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Created: Wed, Jun 26, 02:46

fastmatrixops.h
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	/*
	_________________________________________________________________________
	* POEMS: PARALLELIZABLE OPEN SOURCE EFFICIENT MULTIBODY SOFTWARE *
	* DESCRIPTION: SEE READ-ME *
	* FILE NAME: fastmatrixops.h *
	* AUTHORS: See Author List *
	* GRANTS: See Grants List *
	* COPYRIGHT: (C) 2005 by Authors as listed in Author's List *
	* LICENSE: Please see License Agreement *
	* DOWNLOAD: Free at www.rpi.edu/~anderk5 *
	* ADMINISTRATOR: Prof. Kurt Anderson *
	* Computational Dynamics Lab *
	* Rensselaer Polytechnic Institute *
	* 110 8th St. Troy NY 12180 *
	* CONTACT: anderk5@rpi.edu *
	_________________________________________________________________________/

	#ifndef FASTMATRIXOPS_H
	#define FASTMATRIXOPS_H
	#include "matrices.h"

	void FastCross(Vect3& a, Vect3& b, Vect3& c);
	void FastSimpleRotation(Vect3& v, double q, Mat3x3& C);
	void FastQuaternions(ColMatrix& q, Mat3x3& C);
	void FastQuaternionDerivatives(ColMatrix& q, ColMatrix& omega, ColMatrix& qdot);
	void FastLDLT(Matrix& A, Matrix& LD); // C is the LDL^T decomposition of A (SPD)
	void FastLDLT(Mat6x6& A, Mat6x6& LD); // C is the LDL^T decomposition of A (SPD)
	void FastLDLTSubs(Matrix& LD, Matrix& B, Matrix& C); // Appropriate Forward and Back Substitution
	void FastLDLTSubsLH(Matrix& B, Matrix& LD, Matrix& C); // Left handed Forward and Back Substitution
	void FastLDLTSubs(Mat6x6& LD, Mat6x6& B, Mat6x6& C); // Appropriate Forward and Back Substitution
	void FastLDLTSubs(Mat6x6& LD, Vect6& B, Vect6& C); // Appropriate Forward and Back Substitution
	void FastLU(Matrix& A, Matrix& LU, int *indx); // LU is the LU decomposition of A
	void FastLU(Mat3x3& A, Mat3x3& LU, int *indx); // LU is the LU decomposition of A
	void FastLU(Mat4x4& A, Mat4x4& LU, int *indx); // LU is the LU decomposition of A
	void FastLU(Mat6x6& A, Mat6x6& LU, int *indx); // LU is the LU decomposition of A
	void FastLUSubs(Matrix& LU, Matrix& B, Matrix& C, int *indx); // Appropriate Forward and Back Substitution
	void FastLUSubs(Mat3x3& LU, Matrix& B, Matrix& C, int *indx); // Appropriate Forward and Back Substitution
	void FastLUSubs(Mat4x4& LU, Matrix& B, Matrix& C, int *indx); // Appropriate Forward and Back Substitution
	void FastLUSubs(Mat6x6& LU, Matrix& B, Matrix& C, int *indx); // Appropriate Forward and Back Substitution
	// The following LUSubsLH routine is incomplete at the moment.
	void FastLUSubsLH(Matrix& B, Matrix& LU, Matrix& C, int *indx); // Appropriate Forward and Back Subsitution
	void FastTripleSum(Vect3& a, Vect3& b, Vect3& c, Vect3& d); // d = a+b+c
	void FastTripleSumPPM(Vect3& a, Vect3& b, Vect3& c, Vect3& d); // d = a+b-c

	void FastMult(Matrix& A, Matrix& B, Matrix& C); // C = A*B
	void FastTMult(Matrix& A, Matrix& B, Matrix& C); // C = A^T*B

	void FastMult(Mat3x3& A, Vect3& B, Vect3& C); // C = A*B
	void FastMult(Mat3x3& A, ColMatrix& B, Vect3& C); // C = A*B
	void FastMult(Mat3x3& A, Vect3& B, ColMatrix& C); // C = A*B
	void FastMult(double a, Vect3& B, Vect3& C); // C = a*B
	void FastNegMult(Mat3x3& A, Vect3& B, Vect3& C); // C = A*B
	void FastNegTMult(Mat3x3& A, Vect3& B, Vect3& C); // C = A*B

	void FastMult(Mat4x4& A, Vect4& B, Vect4& C); // C = A*B
	void FastTMult(Mat4x4& A, Vect4& B, Vect4& C); // C = A^T*B
	void FastMult(double a, Vect4& B, Vect4& C); // C = a*B
	void FastNegMult(Mat4x4& A, Vect4& B, Vect4& C); // C = A*B
	void FastNegTMult(Mat4x4& A, Vect4& B, Vect4& C); // C = A*B

	void FastMultT(Matrix& A, Matrix& B, Mat6x6& C); // C = A*B^T
	void FastMult(Mat6x6& A, Matrix& B, Matrix& C); // C = A*B
	void FastTMult(Matrix& A, Vect6& B, ColMatrix& C);// C = A^T*B
	void FastMult(Matrix& A, ColMatrix& B, Vect6& C); // C = A*B

	void FastMult(Mat3x3& A, Mat3x3& B, Mat3x3& C); // C = A*B
	void FastMultT(Mat3x3& A, Mat3x3& B, Mat3x3& C); // C = A*B

	void FastMult(Mat4x4& A, Mat4x4& B, Mat4x4& C); // C = A*B
	void FastMultT(Mat4x4& A, Mat4x4& B, Mat4x4& C); // C = A*B

	void FastMult(Mat6x6& A, Mat6x6& B, Mat6x6& C); // C = A*B
	void FastMultT(Mat6x6& A, Mat6x6& B, Mat6x6& C); // C = A*B^T
	void FastTMult(Mat6x6& A, Mat6x6& B, Mat6x6& C); // C = A^T*B

	void FastMult(Mat6x6& A, Vect6& B, Vect6& C); // C = A*B
	void FastTMult(Mat6x6& A, Vect6& B, Vect6& C); // C = A^T*B

	void FastAdd(Vect3& A, Vect3& B, Vect3& C); // C = A+B
	void FastAdd(Vect4& A, Vect4& B, Vect3& C); // C = A+B
	void FastAdd(Mat6x6& A, Mat6x6& B, Mat6x6& C); // C = A+B
	void FastAdd(Vect6& A, Vect6& B, Vect6& C); // C = A+B

	void FastSubt(Vect3& A, Vect3& B, Vect3& C); // C = A-B
	void FastSubt(Vect4& A, Vect4& B, Vect4& C); // C = A-B
	void FastSubt(Mat6x6& A, Mat6x6& B, Mat6x6& C); // C = A-B
	void FastSubt(Vect6& A, Vect6& B, Vect6& C); // C = A-B

	void FastAssign(ColMatMap& A, ColMatMap& C); // C = A
	void FastAssign(ColMatrix& A, ColMatrix& C); // C = A
	void FastAssign(Vect3& A, Vect3& C); // C = A
	void FastAssign(ColMatrix&A, Vect3& C);
	void FastAssign(Vect4& A, Vect4& C); // C = A
	void FastAssignT(Mat3x3& A, Mat3x3& C); // C = A^T
	void FastAssignT(Mat4x4& A, Mat4x4& C); // C = A^T

	#endif

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