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vcmi/lib/CPathfinder.h
2018-10-06 16:35:31 +03:00

499 lines
15 KiB
C++

/*
* CPathfinder.h, 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
*
*/
#pragma once
#include "VCMI_Lib.h"
#include "IGameCallback.h"
#include "HeroBonus.h"
#include "int3.h"
#include <boost/heap/priority_queue.hpp>
class CGHeroInstance;
class CGObjectInstance;
struct TerrainTile;
class CPathfinderHelper;
class CMap;
class CGWhirlpool;
class CPathfinderHelper;
class CPathfinder;
class CPathfinderConfig;
struct DLL_LINKAGE CGPathNode
{
typedef EPathfindingLayer ELayer;
enum ENodeAction : ui8
{
UNKNOWN = 0,
EMBARK = 1,
DISEMBARK,
NORMAL,
BATTLE,
VISIT,
BLOCKING_VISIT,
TELEPORT_NORMAL,
TELEPORT_BLOCKING_VISIT,
TELEPORT_BATTLE
};
enum EAccessibility : ui8
{
NOT_SET = 0,
ACCESSIBLE = 1, //tile can be entered and passed
VISITABLE, //tile can be entered as the last tile in path
BLOCKVIS, //visitable from neighbouring tile but not passable
FLYABLE, //can only be accessed in air layer
BLOCKED //tile can't be entered nor visited
};
CGPathNode * theNodeBefore;
int3 coord; //coordinates
ui32 moveRemains; //remaining tiles after hero reaches the tile
ui8 turns; //how many turns we have to wait before reachng the tile - 0 means current turn
ELayer layer;
EAccessibility accessible;
ENodeAction action;
bool locked;
CGPathNode();
void reset();
void update(const int3 & Coord, const ELayer Layer, const EAccessibility Accessible);
bool reachable() const;
};
struct DLL_LINKAGE CGPath
{
std::vector<CGPathNode> nodes; //just get node by node
int3 startPos() const; // start point
int3 endPos() const; //destination point
void convert(ui8 mode); //mode=0 -> from 'manifest' to 'object'
};
struct DLL_LINKAGE CPathsInfo
{
typedef EPathfindingLayer ELayer;
mutable boost::mutex pathMx;
const CGHeroInstance * hero;
int3 hpos;
int3 sizes;
boost::multi_array<CGPathNode, 4> nodes; //[w][h][level][layer]
CPathsInfo(const int3 & Sizes);
~CPathsInfo();
const CGPathNode * getPathInfo(const int3 & tile) const;
bool getPath(CGPath & out, const int3 & dst) const;
int getDistance(const int3 & tile) const;
const CGPathNode * getNode(const int3 & coord) const;
CGPathNode * getNode(const int3 & coord, const ELayer layer);
};
struct DLL_LINKAGE CPathNodeInfo
{
CGPathNode * node;
const CGObjectInstance * nodeObject;
const TerrainTile * tile;
int3 coord;
bool guarded;
PlayerRelations::PlayerRelations objectRelations;
CPathNodeInfo();
virtual void setNode(CGameState * gs, CGPathNode * n, bool excludeTopObject = false);
bool isNodeObjectVisitable() const;
};
struct DLL_LINKAGE CDestinationNodeInfo : public CPathNodeInfo
{
CGPathNode::ENodeAction action;
int turn;
int movementLeft;
bool blocked;
bool isGuardianTile;
CDestinationNodeInfo();
virtual void setNode(CGameState * gs, CGPathNode * n, bool excludeTopObject = false) override;
virtual bool isBetterWay() const;
};
class IPathfindingRule
{
public:
virtual void process(
CPathNodeInfo & source,
CDestinationNodeInfo & destination,
CPathfinderConfig * pathfinderConfig,
CPathfinderHelper * pathfinderHelper) const = 0;
};
class DLL_LINKAGE CMovementCostRule : public IPathfindingRule
{
public:
virtual void process(
CPathNodeInfo & source,
CDestinationNodeInfo & destination,
CPathfinderConfig * pathfinderConfig,
CPathfinderHelper * pathfinderHelper) const override;
};
class DLL_LINKAGE CLayerTransitionRule : public IPathfindingRule
{
public:
virtual void process(
CPathNodeInfo & source,
CDestinationNodeInfo & destination,
CPathfinderConfig * pathfinderConfig,
CPathfinderHelper * pathfinderHelper) const override;
};
class DLL_LINKAGE CDestinationActionRule : public IPathfindingRule
{
public:
virtual void process(
CPathNodeInfo & source,
CDestinationNodeInfo & destination,
CPathfinderConfig * pathfinderConfig,
CPathfinderHelper * pathfinderHelper) const override;
};
class DLL_LINKAGE CPathfinderBlockingRule : public IPathfindingRule
{
public:
virtual void process(
CPathNodeInfo & source,
CDestinationNodeInfo & destination,
CPathfinderConfig * pathfinderConfig,
CPathfinderHelper * pathfinderHelper) const override
{
auto blockingReason = getBlockingReason(source, destination, pathfinderConfig, pathfinderHelper);
destination.blocked = blockingReason != BlockingReason::NONE;
}
protected:
enum class BlockingReason
{
NONE = 0,
SOURCE_GUARDED = 1,
DESTINATION_GUARDED = 2,
SOURCE_BLOCKED = 3,
DESTINATION_BLOCKED = 4,
DESTINATION_BLOCKVIS = 5,
DESTINATION_VISIT = 6
};
virtual BlockingReason getBlockingReason(
CPathNodeInfo & source,
CDestinationNodeInfo & destination,
CPathfinderConfig * pathfinderConfig,
CPathfinderHelper * pathfinderHelper) const = 0;
};
class DLL_LINKAGE CMovementAfterDestinationRule : public CPathfinderBlockingRule
{
public:
virtual void process(
CPathNodeInfo & source,
CDestinationNodeInfo & destination,
CPathfinderConfig * pathfinderConfig,
CPathfinderHelper * pathfinderHelper) const override;
protected:
virtual BlockingReason getBlockingReason(
CPathNodeInfo & source,
CDestinationNodeInfo & destination,
CPathfinderConfig * pathfinderConfig,
CPathfinderHelper * pathfinderHelper) const override;
};
class DLL_LINKAGE CMovementToDestinationRule : public CPathfinderBlockingRule
{
protected:
virtual BlockingReason getBlockingReason(
CPathNodeInfo & source,
CDestinationNodeInfo & destination,
CPathfinderConfig * pathfinderConfig,
CPathfinderHelper * pathfinderHelper) const override;
};
class INodeStorage
{
public:
virtual CGPathNode * getInitialNode() = 0;
virtual void resetTile(const int3 & tile, EPathfindingLayer layer, CGPathNode::EAccessibility accessibility) = 0;
virtual std::vector<CGPathNode *> calculateNeighbours(
CPathNodeInfo & source,
CPathfinderConfig * pathfinderConfig,
CPathfinderHelper * pathfinderHelper) = 0;
virtual std::vector<CGPathNode *> calculateTeleportations(
CPathNodeInfo & source,
CPathfinderConfig * pathfinderConfig,
CPathfinderHelper * pathfinderHelper) = 0;
virtual void commit(CDestinationNodeInfo & destination, CPathNodeInfo & source) = 0;
};
class DLL_LINKAGE CNodeStorage : public INodeStorage
{
private:
CPathsInfo & out;
public:
CNodeStorage(CPathsInfo & pathsInfo, const CGHeroInstance * hero);
CGPathNode * getNode(const int3 & coord, const EPathfindingLayer layer);
virtual CGPathNode * getInitialNode() override;
virtual std::vector<CGPathNode *> calculateNeighbours(
CPathNodeInfo & source,
CPathfinderConfig * pathfinderConfig,
CPathfinderHelper * pathfinderHelper) override;
virtual std::vector<CGPathNode *> calculateTeleportations(
CPathNodeInfo & source,
CPathfinderConfig * pathfinderConfig,
CPathfinderHelper * pathfinderHelper) override;
virtual void resetTile(
const int3 & tile,
EPathfindingLayer layer,
CGPathNode::EAccessibility accessibility) override;
virtual void commit(CDestinationNodeInfo & destination, CPathNodeInfo & source) override;
};
struct DLL_LINKAGE PathfinderOptions
{
bool useFlying;
bool useWaterWalking;
bool useEmbarkAndDisembark;
bool useTeleportTwoWay; // Two-way monoliths and Subterranean Gate
bool useTeleportOneWay; // One-way monoliths with one known exit only
bool useTeleportOneWayRandom; // One-way monoliths with more than one known exit
bool useTeleportWhirlpool; // Force enabled if hero protected or unaffected (have one stack of one creature)
/// TODO: Find out with client and server code, merge with normal teleporters.
/// Likely proper implementation would require some refactoring of CGTeleport.
/// So for now this is unfinished and disabled by default.
bool useCastleGate;
/// If true transition into air layer only possible from initial node.
/// This is drastically decrease path calculation complexity (and time).
/// Downside is less MP effective paths calculation.
///
/// TODO: If this option end up useful for slow devices it's can be improved:
/// - Allow transition into air layer not only from initial position, but also from teleporters.
/// Movement into air can be also allowed when hero disembarked.
/// - Other idea is to allow transition into air within certain radius of N tiles around hero.
/// Patrol support need similar functionality so it's won't be ton of useless code.
/// Such limitation could be useful as it's can be scaled depend on device performance.
bool lightweightFlyingMode;
/// This option enable one turn limitation for flying and water walking.
/// So if we're out of MP while cp is blocked or water tile we won't add dest tile to queue.
///
/// Following imitation is default H3 mechanics, but someone may want to disable it in mods.
/// After all this limit should benefit performance on maps with tons of water or blocked tiles.
///
/// TODO:
/// - Behavior when option is disabled not implemented and will lead to crashes.
bool oneTurnSpecialLayersLimit;
/// VCMI have different movement rules to solve flaws original engine has.
/// If this option enabled you'll able to do following things in fly:
/// - Move from blocked tiles to visitable one
/// - Move from guarded tiles to blockvis tiles without being attacked
/// - Move from guarded tiles to guarded visitable tiles with being attacked after
/// TODO:
/// - Option should also allow same tile land <-> air layer transitions.
/// Current implementation only allow go into (from) air layer only to neighbour tiles.
/// I find it's reasonable limitation, but it's will make some movements more expensive than in H3.
bool originalMovementRules;
PathfinderOptions();
};
class DLL_LINKAGE CPathfinderConfig
{
public:
std::shared_ptr<INodeStorage> nodeStorage;
std::vector<std::shared_ptr<IPathfindingRule>> rules;
PathfinderOptions options;
CPathfinderConfig(
std::shared_ptr<INodeStorage> nodeStorage,
std::vector<std::shared_ptr<IPathfindingRule>> rules);
};
class CPathfinder : private CGameInfoCallback
{
public:
friend class CPathfinderHelper;
CPathfinder(CPathsInfo & _out, CGameState * _gs, const CGHeroInstance * _hero);
CPathfinder(
CGameState * _gs,
const CGHeroInstance * _hero,
std::shared_ptr<CPathfinderConfig> config);
void calculatePaths(); //calculates possible paths for hero, uses current hero position and movement left; returns pointer to newly allocated CPath or nullptr if path does not exists
private:
typedef EPathfindingLayer ELayer;
const CGHeroInstance * hero;
const std::vector<std::vector<std::vector<ui8> > > &FoW;
std::unique_ptr<CPathfinderHelper> hlp;
std::shared_ptr<CPathfinderConfig> config;
enum EPatrolState {
PATROL_NONE = 0,
PATROL_LOCKED = 1,
PATROL_RADIUS
} patrolState;
std::unordered_set<int3, ShashInt3> patrolTiles;
struct NodeComparer
{
bool operator()(const CGPathNode * lhs, const CGPathNode * rhs) const
{
if(rhs->turns > lhs->turns)
return false;
else if(rhs->turns == lhs->turns && rhs->moveRemains <= lhs->moveRemains)
return false;
return true;
}
};
boost::heap::priority_queue<CGPathNode *, boost::heap::compare<NodeComparer> > pq;
CPathNodeInfo source; //current (source) path node -> we took it from the queue
CDestinationNodeInfo destination; //destination node -> it's a neighbour of source that we consider
bool isHeroPatrolLocked() const;
bool isPatrolMovementAllowed(const int3 & dst) const;
bool isLayerTransitionPossible(const ELayer dstLayer) const;
CGPathNode::ENodeAction getTeleportDestAction() const;
bool isSourceInitialPosition() const;
bool isSourceGuarded() const;
bool isDestinationGuarded() const;
bool isDestinationGuardian() const;
void initializePatrol();
void initializeGraph();
CGPathNode::EAccessibility evaluateAccessibility(const int3 & pos, const TerrainTile * tinfo, const ELayer layer) const;
};
struct DLL_LINKAGE TurnInfo
{
/// This is certainly not the best design ever and certainly can be improved
/// Unfortunately for pathfinder that do hundreds of thousands calls onus system add too big overhead
struct BonusCache {
std::vector<bool> noTerrainPenalty;
bool freeShipBoarding;
bool flyingMovement;
int flyingMovementVal;
bool waterWalking;
int waterWalkingVal;
BonusCache(TBonusListPtr bonusList);
};
std::unique_ptr<BonusCache> bonusCache;
const CGHeroInstance * hero;
TBonusListPtr bonuses;
mutable int maxMovePointsLand;
mutable int maxMovePointsWater;
int nativeTerrain;
TurnInfo(const CGHeroInstance * Hero, const int Turn = 0);
bool isLayerAvailable(const EPathfindingLayer layer) const;
bool hasBonusOfType(const Bonus::BonusType type, const int subtype = -1) const;
int valOfBonuses(const Bonus::BonusType type, const int subtype = -1) const;
int getMaxMovePoints(const EPathfindingLayer layer) const;
};
class DLL_LINKAGE CPathfinderHelper : private CGameInfoCallback
{
public:
int turn;
const CGHeroInstance * hero;
std::vector<TurnInfo *> turnsInfo;
const PathfinderOptions & options;
CPathfinderHelper(CGameState * gs, const CGHeroInstance * Hero, const PathfinderOptions & Options);
~CPathfinderHelper();
void updateTurnInfo(const int turn = 0);
bool isLayerAvailable(const EPathfindingLayer layer) const;
const TurnInfo * getTurnInfo() const;
bool hasBonusOfType(const Bonus::BonusType type, const int subtype = -1) const;
int getMaxMovePoints(const EPathfindingLayer layer) const;
std::vector<int3> getCastleGates(CPathNodeInfo & source) const;
bool isAllowedTeleportEntrance(const CGTeleport * obj) const;
std::vector<int3> getAllowedTeleportChannelExits(TeleportChannelID channelID) const;
bool addTeleportTwoWay(const CGTeleport * obj) const;
bool addTeleportOneWay(const CGTeleport * obj) const;
bool addTeleportOneWayRandom(const CGTeleport * obj) const;
bool addTeleportWhirlpool(const CGWhirlpool * obj) const;
bool canMoveBetween(const int3 & a, const int3 & b) const; //checks only for visitable objects that may make moving between tiles impossible, not other conditions (like tiles itself accessibility)
std::vector<int3> getNeighbourTiles(CPathNodeInfo & source) const;
std::vector<int3> getTeleportExits(CPathNodeInfo & source) const;
void getNeighbours(
const TerrainTile & srct,
const int3 & tile,
std::vector<int3> & vec,
const boost::logic::tribool & onLand,
const bool limitCoastSailing) const;
int getMovementCost(
const int3 & src,
const int3 & dst,
const TerrainTile * ct,
const TerrainTile * dt,
const int remainingMovePoints =- 1,
const bool checkLast = true) const;
int getMovementCost(
const CPathNodeInfo & src,
const CPathNodeInfo & dst,
const int remainingMovePoints = -1,
const bool checkLast = true) const
{
return getMovementCost(
src.coord,
dst.coord,
src.tile,
dst.tile,
remainingMovePoints,
checkLast
);
}
int getHeroMaxMovementPoints(EPathfindingLayer layer) const;
int movementPointsAfterEmbark(int movement, int cost, int action) const;
bool passOneTurnLimitCheck(CPathNodeInfo & source) const;
};