/* =========================================================================== Doom 3 GPL Source Code Copyright (C) 1999-2011 id Software LLC, a ZeniMax Media company. This file is part of the Doom 3 GPL Source Code ("Doom 3 Source Code"). Doom 3 Source Code 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. Doom 3 Source Code 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 Doom 3 Source Code. If not, see . In addition, the Doom 3 Source Code is also subject to certain additional terms. You should have received a copy of these additional terms immediately following the terms and conditions of the GNU General Public License which accompanied the Doom 3 Source Code. If not, please request a copy in writing from id Software at the address below. If you have questions concerning this license or the applicable additional terms, you may contact in writing id Software LLC, c/o ZeniMax Media Inc., Suite 120, Rockville, Maryland 20850 USA. =========================================================================== */ #ifndef __MATH_PLUECKER_H__ #define __MATH_PLUECKER_H__ #include "idlib/math/Vector.h" /* =============================================================================== Pluecker coordinate =============================================================================== */ class idPluecker { public: idPluecker( void ); explicit idPluecker( const float *a ); explicit idPluecker( const idVec3 &start, const idVec3 &end ); explicit idPluecker( const float a1, const float a2, const float a3, const float a4, const float a5, const float a6 ); float operator[]( const int index ) const; float & operator[]( const int index ); idPluecker operator-() const; // flips the direction idPluecker operator*( const float a ) const; idPluecker operator/( const float a ) const; float operator*( const idPluecker &a ) const; // permuted inner product idPluecker operator-( const idPluecker &a ) const; idPluecker operator+( const idPluecker &a ) const; idPluecker & operator*=( const float a ); idPluecker & operator/=( const float a ); idPluecker & operator+=( const idPluecker &a ); idPluecker & operator-=( const idPluecker &a ); bool Compare( const idPluecker &a ) const; // exact compare, no epsilon bool Compare( const idPluecker &a, const float epsilon ) const; // compare with epsilon bool operator==( const idPluecker &a ) const; // exact compare, no epsilon bool operator!=( const idPluecker &a ) const; // exact compare, no epsilon void Set( const float a1, const float a2, const float a3, const float a4, const float a5, const float a6 ); void Zero( void ); void FromLine( const idVec3 &start, const idVec3 &end ); // pluecker from line void FromRay( const idVec3 &start, const idVec3 &dir ); // pluecker from ray bool FromPlanes( const idPlane &p1, const idPlane &p2 ); // pluecker from intersection of planes bool ToLine( idVec3 &start, idVec3 &end ) const; // pluecker to line bool ToRay( idVec3 &start, idVec3 &dir ) const; // pluecker to ray void ToDir( idVec3 &dir ) const; // pluecker to direction float PermutedInnerProduct( const idPluecker &a ) const; // pluecker permuted inner product float Distance3DSqr( const idPluecker &a ) const; // pluecker line distance float Length( void ) const; // pluecker length float LengthSqr( void ) const; // pluecker squared length idPluecker Normalize( void ) const; // pluecker normalize float NormalizeSelf( void ); // pluecker normalize int GetDimension( void ) const; const float * ToFloatPtr( void ) const; float * ToFloatPtr( void ); const char * ToString( int precision = 2 ) const; private: float p[6]; }; extern idPluecker pluecker_origin; #define pluecker_zero pluecker_origin ID_INLINE idPluecker::idPluecker( void ) { } ID_INLINE idPluecker::idPluecker( const float *a ) { memcpy( p, a, 6 * sizeof( float ) ); } ID_INLINE idPluecker::idPluecker( const idVec3 &start, const idVec3 &end ) { FromLine( start, end ); } ID_INLINE idPluecker::idPluecker( const float a1, const float a2, const float a3, const float a4, const float a5, const float a6 ) { p[0] = a1; p[1] = a2; p[2] = a3; p[3] = a4; p[4] = a5; p[5] = a6; } ID_INLINE idPluecker idPluecker::operator-() const { return idPluecker( -p[0], -p[1], -p[2], -p[3], -p[4], -p[5] ); } ID_INLINE float idPluecker::operator[]( const int index ) const { return p[index]; } ID_INLINE float &idPluecker::operator[]( const int index ) { return p[index]; } ID_INLINE idPluecker idPluecker::operator*( const float a ) const { return idPluecker( p[0]*a, p[1]*a, p[2]*a, p[3]*a, p[4]*a, p[5]*a ); } ID_INLINE float idPluecker::operator*( const idPluecker &a ) const { return p[0] * a.p[4] + p[1] * a.p[5] + p[2] * a.p[3] + p[4] * a.p[0] + p[5] * a.p[1] + p[3] * a.p[2]; } ID_INLINE idPluecker idPluecker::operator/( const float a ) const { float inva; assert( a != 0.0f ); inva = 1.0f / a; return idPluecker( p[0]*inva, p[1]*inva, p[2]*inva, p[3]*inva, p[4]*inva, p[5]*inva ); } ID_INLINE idPluecker idPluecker::operator+( const idPluecker &a ) const { return idPluecker( p[0] + a[0], p[1] + a[1], p[2] + a[2], p[3] + a[3], p[4] + a[4], p[5] + a[5] ); } ID_INLINE idPluecker idPluecker::operator-( const idPluecker &a ) const { return idPluecker( p[0] - a[0], p[1] - a[1], p[2] - a[2], p[3] - a[3], p[4] - a[4], p[5] - a[5] ); } ID_INLINE idPluecker &idPluecker::operator*=( const float a ) { p[0] *= a; p[1] *= a; p[2] *= a; p[3] *= a; p[4] *= a; p[5] *= a; return *this; } ID_INLINE idPluecker &idPluecker::operator/=( const float a ) { float inva; assert( a != 0.0f ); inva = 1.0f / a; p[0] *= inva; p[1] *= inva; p[2] *= inva; p[3] *= inva; p[4] *= inva; p[5] *= inva; return *this; } ID_INLINE idPluecker &idPluecker::operator+=( const idPluecker &a ) { p[0] += a[0]; p[1] += a[1]; p[2] += a[2]; p[3] += a[3]; p[4] += a[4]; p[5] += a[5]; return *this; } ID_INLINE idPluecker &idPluecker::operator-=( const idPluecker &a ) { p[0] -= a[0]; p[1] -= a[1]; p[2] -= a[2]; p[3] -= a[3]; p[4] -= a[4]; p[5] -= a[5]; return *this; } ID_INLINE bool idPluecker::Compare( const idPluecker &a ) const { return ( ( p[0] == a[0] ) && ( p[1] == a[1] ) && ( p[2] == a[2] ) && ( p[3] == a[3] ) && ( p[4] == a[4] ) && ( p[5] == a[5] ) ); } ID_INLINE bool idPluecker::Compare( const idPluecker &a, const float epsilon ) const { if ( idMath::Fabs( p[0] - a[0] ) > epsilon ) { return false; } if ( idMath::Fabs( p[1] - a[1] ) > epsilon ) { return false; } if ( idMath::Fabs( p[2] - a[2] ) > epsilon ) { return false; } if ( idMath::Fabs( p[3] - a[3] ) > epsilon ) { return false; } if ( idMath::Fabs( p[4] - a[4] ) > epsilon ) { return false; } if ( idMath::Fabs( p[5] - a[5] ) > epsilon ) { return false; } return true; } ID_INLINE bool idPluecker::operator==( const idPluecker &a ) const { return Compare( a ); } ID_INLINE bool idPluecker::operator!=( const idPluecker &a ) const { return !Compare( a ); } ID_INLINE void idPluecker::Set( const float a1, const float a2, const float a3, const float a4, const float a5, const float a6 ) { p[0] = a1; p[1] = a2; p[2] = a3; p[3] = a4; p[4] = a5; p[5] = a6; } ID_INLINE void idPluecker::Zero( void ) { p[0] = p[1] = p[2] = p[3] = p[4] = p[5] = 0.0f; } ID_INLINE void idPluecker::FromLine( const idVec3 &start, const idVec3 &end ) { p[0] = start[0] * end[1] - end[0] * start[1]; p[1] = start[0] * end[2] - end[0] * start[2]; p[2] = start[0] - end[0]; p[3] = start[1] * end[2] - end[1] * start[2]; p[4] = start[2] - end[2]; p[5] = end[1] - start[1]; } ID_INLINE void idPluecker::FromRay( const idVec3 &start, const idVec3 &dir ) { p[0] = start[0] * dir[1] - dir[0] * start[1]; p[1] = start[0] * dir[2] - dir[0] * start[2]; p[2] = -dir[0]; p[3] = start[1] * dir[2] - dir[1] * start[2]; p[4] = -dir[2]; p[5] = dir[1]; } ID_INLINE bool idPluecker::ToLine( idVec3 &start, idVec3 &end ) const { idVec3 dir1, dir2; float d; dir1[0] = p[3]; dir1[1] = -p[1]; dir1[2] = p[0]; dir2[0] = -p[2]; dir2[1] = p[5]; dir2[2] = -p[4]; d = dir2 * dir2; if ( d == 0.0f ) { return false; // pluecker coordinate does not represent a line } start = dir2.Cross(dir1) * (1.0f / d); end = start + dir2; return true; } ID_INLINE bool idPluecker::ToRay( idVec3 &start, idVec3 &dir ) const { idVec3 dir1; float d; dir1[0] = p[3]; dir1[1] = -p[1]; dir1[2] = p[0]; dir[0] = -p[2]; dir[1] = p[5]; dir[2] = -p[4]; d = dir * dir; if ( d == 0.0f ) { return false; // pluecker coordinate does not represent a line } start = dir.Cross(dir1) * (1.0f / d); return true; } ID_INLINE void idPluecker::ToDir( idVec3 &dir ) const { dir[0] = -p[2]; dir[1] = p[5]; dir[2] = -p[4]; } ID_INLINE float idPluecker::PermutedInnerProduct( const idPluecker &a ) const { return p[0] * a.p[4] + p[1] * a.p[5] + p[2] * a.p[3] + p[4] * a.p[0] + p[5] * a.p[1] + p[3] * a.p[2]; } ID_INLINE float idPluecker::Length( void ) const { return ( float )idMath::Sqrt( p[5] * p[5] + p[4] * p[4] + p[2] * p[2] ); } ID_INLINE float idPluecker::LengthSqr( void ) const { return ( p[5] * p[5] + p[4] * p[4] + p[2] * p[2] ); } ID_INLINE float idPluecker::NormalizeSelf( void ) { float l, d; l = LengthSqr(); if ( l == 0.0f ) { return l; // pluecker coordinate does not represent a line } d = idMath::InvSqrt( l ); p[0] *= d; p[1] *= d; p[2] *= d; p[3] *= d; p[4] *= d; p[5] *= d; return d * l; } ID_INLINE idPluecker idPluecker::Normalize( void ) const { float d; d = LengthSqr(); if ( d == 0.0f ) { return *this; // pluecker coordinate does not represent a line } d = idMath::InvSqrt( d ); return idPluecker( p[0]*d, p[1]*d, p[2]*d, p[3]*d, p[4]*d, p[5]*d ); } ID_INLINE int idPluecker::GetDimension( void ) const { return 6; } ID_INLINE const float *idPluecker::ToFloatPtr( void ) const { return p; } ID_INLINE float *idPluecker::ToFloatPtr( void ) { return p; } #endif /* !__MATH_PLUECKER_H__ */