2010-04-05 23:38:59 +02:00
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#ifndef _COLL2D_H
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#define _COLL2D_H
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/** \brief Coll2d - A 2d collision detection library
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* \author Martin Felis <martin@silef.de>
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*
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* This library provides functions to detect collisions between polygons and
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* spheres.
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*
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* Notes:
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* - vertices of polygons are described in local coordinates
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* - return values of check_collision are in global coordinates
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* - all Shapes get copied to a temporary instance which will then get
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* transferred into global coordinates
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* - Polygons are assumed to be convex and the vertices are stored
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* counter clockwise.
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* - The transformation of the global position and velocities towards
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* relative position and velocities happens in the
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* int check_collision_<type>_<type> functions!
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*/
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#include <mathlib.h>
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#include <iostream>
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#include <cstring>
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#include <coll2d_errors.h>
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namespace coll2d {
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/** \brief Contains the information of a collision
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*
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* \param normal The normal of the reference plane
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* \param point The actual point where the collision happens in global
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* cooldinates
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* \param time If both objects move for this amount of time the contact
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* will occur.
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* \param reference_shape
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* If 0, the first shape passed to he check_collision function
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* is the reference shape, otherwise the second.
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*/
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struct CollisionInfo {
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vector3d normal;
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vector3d point;
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float time;
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int reference_shape;
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CollisionInfo () : normal (0., 0., 0.), point (0., 0., 0.), time (-1.), reference_shape (-1) {
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}
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CollisionInfo& operator= (const CollisionInfo& info) {
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if (this != &info) {
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normal = info.normal;
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point = info.point;
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time = info.time;
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reference_shape = info.reference_shape;
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}
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return *this;
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}
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void doPrint (const char* msg) {
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std::cout << msg;
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std::cout << "Time = " << time << std::endl;
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normal.print ("Normal = ");
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point.print ( "Point = ");
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std::cout << "Reference = " << reference_shape << std::endl;
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}
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};
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/** \brief Base class for all shapes
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*
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*/
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class Shape {
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protected:
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vector3d mPosition;
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vector3d mVelocity;
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float mAngle;
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float mAngleVelocity;
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2011-02-01 16:13:06 +01:00
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float mBoundingRadius;
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2010-04-05 23:38:59 +02:00
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virtual void dummy() {
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}
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public:
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Shape():
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mPosition (0., 0., 0.),
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mVelocity (0., 0., 0.),
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mAngle (0.),
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mAngleVelocity (0.),
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mBoundingRadius (0.) {
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2010-04-05 23:38:59 +02:00
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}
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Shape (const Shape &shape):
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mPosition (shape.mPosition),
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mVelocity (shape.mVelocity),
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mAngle (shape.mAngle),
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mAngleVelocity (shape.mAngleVelocity),
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mBoundingRadius (shape.mBoundingRadius)
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2010-04-05 23:38:59 +02:00
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{ }
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virtual ~Shape () {};
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/** \brief Creates and returns a copy of itself */
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virtual Shape* getCopy () = 0;
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void setPosition(vector3d position) {
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mPosition = position;
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}
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vector3d getPosition() {
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return mPosition;
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}
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void setVelocity(vector3d velocity) {
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mVelocity = velocity;
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}
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vector3d getVelocity() {
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return mVelocity;
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}
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void setAngle (const float &angle) {
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mAngle = angle;
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}
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float getAngle () {
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return mAngle;
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}
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void setAngleVelocity (float angle_velocity) {
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mAngleVelocity = angle_velocity;
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}
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float getAngleVelocity () {
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return mAngleVelocity;
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}
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2011-02-01 16:13:06 +01:00
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void setBoundingRadius (float bounding_radius) {
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mBoundingRadius = bounding_radius;
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}
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float getBoundingRadius () {
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return mBoundingRadius;
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}
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2010-04-05 23:38:59 +02:00
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virtual void doPrintType() {
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std::cout << "Shape" << std::endl;
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}
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virtual void doPrint (const char* name) {
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std::cout << name << "<unknown shape>" << std::endl;
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}
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friend int check_collision_rel(Shape *shape_a, Shape *shape_b,
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vector3d *velocity_b, CollisionInfo* info);
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};
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class Polygon: public Shape {
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private:
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unsigned int mVerticeCount;
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vector3d *mVertices;
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bool mFreeVertices;
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public:
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Polygon() {
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mVerticeCount = 0;
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mVertices = NULL;
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mFreeVertices = false;
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}
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Polygon(unsigned int n) {
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mVerticeCount = n;
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mVertices = new vector3d[n];
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mFreeVertices = true;
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}
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Polygon(unsigned int n, vector3d *vertices) {
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mVerticeCount = n;
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mFreeVertices = false;
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if (vertices == NULL && n > 0) {
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mVertices = new vector3d [n];
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mFreeVertices = true;
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}
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mVertices = vertices;
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updateBoundingRadius();
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2010-04-05 23:38:59 +02:00
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}
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Polygon (const Polygon &polygon) : Shape (polygon) {
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mVerticeCount = polygon.mVerticeCount;
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mFreeVertices = true;
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mVertices = new vector3d[mVerticeCount];
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memcpy (mVertices, polygon.mVertices, sizeof (vector3d) * mVerticeCount);
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mBoundingRadius = polygon.mBoundingRadius;
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}
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virtual ~Polygon () {
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if (mFreeVertices == true && mVertices)
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delete[] mVertices;
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}
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virtual Polygon* getCopy () {
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Polygon *copy = new Polygon (*this);
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assert (copy);
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return copy;
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}
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virtual void doPrintType() {
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std::cout << "Polygon" << std::endl;
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}
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virtual void doPrint (const char* name) {
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std::cout << name << " (Polygon)" << std::endl;
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std::cout << "mVerticeCount = " << mVerticeCount << std::endl;
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unsigned int i;
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for (i = 0; i < mVerticeCount; i ++) {
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std::cout << i << " = " << mVertices[i][0] << ", " <<
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mVertices[i][1] << ", " <<
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mVertices[i][2] << std::endl;
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}
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std::cout << "mPosition = " << mPosition[0] <<", " <<
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mPosition[1] << ", " <<
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mPosition[2] << std::endl;
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std::cout << "mVelocity = " << mVelocity[0] <<", " <<
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mVelocity[1] << ", " <<
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mVelocity[2] << std::endl;
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std::cout << "mAngle = " << mAngle << std::endl;
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std::cout << "mAngleVelocity = " << mAngleVelocity << std::endl;
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std::cout << "mBoundingRadius = " << mBoundingRadius << std::endl;
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2010-04-05 23:38:59 +02:00
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}
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unsigned int getVerticeCount () {
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return mVerticeCount;
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}
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vector3d& getVertice (unsigned int i) {
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assert (i >= 0 && i < mVerticeCount);
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return mVertices [i];
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}
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void setVertice (unsigned int i, const vector3d &vertice) {
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assert (i >= 0 && i < mVerticeCount);
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mVertices[i] = vertice;
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updateBoundingRadius();
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}
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void updateBoundingRadius () {
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unsigned int i;
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float max_vertice_dist2 = 0.;
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for (i = 0; i < mVerticeCount; i++) {
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float vertice_dist2 = mVertices[i].length2();
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if (vertice_dist2 > max_vertice_dist2)
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max_vertice_dist2 = vertice_dist2;
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}
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mBoundingRadius = sqrt (max_vertice_dist2);
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2010-04-05 23:38:59 +02:00
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}
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friend int check_collision_polygon_sphere(Shape *polygon_a,
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Shape *sphere_b, CollisionInfo* info);
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};
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class Sphere: public Shape {
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private:
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float mRadius;
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public:
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Sphere (float radius) {
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mRadius = radius;
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mBoundingRadius = radius;
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Shape::setPosition (vector3d (0., 0., 0.));
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}
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Sphere(float radius, const vector3d &position) {
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mRadius = radius;
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mBoundingRadius = radius;
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Shape::setPosition(position);
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}
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Sphere (const Sphere &sphere):
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Shape (sphere),
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mRadius (sphere.mRadius)
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{ mBoundingRadius = mRadius; }
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virtual Sphere* getCopy() {
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Sphere* copy = new Sphere (*this);
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return copy;
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}
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virtual void doPrintType() {
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std::cout << "Sphere" << std::endl;
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}
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virtual void doPrint (const char* name) {
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std::cout << name << " (Sphere)" << std::endl;
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std::cout << "mRadius = " << mRadius << std::endl;
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std::cout << "mPosition = " << mPosition[0] <<", " <<
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mPosition[1] << ", " <<
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mPosition[2] << std::endl;
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std::cout << "mVelocity = " << mVelocity[0] <<", " <<
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mVelocity[1] << ", " <<
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mVelocity[2] << std::endl;
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std::cout << "mAngle = " << mAngle << std::endl;
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std::cout << "mAngleVelocity = " << mAngleVelocity << std::endl;
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}
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void setRadius (float radius) {
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mRadius = radius;
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}
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float getRadius () {
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return mRadius;
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}
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friend int check_collision_polygon_sphere(Shape *polygon_a,
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Shape *sphere_b, CollisionInfo* info);
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};
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/** \brief The higher level function to call for collision detection
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*
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* \param stepsize the timestep within we want to check for the collision
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* \param shape_a first shape
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* \param shape_b second shape
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* \param info information about the collision will be to info
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*
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* \returns 0 - no collision, negative on error, positive on collision
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*/
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int check_collision(float timestep, Shape *shape_a, Shape *shape_b, CollisionInfo* info);
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/** \brief The higher level function to call for collision detection
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*
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* \param shape_a first shape
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* \param shape_b second shape
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* \param velocity_b relative velocity of b to a
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* \param info information about the collision will be to info
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*
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* \returns 0 - no collision, negative on error, positive on collision
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*/
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int check_collision_rel(float timestep, Shape *shape_a, Shape *shape_b, vector3d *velocity_b,
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CollisionInfo* info);
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/** \brief Callback signature for the check functions */
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typedef int (*check_cb)(float timestep, Shape *shape_a, Shape *shape_b, CollisionInfo* info);
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/** \brief Returns the check functions which performs the checks depending
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* on their types. */
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check_cb get_check(Shape *shape_a, Shape *shape_b);
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/** \brief Performs a check between a polygon and a sphere
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*/
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int check_collision_polygon_sphere(float timestep, Shape *shape_a, Shape *shape_b,
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CollisionInfo* info);
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/** \brief Performs a check between a sphere and a sphere
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*/
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int check_collision_sphere_sphere(float timestep, Shape *shape_a, Shape *shape_b,
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CollisionInfo* info);
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/** \brief Calculates the time it takes for a point to touch a plane
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*
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* \param normal normal vector of the plane
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* \param plane_point point on the vector
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* \param point point that is moving
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* \param velocity velocity of the point
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*
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* \returns -1 if point is moving away from the plane (or is below and
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* moves even further below
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* >= 0 if point is moving along the plane or towards the plane
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*
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* This function depends on the scale of velocity. It is assumed
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* that velocity represents the displacement in one frame. In this
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* case a return value > 1 means there will not be a contact
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* within this frame.
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*/
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float calculate_contact_plane_point(vector3d &normal, vector3d &plane_point, vector3d &point, vector3d &velocity);
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}
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#endif /* _COLL2D_H */
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