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Created: Mon, Aug 5, 03:38

sna.h
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	/* ----------------------------------------------------------------------
	Authors: Aidan Thompson and Christian Trott, Sandia National Labs, 2012
	Property of Sandia National Labs: Not for External Distribution
	------------------------------------------------------------------------- */

	#ifndef LMP_SNA_H
	#define LMP_SNA_H

	#include <complex>
	#include "pointers.h"
	#include <ctime>

	namespace LAMMPS_NS {

	struct SNA_LOOPINDICES {
	int j1, j2, j;
	};

	class SNA : protected Pointers {

	public:
	SNA(LAMMPS*, double, int, int, int, double, int);

	SNA(LAMMPS* lmp) : Pointers(lmp) {};
	~SNA();
	void build_indexlist();
	void init();
	double memory_usage();

	int ncoeff;

	// functions for bispectrum coefficients

	void compute_ui(int);
	void compute_ui_omp(int, int);
	void compute_zi();
	void compute_zi_omp(int);
	void compute_bi();
	void copy_bi2bvec();

	// functions for derivatives

	void compute_duidrj(double*, double, double);
	void compute_dbidrj();
	void compute_dbidrj_nonsymm();
	void copy_dbi2dbvec();
	double compute_sfac(double, double);
	double compute_dsfac(double, double);

	double* timers;
	timespec starttime, endtime;
	int print;
	int counter;

	//per sna class instance for OMP use

	double* bvec, ** dbvec;
	double** rij;
	int* inside;
	double* wj;
	double* rcutij;
	int nmax;

	void grow_rij(int);

	int twojmax, diagonalstyle;
	double* uarraytot_r, * uarraytot_i;
	double*** zarray_r, *** zarray_i;
	double* uarraytot_r_b, * uarraytot_i_b;
	double*** zarray_r_b, *** zarray_i_b;
	double* uarray_r, * uarray_i;

	private:
	double rmin0, rfac0;

	//use indexlist instead of loops, constructor generates these
	SNA_LOOPINDICES* idxj;
	int idxj_max;
	// data for bispectrum coefficients

	double***** cgarray;
	double** rootpqarray;
	double*** barray;

	// derivatives of data

	double** duarray_r, ** duarray_i;
	double**** dbarray;

	void create_twojmax_arrays();
	void destroy_twojmax_arrays();
	void init_clebsch_gordan();
	void init_rootpqarray();
	void jtostr(char*, int);
	void mtostr(char*, int, int);
	void print_clebsch_gordan(FILE*);
	void zero_uarraytot();
	void addself_uarraytot(double);
	void add_uarraytot(double, double, double);
	void add_uarraytot_omp(double, double, double);
	void compute_uarray(double, double, double,
	double, double);
	void compute_uarray_omp(double, double, double,
	double, double, int);
	double factorial(int);
	double deltacg(int, int, int);
	int compute_ncoeff();
	void compute_duarray(double, double, double,
	double, double, double, double, double);

	// if number of atoms are small use per atom arrays
	// for twojmax arrays, rij, inside, bvec
	// this will increase the memory footprint considerably,
	// but allows parallel filling and reuse of these arrays
	int use_shared_arrays;

	// Sets the style for the switching function
	// 0 = none
	// 1 = cosine
	int switch_flag;

	// Self-weight
	double wself;

	};

	}

	#endif

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