return a[pos.x][pos.y][pos.z];
}
const SectorMap::TSectorID & SectorMap::retrieveTileN(const SectorMap::TSectorArray & a, const int3 & pos)
{
return a[pos.x][pos.y][pos.z];
}
void SectorMap::clear()
{
//TODO: rotate to [z][x][y]
auto fow = cb->getVisibilityMap();
//TODO: any magic to automate this? will need array->array conversion
//std::transform(fow.begin(), fow.end(), sector.begin(), [](const ui8 &f) -> unsigned short
//{
// return f; //type conversion
//});
auto width = fow.size();
auto height = fow.front().size();
auto depth = fow.front().front().size();
for (size_t x = 0; x < width; x++)
{
for (size_t y = 0; y < height; y++)
{
for (size_t z = 0; z < depth; z++)
sector[x][y][z] = fow[x][y][z];
}
}
valid = false;
}
void SectorMap::exploreNewSector(crint3 pos, int num, CCallback * cbp)
{
Sector & s = infoOnSectors[num];
s.id = num;
s.water = getTile(pos)->isWater();
std::queue<int3> toVisit;
toVisit.push(pos);
while (!toVisit.empty())
{
int3 curPos = toVisit.front();
toVisit.pop();
TSectorID & sec = retrieveTile(curPos);
if (sec == NOT_CHECKED)
{
const TerrainTile * t = getTile(curPos);
if (!markIfBlocked(sec, curPos, t))
{
if (t->isWater() == s.water) //sector is only-water or only-land
{
sec = num;
s.tiles.push_back(curPos);
foreach_neighbour(cbp, curPos, [&](CCallback * cbp, crint3 neighPos)
{
if (retrieveTile(neighPos) == NOT_CHECKED)
{
toVisit.push(neighPos);
//parent[neighPos] = curPos;
}
const TerrainTile * nt = getTile(neighPos);
if (nt && nt->isWater() != s.water && canBeEmbarkmentPoint(nt, s.water))
{
s.embarkmentPoints.push_back(neighPos);
}
});
if (t->visitable)
{
auto obj = t->visitableObjects.front();
if (cb->getObj(obj->id, false)) // FIXME: we have to filter invisible objcts like events, but probably TerrainTile shouldn't be used in SectorMap at all
s.visitableObjs.push_back(obj);
}
}
}
}
}
vstd::removeDuplicates(s.embarkmentPoints);
}
void SectorMap::write(crstring fname)
{
std::ofstream out(fname);
for (int k = 0; k < cb->getMapSize().z; k++)
{
for (int j = 0; j < cb->getMapSize().y; j++)
{
for (int i = 0; i < cb->getMapSize().x; i++)
{
out << (int)sector[i][j][k] << '\t';
}
out << std::endl;
}
out << std::endl;
}
}
/*
this functions returns one target tile or invalid tile. We will use it to poll possible destinations
For ship construction etc, another function (goal?) is needed
*/
int3 SectorMap::firstTileToGet(HeroPtr h, crint3 dst)
{
int3 ret(-1, -1, -1);
int sourceSector = retrieveTile(h->visitablePos());
int destinationSector = retrieveTile(dst);
const Sector * src = &infoOnSectors[sourceSector];
const Sector * dest = &infoOnSectors[destinationSector];
if (sourceSector != destinationSector) //use ships, shipyards etc..
{
if (ai->isAccessibleForHero(dst, h)) //pathfinder can find a way using ships and gates if tile is not blocked by objects
return dst;
std::map<const Sector *, const Sector *> preds;
std::queue<const Sector *> sectorQueue;
sectorQueue.push(src);
while (!sectorQueue.empty())
{
const Sector * s = sectorQueue.front();
sectorQueue.pop();
for (int3 ep : s->embarkmentPoints)
{
Sector * neigh = &infoOnSectors[retrieveTile(ep)];
//preds[s].push_back(neigh);
if (!preds[neigh])
{
preds[neigh] = s;
sectorQueue.push(neigh);
}
}
}
if (!preds[dest])
{
//write("test.txt");
return ret;
//throw cannotFulfillGoalException(boost::str(boost::format("Cannot find connection between sectors %d and %d") % src->id % dst->id));
}
std::vector<const Sector *> toTraverse;
toTraverse.push_back(dest);
while (toTraverse.back() != src)
{
toTraverse.push_back(preds[toTraverse.back()]);
}
if (preds[dest])
{
//TODO: would be nice to find sectors in loop
const Sector * sectorToReach = toTraverse.at(toTraverse.size() - 2);
if (!src->water && sectorToReach->water) //embark
{
//embark on ship -> look for an EP with a boat
auto firstEP = boost::find_if(src->embarkmentPoints, [=](crint3 pos) -> bool
{
const TerrainTile * t = getTile(pos);
if (t && t->visitableObjects.size() == 1 && t->topVisitableId() == Obj::BOAT)
{
if (retrieveTile(pos) == sectorToReach->id)
return true;
}
return false;
});
if (firstEP != src->embarkmentPoints.end())
{
return *firstEP;
}
else
{
//we need to find a shipyard with an access to the desired sector's EP
//TODO what about Summon Boat spell?
std::vector<const IShipyard *> shipyards;
for (const CGTownInstance * t : cb->getTownsInfo())
{
if (t->hasBuilt(BuildingID::SHIPYARD))
shipyards.push_back(t);
}
for (const CGObjectInstance * obj : ai->getFlaggedObjects())
{
if (obj->ID != Obj::TOWN) //towns were handled in the previous loop
{
if (const IShipyard * shipyard = IShipyard::castFrom(obj))
shipyards.push_back(shipyard);
}
}
shipyards.erase(boost::remove_if(shipyards, [=](const IShipyard * shipyard) -> bool
{
return shipyard->shipyardStatus() != 0 || retrieveTile(shipyard->bestLocation()) != sectorToReach->id;
}), shipyards.end());
if (!shipyards.size())
{
//TODO consider possibility of building shipyard in a town
return ret;
//throw cannotFulfillGoalException("There is no known shipyard!");
}
//we have only shipyards that possibly can build ships onto the appropriate EP
auto ownedGoodShipyard = boost::find_if(shipyards, [](const IShipyard * s) -> bool
{
return s->o->tempOwner == ai->playerID;
});
if (ownedGoodShipyard != shipyards.end())
{
const IShipyard * s = *ownedGoodShipyard;
TResources shipCost;
s->getBoatCost(shipCost);
if (cb->getResourceAmount().canAfford(shipCost))
{
int3 ret = s->bestLocation();
cb->buildBoat(s); //TODO: move actions elsewhere
return ret;
}
else
{
//TODO gather res
return ret;
//throw cannotFulfillGoalException("Not enough resources to build a boat");
}
}
else
{
//TODO pick best shipyard to take over
return shipyards.front()->o->visitablePos();
}
}
}
else if (src->water && !sectorToReach->water)
{
//TODO
//disembark
return ret;
}
else //use subterranean gates - not needed since gates are now handled via Pathfinder
{
return ret;
//throw cannotFulfillGoalException("Land-land and water-water inter-sector transitions are not implemented!");
}
}
else
{
return ret;
//throw cannotFulfillGoalException("Inter-sector route detection failed: not connected sectors?");
}
}
else //tiles are in same sector
{
return findFirstVisitableTile(h, dst);
}
}
int3 SectorMap::findFirstVisitableTile(HeroPtr h, crint3 dst)
{
int3 ret(-1, -1, -1);
int3 curtile = dst;
while (curtile != h->visitablePos())
{
auto topObj = cb->getTopObj(curtile);
if (topObj && topObj->ID == Obj::HERO && topObj != h.h)
{
if (cb->getPlayerRelations(h->tempOwner, topObj->tempOwner) != PlayerRelations::ENEMIES)
{
logAi->warn("Another allied hero stands in our way");
return ret;
}
}
if (ai->myCb->getPathsInfo(h.get())->getPathInfo(curtile)->reachable())
{
return curtile;
}
else
{
auto i = parent.find(curtile);
if (i != parent.end())
{
assert(curtile != i->second);
curtile = i->second;
}
else
{
return ret;
//throw cannotFulfillGoalException("Unreachable tile in sector? Should not happen!");
}
}
}
return ret;
}
void SectorMap::makeParentBFS(crint3 source)
{
parent.clear();
int mySector = retrieveTile(source);
std::queue<int3> toVisit;
toVisit.push(source);
while (!toVisit.empty())
{
int3 curPos = toVisit.front();
toVisit.pop();
TSectorID & sec = retrieveTile(curPos);
assert(sec == mySector); //consider only tiles from the same sector
UNUSED(sec);
foreach_neighbour(curPos, [&](crint3 neighPos)
{
if (retrieveTile(neighPos) == mySector && !vstd::contains(parent, neighPos))
{
if (cb->canMoveBetween(curPos, neighPos))
{
toVisit.push(neighPos);
parent[neighPos] = curPos;
}
}
});
}
}
SectorMap::TSectorID & SectorMap::retrieveTile(crint3 pos)
{
return retrieveTileN(sector, pos);
}
TerrainTile * SectorMap::getTile(crint3 pos) const
{
//out of bounds access should be handled by boost::multi_array
//still we cached this array to avoid any checks
return visibleTiles->operator[](pos.x)[pos.y][pos.z];
}
std::vector<const CGObjectInstance *> SectorMap::getNearbyObjs(HeroPtr h, bool sectorsAround)
{
const Sector * heroSector = &infoOnSectors[retrieveTile(h->visitablePos())];
if (sectorsAround)
{
std::vector<const CGObjectInstance *> ret;
for (auto embarkPoint : heroSector->embarkmentPoints)
{
const Sector * embarkSector = &infoOnSectors[retrieveTile(embarkPoint)];
range::copy(embarkSector->visitableObjs, std::back_inserter(ret));
}
return ret;
}
return heroSector->visitableObjs;
}