/* * This file is part of the Colobot: Gold Edition source code * Copyright (C) 2001-2016, Daniel Roux, EPSITEC SA & TerranovaTeam * http://epsitec.ch; http://colobot.info; http://github.com/colobot * * 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 3 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, see http://gnu.org/licenses */ #pragma once #include "object/task/task.h" #include "math/vector.h" #include namespace Math { struct Point; } // namespace Math; class CObject; const int MAXPOINTS = 500; enum TaskGotoGoal { TGG_DEFAULT = -1, // default mode TGG_STOP = 0, // goes to destination pausing with precision TGG_EXPRESS = 1, // goes to destination without stopping }; enum TaskGotoCrash { TGC_DEFAULT = -1, // default mode TGC_HALT = 0, // stops if collision TGC_RIGHTLEFT = 1, // right-left TGC_LEFTRIGHT = 2, // left-right TGC_LEFT = 3, // left TGC_RIGHT = 4, // right TGC_BEAM = 5, // algorithm "sunlight" }; enum TaskGotoPhase { TGP_ADVANCE = 1, // advance TGP_LAND = 2, // landed TGP_TURN = 3, // turns to finish TGP_MOVE = 4, // advance to finish TGP_CRWAIT = 5, // waits after collision TGP_CRTURN = 6, // turns right after collision TGP_CRADVANCE = 7, // advance to the right after collision TGP_CLWAIT = 8, // waits after collision TGP_CLTURN = 9, // turns left after collision TGP_CLADVANCE = 10, // advance to the left after collision TGP_BEAMLEAK = 11, // beam: leak (leaking) TGP_BEAMSEARCH = 12, // beam: search TGP_BEAMWCOLD = 13, // beam: expects cool reactor TGP_BEAMUP = 14, // beam: off TGP_BEAMGOTO = 15, // beam: goto dot list TGP_BEAMDOWN = 16, // beam: landed }; class CTaskGoto : public CForegroundTask { public: CTaskGoto(COldObject* object); ~CTaskGoto(); bool EventProcess(const Event &event) override; Error Start(Math::Vector goal, float altitude, TaskGotoGoal goalMode, TaskGotoCrash crashMode); Error IsEnded() override; protected: CObject* WormSearch(Math::Vector &impact); void WormFrame(float rTime); CObject* SearchTarget(Math::Vector pos, float margin); bool AdjustTarget(CObject* pObj, Math::Vector &pos, float &distance); bool AdjustBuilding(Math::Vector &pos, float margin, float &distance); bool GetHotPoint(CObject *pObj, Math::Vector &pos, bool bTake, float distance, float &suppl); bool LeakSearch(Math::Vector &pos, float &delay); void ComputeRepulse(Math::Point &dir); void ComputeFlyingRepulse(float &dir); int BeamShortcut(); void BeamStart(); void BeamInit(); Error BeamSearch(const Math::Vector &start, const Math::Vector &goal, float goalRadius); Error BeamExplore(const Math::Vector &prevPos, const Math::Vector &curPos, const Math::Vector &goalPos, float goalRadius, float angle, int nbDiv, float step, int i, int nbIter); Math::Vector BeamPoint(const Math::Vector &startPoint, const Math::Vector &goalPoint, float angle, float step); bool BitmapTestLine(const Math::Vector &start, const Math::Vector &goal, float stepAngle, bool bSecond); void BitmapObject(); void BitmapTerrain(const Math::Vector &min, const Math::Vector &max); void BitmapTerrain(int minx, int miny, int maxx, int maxy); bool BitmapOpen(); bool BitmapClose(); void BitmapSetCircle(const Math::Vector &pos, float radius); void BitmapClearCircle(const Math::Vector &pos, float radius); void BitmapSetDot(int rank, int x, int y); void BitmapClearDot(int rank, int x, int y); bool BitmapTestDot(int rank, int x, int y); protected: Math::Vector m_goal; Math::Vector m_goalObject; float m_angle = 0.0f; float m_altitude = 0.0f; TaskGotoCrash m_crashMode = TGC_DEFAULT; TaskGotoGoal m_goalMode = TGG_DEFAULT; TaskGotoPhase m_phase = TGP_ADVANCE; int m_try = 0; Error m_error = ERR_OK; bool m_bTake = false; float m_stopLength = 0.0f; // braking distance float m_time = 0.0f; Math::Vector m_pos; bool m_bWorm = false; bool m_bApprox = false; float m_wormLastTime = 0.0f; float m_lastDistance = 0.0f; bool m_bmChanged = true; int m_bmSize = 0; // width or height of the table int m_bmOffset = 0; // m_bmSize/2 int m_bmLine = 0; // increment line m_bmSize/8 std::unique_ptr m_bmArray; // bit table int m_bmMinX = 0, m_bmMinY = 0; int m_bmMaxX = 0, m_bmMaxY = 0; int m_bmTotal = 0; // number of points in m_bmPoints int m_bmIndex = 0; // index in m_bmPoints Math::Vector m_bmPoints[MAXPOINTS+2]; char m_bmIter[MAXPOINTS+2] = {}; int m_bmIterCounter = 0; CObject* m_bmCargoObject = nullptr; float m_bmFinalMove = 0.0f; // final advance distance float m_bmFinalDist = 0.0f; // effective distance to advance Math::Vector m_bmFinalPos; // initial position before advance float m_bmTimeLimit = 0.0f; int m_bmStep = 0; Math::Vector m_bmWatchDogPos; float m_bmWatchDogTime = 0.0f; Math::Vector m_leakPos; // initial position leak float m_leakDelay = 0.0f; float m_leakTime = 0.0f; bool m_bLeakRecede = false; };