stk-code_catmod/src/items/rubber_ball.hpp

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// $Id$
//
// SuperTuxKart - a fun racing game with go-kart
// Copyright (C) 2011 Joerg Henrichs
//
// 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, write to the Free Software
// Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.
#ifndef HEADER_RUBBER_BALL_HPP
#define HEADER_RUBBER_BALL_HPP
#include <irrString.h>
#include "items/flyable.hpp"
#include "tracks/track_sector.hpp"
class Kart;
class QuadGraph;
class SFXBase;
/**
* \ingroup items
*/
class RubberBall: public Flyable, public TrackSector
{
private:
#ifdef DEBUG
/** Used in case of flyable debugging so that each output line gets
* a unique number for each ball. */
int m_id;
/** A class variable which stores the next id number to use. */
static int m_next_id;
#endif
/** A class variable to store the default interval size. */
static float m_st_interval;
/** A class variable to store the default squash duration. */
static float m_st_squash_duration;
/** A class variable to store the default squash slowdown. */
static float m_st_squash_slowdown;
/** If the ball is closer than this distance to the target, it will
* start to aim directly at the target (and not interpolate anymore). */
static float m_st_target_distance;
/** Each control point chosen must be at least this far away from
* the previous one. This gives smooth 'overall' interpolation
* even if the quads should be close to each other. */
static float m_st_min_interpolation_distance;
/** A pointer to the target kart. */
const Kart *m_target;
/** The last graph node who's coordinates are stored in
* m_control_points[3]. */
int m_last_aimed_graph_node;
/** Keep the last two, current, and next aiming points
* for interpolation. */
Vec3 m_control_points[4];
/** Saves the previous location of the ball. This is needed if a ball
* should lose it target, and has to reinitialise the control points
* for the interpolation. */
Vec3 m_previous_xyz;
/** Estimated length of the spline between the control points
* 1 and 2. */
float m_length_cp_1_2;
/** Estimated length of the spline between the control points
* 2 and 3. */
float m_length_cp_2_3;
/** The parameter for the spline, m_t in [0,1]. This is not directly
* related to the time, since depending on the distance between
* the two control points different increments must be used for m_t.
* For example, if the distance is 10 m, and assuming a speed of
* 10 m/s for the ball, then each second must add '1' to m_t. If
* the distance on the other hand is 200 m, then 10/200 = 1/20 per
* second must be added (so that it takes 20 seconds to move from 0
* to 1). */
float m_t;
/** How much m_t must increase per second in order to maintain a
* constant speed, i.e. the speed of the ball divided by the
* distance between the control points. See m_t for more details. */
float m_t_increase;
/** How long it takes from one bounce of the ball to the next. */
float m_interval;
/** This timer is used to determine the height depending on the time.
* It is always between 0 and m_interval. */
float m_timer;
/** The current maximum height of the ball. This value will be
* reduced if the ball gets closer to the target. */
float m_current_max_height;
/** Once the ball is close enough, it will aim for the kart. If the
* kart should be able to then increase the distance to the ball,
* the ball will be removed and the kart escapes. This boolean is
* used to keep track of the state of this ball. */
bool m_aiming_at_target;
/** A 'ping' sound effect to be played when the ball hits the ground. */
SFXBase *m_ping_sfx;
/** Sound effect to be played when a ball hits a kart. */
SFXBase *m_hit_sfx;
void computeTarget();
void checkDistanceToTarget();
unsigned int getSuccessorToHitTarget(unsigned int node_index,
float *f=NULL);
void getNextControlPoint();
float updateHeight();
void interpolate(Vec3 *next_xyz, float dt);
void initializeControlPoints(const Vec3 &xyz);
float getMaxTerrainHeight() const;
public:
RubberBall (Kart* kart);
virtual ~RubberBall();
static void init(const XMLNode &node, scene::IMesh *bowling);
virtual bool updateAndDelete(float dt);
virtual bool hit(Kart* kart, PhysicalObject* obj=NULL);
virtual const core::stringw getHitString(const Kart *kart) const;
// ------------------------------------------------------------------------
/** This object does not create an explosion, all affects on
* karts are handled by this hit() function. */
virtual HitEffect *getHitEffect() const {return NULL; }
}; // RubberBall
#endif