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#ifndef GIM_CONTACT_H_INCLUDED

#define GIM_CONTACT_H_INCLUDED


/*

-----------------------------------------------------------------------------

This source file is part of GIMPACT Library.


For the latest info, see http://gimpact.sourceforge.net/


Copyright (c) 2006 Francisco Leon Najera. C.C. 80087371.

email: projectileman@yahoo.com


 This library is free software; you can redistribute it and/or

 modify it under the terms of EITHER:

   (1) The GNU Lesser General Public License as published by the Free

       Software Foundation; either version 2.1 of the License, or (at

       your option) any later version. The text of the GNU Lesser

       General Public License is included with this library in the

       file GIMPACT-LICENSE-LGPL.TXT.

   (2) The BSD-style license that is included with this library in

       the file GIMPACT-LICENSE-BSD.TXT.

   (3) The zlib/libpng license that is included with this library in

       the file GIMPACT-LICENSE-ZLIB.TXT.


 This library 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 files

 GIMPACT-LICENSE-LGPL.TXT, GIMPACT-LICENSE-ZLIB.TXT and GIMPACT-LICENSE-BSD.TXT for more details.


-----------------------------------------------------------------------------

*/

#include "gim_geometry.h"

#include "gim_radixsort.h"

#include "gim_array.h"


#ifndef NORMAL_CONTACT_AVERAGE

#define NORMAL_CONTACT_AVERAGE 1

#endif


#ifndef CONTACT_DIFF_EPSILON

#define CONTACT_DIFF_EPSILON 0.00001f

#endif


#ifndef BT_CONTACT_H_STRUCTS_INCLUDED


class GIM_CONTACT

{

public:

        btVector3 m_point;

        btVector3 m_normal;

        GREAL m_depth;     //Positive value indicates interpenetration

        GREAL m_distance;  //Padding not for use

        GUINT m_feature1;  //Face number

        GUINT m_feature2;  //Face number

public:

        GIM_CONTACT()

        {

        }


        GIM_CONTACT(const GIM_CONTACT &contact) : m_point(contact.m_point),

                                                                                          m_normal(contact.m_normal),

                                                                                          m_depth(contact.m_depth),

                                                                                          m_feature1(contact.m_feature1),

                                                                                          m_feature2(contact.m_feature2)

        {

                m_point = contact.m_point;

                m_normal = contact.m_normal;

                m_depth = contact.m_depth;

                m_feature1 = contact.m_feature1;

                m_feature2 = contact.m_feature2;

        }


        GIM_CONTACT(const btVector3 &point, const btVector3 &normal,

                                GREAL depth, GUINT feature1, GUINT feature2) : m_point(point),

                                                                                                                           m_normal(normal),

                                                                                                                           m_depth(depth),

                                                                                                                           m_feature1(feature1),

                                                                                                                           m_feature2(feature2)

        {

        }


        SIMD_FORCE_INLINE GUINT calc_key_contact() const

        {

                GINT _coords[] = {

                        (GINT)(m_point[0] * 1000.0f + 1.0f),

                        (GINT)(m_point[1] * 1333.0f),

                        (GINT)(m_point[2] * 2133.0f + 3.0f)};

                GUINT _hash = 0;

                GUINT *_uitmp = (GUINT *)(&_coords[0]);

                _hash = *_uitmp;

                _uitmp++;

                _hash += (*_uitmp) << 4;

                _uitmp++;

                _hash += (*_uitmp) << 8;

                return _hash;

        }


        SIMD_FORCE_INLINE void interpolate_normals(btVector3 *normals, GUINT normal_count)

        {

                btVector3 vec_sum(m_normal);

                for (GUINT i = 0; i < normal_count; i++)

                {

                        vec_sum += normals[i];

                }


                GREAL vec_sum_len = vec_sum.length2();

                if (vec_sum_len < CONTACT_DIFF_EPSILON) return;


                GIM_INV_SQRT(vec_sum_len, vec_sum_len);  // 1/sqrt(vec_sum_len)


                m_normal = vec_sum * vec_sum_len;

        }

};


#endif


class gim_contact_array : public gim_array<GIM_CONTACT>

{

public:

        gim_contact_array() : gim_array<GIM_CONTACT>(64)

        {

        }


        SIMD_FORCE_INLINE void push_contact(const btVector3 &point, const btVector3 &normal,

                                                                                GREAL depth, GUINT feature1, GUINT feature2)

        {

                push_back_mem();

                GIM_CONTACT &newele = back();

                newele.m_point = point;

                newele.m_normal = normal;

                newele.m_depth = depth;

                newele.m_feature1 = feature1;

                newele.m_feature2 = feature2;

        }


        SIMD_FORCE_INLINE void push_triangle_contacts(

                const GIM_TRIANGLE_CONTACT_DATA &tricontact,

                GUINT feature1, GUINT feature2)

        {

                for (GUINT i = 0; i < tricontact.m_point_count; i++)

                {

                        push_back_mem();

                        GIM_CONTACT &newele = back();

                        newele.m_point = tricontact.m_points[i];

                        newele.m_normal = tricontact.m_separating_normal;

                        newele.m_depth = tricontact.m_penetration_depth;

                        newele.m_feature1 = feature1;

                        newele.m_feature2 = feature2;

                }

        }


        void merge_contacts(const gim_contact_array &contacts, bool normal_contact_average = true);

        void merge_contacts_unique(const gim_contact_array &contacts);

};


#endif  // GIM_CONTACT_H_INCLUDED

SIMD_FORCE_INLINE
#define SIMD_FORCE_INLINE
Definition: btScalar.h:98

GIM_CONTACT
The GIM_CONTACT is an internal GIMPACT structure, similar to btManifoldPoint.
Definition: btContactProcessingStructs.h:41

GIM_CONTACT::m_feature1
GUINT m_feature1
Definition: gim_contact.h:64

GIM_CONTACT::interpolate_normals
void interpolate_normals(btVector3 *normals, GUINT normal_count)
Definition: gim_contact.h:110

GIM_CONTACT::GIM_CONTACT
GIM_CONTACT()
Definition: gim_contact.h:67

GIM_CONTACT::m_point
btVector3 m_point
Definition: btContactProcessingStructs.h:43

GIM_CONTACT::m_feature1
int m_feature1
Definition: btContactProcessingStructs.h:47

GIM_CONTACT::m_depth
GREAL m_depth
Definition: gim_contact.h:62

GIM_CONTACT::m_feature2
int m_feature2
Definition: btContactProcessingStructs.h:48

GIM_CONTACT::calc_key_contact
GUINT calc_key_contact() const
Calcs key for coord classification.
Definition: gim_contact.h:94

GIM_CONTACT::m_distance
GREAL m_distance
Definition: gim_contact.h:63

GIM_CONTACT::m_depth
btScalar m_depth
Definition: btContactProcessingStructs.h:45

GIM_CONTACT::m_normal
btVector3 m_normal
Definition: btContactProcessingStructs.h:44

GIM_CONTACT::GIM_CONTACT
GIM_CONTACT(const btVector3 &point, const btVector3 &normal, GREAL depth, GUINT feature1, GUINT feature2)
Definition: gim_contact.h:84

GIM_CONTACT::GIM_CONTACT
GIM_CONTACT(const GIM_CONTACT &contact)
Definition: gim_contact.h:71

GIM_CONTACT::m_feature2
GUINT m_feature2
Definition: gim_contact.h:65

btVector3
btVector3 can be used to represent 3D points and vectors.
Definition: btVector3.h:82

btVector3::length2
btScalar length2() const
Return the length of the vector squared.
Definition: btVector3.h:251

gim_array
Very simple array container with fast access and simd memory.
Definition: gim_array.h:43

gim_array< GIM_CONTACT >::back
GIM_CONTACT & back()
Definition: gim_array.h:198

gim_array< GIM_CONTACT >::push_back_mem
void push_back_mem()
Simply increase the m_size, doesn't call the new element constructor.
Definition: gim_array.h:221

gim_contact_array
Definition: gim_contact.h:130

gim_contact_array::push_contact
void push_contact(const btVector3 &point, const btVector3 &normal, GREAL depth, GUINT feature1, GUINT feature2)
Definition: gim_contact.h:136

gim_contact_array::push_triangle_contacts
void push_triangle_contacts(const GIM_TRIANGLE_CONTACT_DATA &tricontact, GUINT feature1, GUINT feature2)
Definition: gim_contact.h:148

gim_contact_array::merge_contacts
void merge_contacts(const gim_contact_array &contacts, bool normal_contact_average=true)
Definition: gim_contact.cpp:35

gim_contact_array::merge_contacts_unique
void merge_contacts_unique(const gim_contact_array &contacts)
Definition: gim_contact.cpp:114

gim_contact_array::gim_contact_array
gim_contact_array()
Definition: gim_contact.h:132

gim_array.h

CONTACT_DIFF_EPSILON
#define CONTACT_DIFF_EPSILON
Definition: gim_contact.h:47

gim_geometry.h

GREAL
#define GREAL
Definition: gim_math.h:37

GUINT
#define GUINT
Definition: gim_math.h:40

GINT
#define GINT
Definition: gim_math.h:39

GIM_INV_SQRT
#define GIM_INV_SQRT(va, isva)
Definition: gim_math.h:112

gim_radixsort.h

GIM_TRIANGLE_CONTACT_DATA
Structure for collision.
Definition: gim_tri_collision.h:45

GIM_TRIANGLE_CONTACT_DATA::m_points
btVector3 m_points[MAX_TRI_CLIPPING]
Definition: gim_tri_collision.h:49

GIM_TRIANGLE_CONTACT_DATA::m_penetration_depth
GREAL m_penetration_depth
Definition: gim_tri_collision.h:46

GIM_TRIANGLE_CONTACT_DATA::m_point_count
GUINT m_point_count
Definition: gim_tri_collision.h:47

GIM_TRIANGLE_CONTACT_DATA::m_separating_normal
btVector4 m_separating_normal
Definition: gim_tri_collision.h:48