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vcmi/lib/rmg/RmgPath.cpp
2022-09-06 16:12:28 +03:00

194 lines
4.5 KiB
C++

/*
* RmgPath.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 "RmgPath.h"
#include <boost/heap/priority_queue.hpp> //A*
using namespace rmg;
const std::function<float(const int3 &, const int3 &)> Path::DEFAULT_MOVEMENT_FUNCTION =
[](const int3 & src, const int3 & dst)
{
return 1.f;
};
//A* priority queue
typedef std::pair<int3, float> TDistance;
struct NodeComparer
{
bool operator()(const TDistance & lhs, const TDistance & rhs) const
{
return (rhs.second < lhs.second);
}
};
boost::heap::priority_queue<TDistance, boost::heap::compare<NodeComparer>> createPriorityQueue()
{
return boost::heap::priority_queue<TDistance, boost::heap::compare<NodeComparer>>();
}
Path::Path(const Area & area): dArea(&area)
{
}
Path::Path(const Area & area, const int3 & src): dArea(&area)
{
dPath.add(src);
}
Path::Path(const Path & path): dArea(path.dArea), dPath(path.dPath)
{
}
Path & Path::operator= (const Path & path)
{
//do not modify area
dPath = path.dPath;
return *this;
}
bool Path::valid() const
{
return !dPath.empty();
}
Path Path::invalid()
{
return Path({});
}
Path Path::search(const Tileset & dst, bool straight, std::function<float(const int3 &, const int3 &)> moveCostFunction) const
{
//A* algorithm taken from Wiki http://en.wikipedia.org/wiki/A*_search_algorithm
if(!dArea)
return Path::invalid();
auto resultArea = *dArea + dst;
Path result(resultArea);
if(dst.empty())
return result;
int3 src = rmg::Area(dst).nearest(dPath);
result.connect(src);
Tileset closed; // The set of nodes already evaluated.
auto open = createPriorityQueue(); // The set of tentative nodes to be evaluated, initially containing the start node
std::map<int3, int3> cameFrom; // The map of navigated nodes.
std::map<int3, float> distances;
cameFrom[src] = int3(-1, -1, -1); //first node points to finish condition
distances[src] = 0;
open.push(std::make_pair(src, 0.f));
// Cost from start along best known path.
while(!open.empty())
{
auto node = open.top();
open.pop();
int3 currentNode = node.first;
closed.insert(currentNode);
if(dPath.contains(currentNode)) //we reached connection, stop
{
// Trace the path using the saved parent information and return path
int3 backTracking = currentNode;
while (cameFrom[backTracking].valid())
{
result.dPath.add(backTracking);
backTracking = cameFrom[backTracking];
}
return result;
}
else
{
auto computeTileScore = [&open, &closed, &cameFrom, &currentNode, &distances, &moveCostFunction, &result](const int3& pos) -> void
{
if(closed.count(pos))
return;
if(!result.dArea->contains(pos))
return;
float movementCost = moveCostFunction(currentNode, pos) + currentNode.dist2d(pos);
float distance = distances[currentNode] + movementCost; //we prefer to use already free paths
int bestDistanceSoFar = std::numeric_limits<int>::max();
auto it = distances.find(pos);
if(it != distances.end())
bestDistanceSoFar = static_cast<int>(it->second);
if(distance < bestDistanceSoFar)
{
cameFrom[pos] = currentNode;
open.push(std::make_pair(pos, distance));
distances[pos] = distance;
}
};
auto dirs = int3::getDirs();
std::vector<int3> neighbors(dirs.begin(), dirs.end());
if(straight)
neighbors.assign(rmg::dirs4.begin(), rmg::dirs4.end());
for(auto & i : neighbors)
{
computeTileScore(currentNode + i);
}
}
}
result.dPath.clear();
return result;
}
Path Path::search(const int3 & dst, bool straight, std::function<float(const int3 &, const int3 &)> moveCostFunction) const
{
return search(Tileset{dst}, straight, moveCostFunction);
}
Path Path::search(const Area & dst, bool straight, std::function<float(const int3 &, const int3 &)> moveCostFunction) const
{
return search(dst.getTiles(), straight, moveCostFunction);
}
Path Path::search(const Path & dst, bool straight, std::function<float(const int3 &, const int3 &)> moveCostFunction) const
{
assert(dst.dArea == dArea);
return search(dst.dPath, straight, moveCostFunction);
}
void Path::connect(const int3 & path)
{
dPath.add(path);
}
void Path::connect(const Tileset & path)
{
Area a(path);
dPath.unite(a);
}
void Path::connect(const Area & path)
{
dPath.unite(path);
}
void Path::connect(const Path & path)
{
dPath.unite(path.dPath);
}
const Area & Path::getPathArea() const
{
return dPath;
}