mod-playerbots/src/TravelMgr.h

/*
 * Copyright (C) 2016+ AzerothCore <www.azerothcore.org>, released under GNU GPL v2 license, you may redistribute it
 * and/or modify it under version 2 of the License, or (at your option), any later version.
 */

#ifndef _PLAYERBOT_TRAVELMGR_H
#define _PLAYERBOT_TRAVELMGR_H

#include <boost/functional/hash.hpp>
#include <random>

#include "AiObject.h"
#include "Corpse.h"
#include "CreatureData.h"
#include "GameObject.h"
#include "GridDefines.h"
#include "PlayerbotAIConfig.h"

class GuidPosition;
class ObjectGuid;
class Quest;
class Player;
class PlayerbotAI;

struct QuestStatusData;

namespace G3D
{
class Vector2;
class Vector3;
class Vector4;
}  // namespace G3D

// Constructor types for WorldPosition
enum WorldPositionConst
{
    WP_RANDOM = 0,
    WP_CENTROID = 1,
    WP_MEAN_CENTROID = 2,
    WP_CLOSEST = 3
};

enum TravelState
{
    TRAVEL_STATE_IDLE = 0,
    TRAVEL_STATE_TRAVEL_PICK_UP_QUEST = 1,
    TRAVEL_STATE_WORK_PICK_UP_QUEST = 2,
    TRAVEL_STATE_TRAVEL_DO_QUEST = 3,
    TRAVEL_STATE_WORK_DO_QUEST = 4,
    TRAVEL_STATE_TRAVEL_HAND_IN_QUEST = 5,
    TRAVEL_STATE_WORK_HAND_IN_QUEST = 6,
    TRAVEL_STATE_TRAVEL_RPG = 7,
    TRAVEL_STATE_TRAVEL_EXPLORE = 8,
    MAX_TRAVEL_STATE
};

enum TravelStatus
{
    TRAVEL_STATUS_NONE = 0,
    TRAVEL_STATUS_PREPARE = 1,
    TRAVEL_STATUS_TRAVEL = 2,
    TRAVEL_STATUS_WORK = 3,
    TRAVEL_STATUS_COOLDOWN = 4,
    TRAVEL_STATUS_EXPIRED = 5,
    MAX_TRAVEL_STATUS
};

class QuestTravelDestination;

// A quest destination container for quick lookup of all destinations related to a quest.
struct QuestContainer
{
    std::vector<QuestTravelDestination*> questGivers;
    std::vector<QuestTravelDestination*> questTakers;
    std::vector<QuestTravelDestination*> questObjectives;
};

typedef std::pair<int32, int32> mGridCoord;

// Extension of WorldLocation with distance functions.
class WorldPosition : public WorldLocation
{
public:
    // Constructors
    WorldPosition() : WorldLocation(){};
    WorldPosition(WorldLocation const& loc) : WorldLocation(loc) {}
    WorldPosition(WorldPosition const& pos) : WorldLocation(pos), visitors(pos.visitors) {}
    WorldPosition(std::string const str);
    WorldPosition(uint32 mapid, float x, float y, float z = 0.f, float orientation = 0.f)
        : WorldLocation(mapid, x, y, z, orientation)
    {
    }
    WorldPosition(uint32 mapId, const Position& pos);
    WorldPosition(WorldObject const* wo);
    WorldPosition(std::vector<WorldPosition*> list, WorldPositionConst conType);
    WorldPosition(std::vector<WorldPosition> list, WorldPositionConst conType);
    WorldPosition(uint32 mapid, GridCoord grid);
    WorldPosition(uint32 mapid, CellCoord cell);
    WorldPosition(uint32 mapid, mGridCoord grid);

    //Setters
    void set(const WorldLocation& pos);
    void set(const WorldObject* wo);
    void set(const WorldPosition& pos);
    void setMapId(uint32 id);
    void setX(float x);
    void setY(float y);
    void setZ(float z);
    void setO(float o);

    void addVisitor() { ++visitors; }

    void remVisitor() { --visitors; }

    // Getters
    operator bool() const;
    friend bool operator==(WorldPosition const& p1, const WorldPosition& p2);
    friend bool operator!=(WorldPosition const& p1, const WorldPosition& p2);

    WorldPosition& operator=(WorldPosition const&) = default;
    WorldPosition& operator+=(WorldPosition const& p1);
    WorldPosition& operator-=(WorldPosition const& p1);

    uint32 getMapId();
    float getX();
    float getY();
    float getZ();
    float getO();

    G3D::Vector3 getVector3();
    std::string const print();

    std::string const to_string();

    void printWKT(std::vector<WorldPosition> points, std::ostringstream& out, uint32 dim = 0, bool loop = false);
    void printWKT(std::ostringstream& out) { printWKT({*this}, out); }

    uint32 getVisitors() { return visitors; }

    bool isOverworld();
    bool isInWater();
    bool isUnderWater();

    WorldPosition relPoint(WorldPosition* center);
    WorldPosition offset(WorldPosition* center);
    float size();

    // Slow distance function using possible map transfers.
    float distance(WorldPosition* center);
    float distance(WorldPosition center) { return distance(&center); }

    float fDist(WorldPosition* center);
    float fDist(WorldPosition center) { return fDist(&center); }

    template <class T>
    std::pair<T, WorldPosition> closest(std::vector<std::pair<T, WorldPosition>> list)
    {
        return *std::min_element(list.begin(), list.end(),
                                 [this](std::pair<T, WorldPosition> i, std::pair<T, WorldPosition> j)
                                 { return this->distance(i.second) < this->distance(j.second); });
    }

    template <class T>
    std::pair<T, WorldPosition> closest(std::vector<T> list)
    {
        return closest(GetPosList(list));
    }

    // Returns the closest point from the list.
    WorldPosition* closest(std::vector<WorldPosition*> list)
    {
        return *std::min_element(list.begin(), list.end(),
                                 [this](WorldPosition* i, WorldPosition* j)
                                 { return this->distance(i) < this->distance(j); });
    }

    WorldPosition closest(std::vector<WorldPosition> list)
    {
        return *std::min_element(list.begin(), list.end(),
                                 [this](WorldPosition i, WorldPosition j)
                                 { return this->distance(i) < this->distance(j); });
    }

    // Quick square distance in 2d plane.
    float sqDistance2d(WorldPosition center)
    {
        return (getX() - center.getX()) * (getX() - center.getX()) +
               (getY() - center.getY()) * (getY() - center.getY());
    }

    // Quick square distance calculation without map check. Used for getting the minimum distant points.
    float sqDistance(WorldPosition center)
    {
        return (getX() - center.getX()) * (getX() - center.getX()) +
               (getY() - center.getY()) * (getY() - center.getY()) +
               (getZ() - center.getZ()) * (getZ() - center.getZ());
    }

    float sqDistance2d(WorldPosition* center)
    {
        return (getX() - center->getX()) * (getX() - center->getX()) +
               (getY() - center->getY()) * (getY() - center->getY());
    }

    float sqDistance(WorldPosition* center)
    {
        return (getX() - center->getX()) * (getX() - center->getX()) +
               (getY() - center->getY()) * (getY() - center->getY()) +
               (getZ() - center->getZ()) * (getZ() - center->getZ());
    }

    // Returns the closest point of the list. Fast but only works for the same map.
    WorldPosition* closestSq(std::vector<WorldPosition*> list)
    {
        return *std::min_element(list.begin(), list.end(),
                                 [this](WorldPosition* i, WorldPosition* j)
                                 { return this->sqDistance(i) < this->sqDistance(j); });
    }

    WorldPosition closestSq(std::vector<WorldPosition> list)
    {
        return *std::min_element(list.begin(), list.end(),
                                 [this](WorldPosition i, WorldPosition j)
                                 { return this->sqDistance(i) < this->sqDistance(j); });
    }

    float getAngleTo(WorldPosition endPos)
    {
        float ang = atan2(endPos.getY() - getY(), endPos.getX() - getX());
        return (ang >= 0) ? ang : 2 * static_cast<float>(M_PI) + ang;
    }

    float getAngleBetween(WorldPosition dir1, WorldPosition dir2) { return abs(getAngleTo(dir1) - getAngleTo(dir2)); }

    WorldPosition lastInRange(std::vector<WorldPosition> list, float minDist = -1.f, float maxDist = -1.f);
    WorldPosition firstOutRange(std::vector<WorldPosition> list, float minDist = -1.f, float maxDist = -1.f);

    float mSign(WorldPosition* p1, WorldPosition* p2)
    {
        return (getX() - p2->getX()) * (p1->getY() - p2->getY()) - (p1->getX() - p2->getX()) * (getY() - p2->getY());
    }

    bool isInside(WorldPosition* p1, WorldPosition* p2, WorldPosition* p3);

    // Map functions. Player independent.
    MapEntry const* getMapEntry();
    uint32 getInstanceId();
    Map* getMap();
    float getHeight();  // remove const - whipowill

    std::set<Transport*> getTransports(uint32 entry = 0);

    GridCoord getGridCoord() { return Acore::ComputeGridCoord(getX(), getY()); };
    std::vector<GridCoord> getGridCoord(WorldPosition secondPos);
    std::vector<WorldPosition> fromGridCoord(GridCoord GridCoord);

    CellCoord getCellCoord() { return Acore::ComputeCellCoord(getX(), getY()); }
    std::vector<WorldPosition> fromCellCoord(CellCoord cellCoord);
    std::vector<WorldPosition> gridFromCellCoord(CellCoord cellCoord);

    mGridCoord getmGridCoord()
    {
        return std::make_pair((int32)(CENTER_GRID_ID - getX() / SIZE_OF_GRIDS),
                              (int32)(CENTER_GRID_ID - getY() / SIZE_OF_GRIDS));
    }

    std::vector<mGridCoord> getmGridCoords(WorldPosition secondPos);
    std::vector<WorldPosition> frommGridCoord(mGridCoord GridCoord);

    void loadMapAndVMap(uint32 mapId, uint8 x, uint8 y);

    void loadMapAndVMap() { loadMapAndVMap(getMapId(), getmGridCoord().first, getmGridCoord().second); }

    void loadMapAndVMaps(WorldPosition secondPos);

    // Display functions
    WorldPosition getDisplayLocation();
    float getDisplayX() { return getDisplayLocation().getY() * -1.0; }

    float getDisplayY() { return getDisplayLocation().getX(); }

    uint16 getAreaId();
    AreaTableEntry const* getArea();
    std::string const getAreaName(bool fullName = true, bool zoneName = false);

    std::vector<WorldPosition> fromPointsArray(std::vector<G3D::Vector3> path);

    // Pathfinding
    std::vector<WorldPosition> getPathStepFrom(WorldPosition startPos, Unit* bot);
    std::vector<WorldPosition> getPathFromPath(std::vector<WorldPosition> startPath, Unit* bot, uint8 maxAttempt = 40);

    std::vector<WorldPosition> getPathFrom(WorldPosition startPos, Unit* bot)
    {
        return getPathFromPath({startPos}, bot);
    }

    std::vector<WorldPosition> getPathTo(WorldPosition endPos, Unit* bot) { return endPos.getPathFrom(*this, bot); }

    bool isPathTo(std::vector<WorldPosition> path, float maxDistance = sPlayerbotAIConfig->targetPosRecalcDistance)
    {
        return !path.empty() && distance(path.back()) < maxDistance;
    };
    bool cropPathTo(std::vector<WorldPosition>& path, float maxDistance = sPlayerbotAIConfig->targetPosRecalcDistance);
    bool canPathTo(WorldPosition endPos, Unit* bot) { return endPos.isPathTo(getPathTo(endPos, bot)); }

    float getPathLength(std::vector<WorldPosition> points)
    {
        float dist = 0.f;
        for (auto& p : points)
        {
            if (&p == &points.front())
                dist = 0.f;
            else
                dist += std::prev(&p, 1)->distance(p);
        }

        return dist;
    }

    bool GetReachableRandomPointOnGround(Player* bot, float radius, bool randomRange = true);

    uint32 getUnitsAggro(GuidVector& units, Player* bot);

    // Creatures
    std::vector<CreatureData const*> getCreaturesNear(float radius = 0, uint32 entry = 0);

    // GameObjects
    std::vector<GameObjectData const*> getGameObjectsNear(float radius = 0, uint32 entry = 0);

private:
    uint32 visitors = 0;
};

inline ByteBuffer& operator<<(ByteBuffer& b, WorldPosition& guidP)
{
    b << guidP.getMapId();
    b << guidP.getX();
    b << guidP.getY();
    b << guidP.getZ();
    b << guidP.getO();
    b << guidP.getVisitors();
    return b;
}

inline ByteBuffer& operator>>(ByteBuffer& b, [[maybe_unused]] WorldPosition& g)
{
    uint32 mapid;
    float coord_x;
    float coord_y;
    float coord_z;
    float orientation;
    uint32 visitors = 0;
    b >> mapid;
    b >> coord_x;
    b >> coord_y;
    b >> coord_z;
    b >> orientation;
    b >> visitors;

    return b;
}

// Generic creature finder
class FindPointCreatureData
{
public:
    FindPointCreatureData(WorldPosition point1 = WorldPosition(), float radius1 = 0, uint32 entry1 = 0)
    {
        point = point1;
        radius = radius1;
        entry = entry1;
    }

    void operator()(CreatureData const& dataPair);
    std::vector<CreatureData const*> GetResult() const { return data; };

private:
    WorldPosition point;
    float radius;
    uint32 entry;

    std::vector<CreatureData const*> data;
};

// Generic gameObject finder
class FindPointGameObjectData
{
public:
    FindPointGameObjectData(WorldPosition point1 = WorldPosition(), float radius1 = 0, uint32 entry1 = 0)
    {
        point = point1;
        radius = radius1;
        entry = entry1;
    }

    void operator()(GameObjectData const& dataPair);
    std::vector<GameObjectData const*> GetResult() const { return data; };

private:
    WorldPosition point;
    float radius;
    uint32 entry;

    std::vector<GameObjectData const*> data;
};

class GuidPosition : public ObjectGuid, public WorldPosition
{
public:
    GuidPosition() : ObjectGuid(), WorldPosition(), loadedFromDB(false) { }
    GuidPosition(WorldObject* wo);
    GuidPosition(CreatureData const& creData);
    GuidPosition(GameObjectData const& goData);
    CreatureTemplate const* GetCreatureTemplate();
    GameObjectTemplate const* GetGameObjectTemplate();

    WorldObject* GetWorldObject();
    Creature* GetCreature();
    Unit* GetUnit();
    GameObject* GetGameObject();
    Player* GetPlayer();

    bool HasNpcFlag(NPCFlags flag);

    bool isDead();  // For loaded grids check if the unit/object is unloaded/dead.

    operator bool() const { return !IsEmpty(); }
    bool operator==(ObjectGuid const& guid) const { return GetRawValue() == guid.GetRawValue(); }
    bool operator!=(ObjectGuid const& guid) const { return GetRawValue() != guid.GetRawValue(); }
    bool operator<(ObjectGuid const& guid) const { return GetRawValue() < guid.GetRawValue(); }

private:
    bool loadedFromDB;
};

template <class T>
std::vector<std::pair<T, WorldPosition>> GetPosList(std::vector<T> oList)
{
    std::vector<std::pair<T, WorldPosition>> retList;
    for (auto& obj : oList)
        retList.push_back(std::make_pair(obj, WorldPosition(obj)));

    return std::move(retList);
};

template <class T>
std::vector<std::pair<T, WorldPosition>> GetPosVector(std::vector<T> oList)
{
    std::vector<std::pair<T, WorldPosition>> retList;
    for (auto& obj : oList)
        retList.push_back(make_pair(obj, WorldPosition(obj)));

    return std::move(retList);
};

class mapTransfer
{
public:
    mapTransfer(WorldPosition pointFrom1, WorldPosition pointTo1, float portalLength1 = 0.1f)
        : pointFrom(pointFrom1), pointTo(pointTo1), portalLength(portalLength1)
    {
    }

    bool isFrom(WorldPosition point) { return point.getMapId() == pointFrom.getMapId(); }

    bool isTo(WorldPosition point) { return point.getMapId() == pointTo.getMapId(); }

    WorldPosition* getPointFrom() { return &pointFrom; }

    WorldPosition* getPointTo() { return &pointTo; }

    bool isUseful(WorldPosition point) { return isFrom(point) || isTo(point); }

    float distance(WorldPosition point)
    {
        return isUseful(point) ? (isFrom(point) ? point.distance(pointFrom) : point.distance(pointTo)) : 200000;
    }

    bool isUseful(WorldPosition start, WorldPosition end) { return isFrom(start) && isTo(end); }

    float distance(WorldPosition start, WorldPosition end)
    {
        return (isUseful(start, end) ? (start.distance(pointFrom) + portalLength + pointTo.distance(end)) : 200000);
    }

    float fDist(WorldPosition start, WorldPosition end);

private:
    WorldPosition pointFrom;
    WorldPosition pointTo;
    float portalLength = 0.1f;
};

// A destination for a bot to travel to and do something.
class TravelDestination
{
public:
    TravelDestination() {}
    TravelDestination(float radiusMin1, float radiusMax1)
    {
        radiusMin = radiusMin1;
        radiusMax = radiusMax1;
    }
    TravelDestination(std::vector<WorldPosition*> points1, float radiusMin1, float radiusMax1)
    {
        points = points1;
        radiusMin = radiusMin1;
        radiusMax = radiusMax1;
    }
    virtual ~TravelDestination() = default;

    void addPoint(WorldPosition* pos) { points.push_back(pos); }

    void setExpireDelay(uint32 delay) { expireDelay = delay; }

    void setCooldownDelay(uint32 delay) { cooldownDelay = delay; }

    void setMaxVisitors(uint32 maxVisitors1 = 0, uint32 maxVisitorsPerPoint1 = 0)
    {
        maxVisitors = maxVisitors1;
        maxVisitorsPerPoint = maxVisitorsPerPoint1;
    }

    std::vector<WorldPosition*> getPoints(bool ignoreFull = false);
    uint32 getExpireDelay() { return expireDelay; }
    uint32 getCooldownDelay() { return cooldownDelay; }

    void addVisitor() { ++visitors; }

    void remVisitor() { --visitors; }

    uint32 getVisitors() { return visitors; }

    virtual Quest const* GetQuestTemplate() { return nullptr; }
    virtual bool isActive([[maybe_unused]] Player* bot) { return false; }

    bool isFull(bool ignoreFull = false);

    virtual std::string const getName() { return "TravelDestination"; }
    virtual int32 getEntry() { return 0; }
    virtual std::string const getTitle() { return "generic travel destination"; }

    WorldPosition* nearestPoint(WorldPosition* pos);

    float distanceTo(WorldPosition* pos) { return nearestPoint(pos)->distance(pos); }
    bool onMap(WorldPosition* pos) { return nearestPoint(pos)->getMapId() == pos->getMapId(); }
    virtual bool isIn(WorldPosition* pos, float radius = 0.f)
    {
        return onMap(pos) && distanceTo(pos) <= (radius ? radius : radiusMin);
    }
    virtual bool isOut(WorldPosition* pos, float radius = 0.f)
    {
        return !onMap(pos) || distanceTo(pos) > (radius ? radius : radiusMax);
    }
    float getRadiusMin() { return radiusMin; }

    std::vector<WorldPosition*> touchingPoints(WorldPosition* pos);
    std::vector<WorldPosition*> sortedPoints(WorldPosition* pos);
    std::vector<WorldPosition*> nextPoint(WorldPosition* pos, bool ignoreFull = true);

protected:
    std::vector<WorldPosition*> points;
    float radiusMin = 0;
    float radiusMax = 0;

    uint32 visitors = 0;
    uint32 maxVisitors = 0;
    uint32 maxVisitorsPerPoint = 0;
    uint32 expireDelay = 5 * 1000;
    uint32 cooldownDelay = 60 * 1000;
};

// A travel target that is always inactive and jumps to cooldown.
class NullTravelDestination : public TravelDestination
{
public:
    NullTravelDestination(uint32 cooldownDelay1 = 5 * 60 * 1000) : TravelDestination()
    {
        cooldownDelay = cooldownDelay1;
    };

    Quest const* GetQuestTemplate() override { return nullptr; }

    bool isActive([[maybe_unused]] Player* bot) override { return false; }

    std::string const getName() override { return "NullTravelDestination"; }
    std::string const getTitle() override { return "no destination"; }

    bool isIn([[maybe_unused]] WorldPosition* pos, [[maybe_unused]] float radius = 0.f) override { return true; }
    bool isOut([[maybe_unused]] WorldPosition* pos, [[maybe_unused]] float radius = 0.f) override { return false; }
};

// A travel target specifically related to a quest.
class QuestTravelDestination : public TravelDestination
{
public:
    QuestTravelDestination(uint32 questId1, float radiusMin1, float radiusMax1);

    Quest const* GetQuestTemplate() override { return questTemplate; }

    bool isActive(Player* bot) override;

    std::string const getName() override { return "QuestTravelDestination"; }
    int32 getEntry() override { return 0; }
    std::string const getTitle() override;

protected:
    uint32 questId;
    Quest const* questTemplate;
};

// A quest giver or taker.
class QuestRelationTravelDestination : public QuestTravelDestination
{
public:
    QuestRelationTravelDestination(uint32 quest_id1, uint32 entry1, uint32 relation1, float radiusMin1,
                                   float radiusMax1)
        : QuestTravelDestination(quest_id1, radiusMin1, radiusMax1)
    {
        entry = entry1;
        relation = relation1;
    }

    bool isActive(Player* bot) override;
    std::string const getName() override { return "QuestRelationTravelDestination"; }
    int32 getEntry() override { return entry; }
    std::string const getTitle() override;
    virtual uint32 getRelation() { return relation; }

private:
    uint32 relation;
    int32 entry;
};

// A quest objective (creature/gameobject to grind/loot)
class QuestObjectiveTravelDestination : public QuestTravelDestination
{
public:
    QuestObjectiveTravelDestination(uint32 quest_id1, uint32 entry1, uint32 objective1, float radiusMin1,
                                    float radiusMax1, uint32 itemId1 = 0)
        : QuestTravelDestination(quest_id1, radiusMin1, radiusMax1)
    {
        objective = objective1;
        entry = entry1;
        itemId = itemId1;
    }

    bool isCreature();
    uint32 ReqCreature();
    uint32 ReqGOId();
    uint32 ReqCount();

    bool isActive(Player* bot) override;
    std::string const getName() override { return "QuestObjectiveTravelDestination"; }
    int32 getEntry() override { return entry; }
    std::string const getTitle() override;

private:
    uint32 objective;
    uint32 entry;
    uint32 itemId = 0;
};

// A location with rpg target(s) based on race and level
class RpgTravelDestination : public TravelDestination
{
public:
    RpgTravelDestination(uint32 entry1, float radiusMin1, float radiusMax1) : TravelDestination(radiusMin1, radiusMax1)
    {
        entry = entry1;
    }

    bool isActive(Player* bot) override;
    virtual CreatureTemplate const* GetCreatureTemplate();
    std::string const getName() override { return "RpgTravelDestination"; }
    int32 getEntry() override { return 0; }
    std::string const getTitle() override;

protected:
    uint32 entry;
};

// A location with zone exploration target(s)
class ExploreTravelDestination : public TravelDestination
{
public:
    ExploreTravelDestination(uint32 areaId1, float radiusMin1, float radiusMax1)
        : TravelDestination(radiusMin1, radiusMax1)
    {
        areaId = areaId1;
    }

    bool isActive(Player* bot) override;
    std::string const getName() override { return "ExploreTravelDestination"; }
    int32 getEntry() override { return 0; }
    std::string const getTitle() override { return title; };
    virtual void setTitle(std::string newTitle) { title = newTitle; }
    virtual uint32 getAreaId() { return areaId; }

protected:
    uint32 areaId;
    std::string title = "";
};

// A location with zone exploration target(s)
class GrindTravelDestination : public TravelDestination
{
public:
    GrindTravelDestination(int32 entry1, float radiusMin1, float radiusMax1) : TravelDestination(radiusMin1, radiusMax1)
    {
        entry = entry1;
    }

    bool isActive(Player* bot) override;
    virtual CreatureTemplate const* GetCreatureTemplate();
    std::string const getName() override { return "GrindTravelDestination"; }
    int32 getEntry() override { return entry; }
    std::string const getTitle() override;

protected:
    int32 entry;
};

// A location with a boss
class BossTravelDestination : public TravelDestination
{
public:
    BossTravelDestination(int32 entry1, float radiusMin1, float radiusMax1) : TravelDestination(radiusMin1, radiusMax1)
    {
        entry = entry1;
        cooldownDelay = 1000;
    }

    bool isActive(Player* bot) override;
    CreatureTemplate const* getCreatureTemplate();
    std::string const getName() override { return "BossTravelDestination"; }
    int32 getEntry() override { return entry; }
    std::string const getTitle() override;

protected:
    int32 entry;
};

// Current target and location for the bot to travel to.
// The flow is as follows:
// PREPARE   (wait until no loot is near)
// TRAVEL    (move towards target until close enough) (rpg and grind is disabled)
// WORK      (grind/rpg until the target is no longer active) (rpg and grind is enabled on quest mobs)
// COOLDOWN  (wait some time free to do what the bot wants)
// EXPIRE    (if any of the above actions take too long pick a new target)
class TravelTarget : AiObject
{
public:
    TravelTarget(PlayerbotAI* botAI) : AiObject(botAI), m_status(TRAVEL_STATUS_NONE), startTime(getMSTime()){};
    TravelTarget(PlayerbotAI* botAI, TravelDestination* tDestination1, WorldPosition* wPosition1)
        : AiObject(botAI), m_status(TRAVEL_STATUS_NONE), startTime(getMSTime())
    {
        setTarget(tDestination1, wPosition1);
    }

    ~TravelTarget();

    void setTarget(TravelDestination* tDestination1, WorldPosition* wPosition1, bool groupCopy1 = false);
    void setStatus(TravelStatus status);
    void setExpireIn(uint32 expireMs) { statusTime = getExpiredTime() + expireMs; }

    void incRetry(bool isMove)
    {
        if (isMove)
            ++moveRetryCount;
        else
            ++extendRetryCount;
    }

    void setRetry(bool isMove, uint32 newCount = 0)
    {
        if (isMove)
            moveRetryCount = newCount;
        else
            extendRetryCount = newCount;
    }

    void setForced(bool forced1) { forced = forced1; }

    void setRadius(float radius1) { radius = radius1; }

    void copyTarget(TravelTarget* target);
    void addVisitors();
    void releaseVisitors();

    float distance(Player* bot);

    WorldPosition* getPosition();
    TravelDestination* getDestination();

    uint32 getEntry()
    {
        if (!tDestination)
            return 0;

        return tDestination->getEntry();
    }

    PlayerbotAI* getAi() { return botAI; }

    uint32 getExpiredTime() { return getMSTime() - startTime; }

    uint32 getTimeLeft() { return statusTime - getExpiredTime(); }

    uint32 getMaxTravelTime();
    uint32 getRetryCount(bool isMove) { return isMove ? moveRetryCount : extendRetryCount; }

    bool isTraveling();
    bool isActive();
    bool isWorking();
    bool isPreparing();
    bool isMaxRetry(bool isMove) { return isMove ? (moveRetryCount > 5) : (extendRetryCount > 5); }

    TravelStatus getStatus() { return m_status; }

    TravelState getTravelState();

    bool isGroupCopy() { return groupCopy; }

    bool isForced() { return forced; }

protected:
    TravelStatus m_status;

    uint32 startTime;
    uint32 statusTime = 0;

    bool forced = false;
    float radius = 0.f;
    bool groupCopy = false;
    bool visitor = true;

    uint32 extendRetryCount = 0;
    uint32 moveRetryCount = 0;

    TravelDestination* tDestination = nullptr;
    WorldPosition* wPosition = nullptr;
};

// General container for all travel destinations.
class TravelMgr
{
public:
    TravelMgr(){};

    static TravelMgr* instance()
    {
        static TravelMgr instance;
        return &instance;
    }

    void Clear();
    void LoadQuestTravelTable();

    template <class D, class W, class URBG>
    void weighted_shuffle(D first, D last, W first_weight, W last_weight, URBG&& g)
    {
        while (first != last && first_weight != last_weight)
        {
            std::discrete_distribution<int> dd(first_weight, last_weight);
            auto i = dd(g);

            if (i)
            {
                std::swap(*first, *std::next(first, i));
                std::swap(*first_weight, *std::next(first_weight, i));
            }
            ++first;
            ++first_weight;
        }
    }

    std::vector<WorldPosition*> getNextPoint(WorldPosition* center, std::vector<WorldPosition*> points,
                                             uint32 amount = 1);
    std::vector<WorldPosition> getNextPoint(WorldPosition center, std::vector<WorldPosition> points, uint32 amount = 1);
    QuestStatusData* getQuestStatus(Player* bot, uint32 questId);
    bool getObjectiveStatus(Player* bot, Quest const* pQuest, uint32 objective);
    uint32 getDialogStatus(Player* pPlayer, int32 questgiver, Quest const* pQuest);
    std::vector<TravelDestination*> getQuestTravelDestinations(Player* bot, int32 questId = -1, bool ignoreFull = false,
                                                               bool ignoreInactive = false, float maxDistance = 5000,
                                                               bool ignoreObjectives = false);
    std::vector<TravelDestination*> getRpgTravelDestinations(Player* bot, bool ignoreFull = false,
                                                             bool ignoreInactive = false, float maxDistance = 5000);
    std::vector<TravelDestination*> getExploreTravelDestinations(Player* bot, bool ignoreFull = false,
                                                                 bool ignoreInactive = false);
    std::vector<TravelDestination*> getGrindTravelDestinations(Player* bot, bool ignoreFull = false,
                                                               bool ignoreInactive = false, float maxDistance = 5000);
    std::vector<TravelDestination*> getBossTravelDestinations(Player* bot, bool ignoreFull = false,
                                                              bool ignoreInactive = false, float maxDistance = 25000);

    void setNullTravelTarget(Player* player);

    void addMapTransfer(WorldPosition start, WorldPosition end, float portalDistance = 0.1f, bool makeShortcuts = true);
    void loadMapTransfers();
    float mapTransDistance(WorldPosition start, WorldPosition end);
    float fastMapTransDistance(WorldPosition start, WorldPosition end);

    NullTravelDestination* nullTravelDestination = new NullTravelDestination();
    WorldPosition* nullWorldPosition = new WorldPosition();

    void addBadVmap(uint32 mapId, uint8 x, uint8 y) { badVmap.push_back(std::make_tuple(mapId, x, y)); }

    void addBadMmap(uint32 mapId, uint8 x, uint8 y) { badMmap.push_back(std::make_tuple(mapId, x, y)); }

    bool isBadVmap(uint32 mapId, uint8 x, uint8 y)
    {
        return std::find(badVmap.begin(), badVmap.end(), std::make_tuple(mapId, x, y)) != badVmap.end();
    }

    bool isBadMmap(uint32 mapId, uint8 x, uint8 y)
    {
        return std::find(badMmap.begin(), badMmap.end(), std::make_tuple(mapId, x, y)) != badMmap.end();
    }

    void printGrid(uint32 mapId, int x, int y, std::string const type);
    void printObj(WorldObject* obj, std::string const type);

    // protected:
    void logQuestError(uint32 errorNr, Quest* quest, uint32 objective = 0, uint32 unitId = 0, uint32 itemId = 0);

    std::vector<uint32> avoidLoaded;

    std::vector<QuestTravelDestination*> questGivers;
    std::vector<RpgTravelDestination*> rpgNpcs;
    std::vector<GrindTravelDestination*> grindMobs;
    std::vector<BossTravelDestination*> bossMobs;

    std::unordered_map<uint32, ExploreTravelDestination*> exploreLocs;
    std::unordered_map<uint32, QuestContainer*> quests;

    std::vector<std::tuple<uint32, uint8, uint8>> badVmap, badMmap;

    std::unordered_map<std::pair<uint32, uint32>, std::vector<mapTransfer>, boost::hash<std::pair<uint32, uint32>>>
        mapTransfersMap;
};

#define sTravelMgr TravelMgr::instance()

#endif