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Last change on this file since aae63a was 860145, checked in by Frederik Heber <heber@…>, 8 years ago
Merge commit '0b990dfaa8c6007a996d030163a25f7f5fc8a7e7' as 'ThirdParty/mpqc_open'
Property mode set to `100644`
File size: 7.4 KB

Rev	Line
[0b990d]	1	//
	2	// int1e.cc
	3	//
	4	// Copyright (C) 2004 Sandia National Laboratories.
	5	//
	6	// Author: Joseph Kenny <jpkenny@sandia.gov>
	7	// Maintainer: Joseph Kenny
	8	//
	9	// This file is part of the SC Toolkit.
	10	//
	11	// The SC Toolkit is free software; you can redistribute it and/or modify
	12	// it under the terms of the GNU Library General Public License as published by
	13	// the Free Software Foundation; either version 2, or (at your option)
	14	// any later version.
	15	//
	16	// The SC Toolkit is distributed in the hope that it will be useful,
	17	// but WITHOUT ANY WARRANTY; without even the implied warranty of
	18	// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
	19	// GNU Library General Public License for more details.
	20	//
	21	// You should have received a copy of the GNU Library General Public License
	22	// along with the SC Toolkit; see the file COPYING.LIB. If not, write to
	23	// the Free Software Foundation, 675 Mass Ave, Cambridge, MA 02139, USA.
	24	//
	25	// The U.S. Government is granted a limited license as per AL 91-7.
	26	//
	27
	28	#ifdef __GNUG__
	29	#pragma implementation
	30	#endif
	31
	32	#include <chemistry/qc/intcca/int1e.h>
	33	#include <util/class/scexception.h>
	34	#include <Chemistry_Chemistry_QC_GaussianBasis_DerivCenters.hh>
	35
	36	using namespace std;
	37	using namespace sc;
	38	using namespace Chemistry;
	39	using namespace Chemistry::QC::GaussianBasis;
	40
	41	Int1eCCA::Int1eCCA(Integral *integral,
	42	const Ref<GaussianBasisSet>&b1,
	43	const Ref<GaussianBasisSet>&b2,
	44	int order, IntegralEvaluatorFactory eval_factory,
	45	std::string int_type, bool use_opaque):
	46	bs1_(b1), bs2_(b2),
	47	overlap_ptr_(0), kinetic_ptr_(0),
	48	nuclear_ptr_(0), hcore_ptr_(0),
	49	integral_(integral), eval_factory_(eval_factory), use_opaque_(use_opaque)
	50	{
	51
	52	int scratchsize=0,nshell2;
	53
	54	/* The efield routines look like derivatives so bump up order if
	55	* it is zero to allow efield integrals to be computed.
	56	*/
	57	if (order == 0) order = 1;
	58
	59	nshell2 = bs1_->max_ncartesian_in_shell()*bs2_->max_ncartesian_in_shell();
	60
	61	if (order == 0)
	62	scratchsize = nshell2;
	63	else if (order == 1)
	64	scratchsize = nshell2*3;
	65	else
	66	throw InputError("invalid derivative level",
	67	__FILE__,__LINE__);
	68
	69	if( !use_opaque_ )
	70	buff_ = new double[scratchsize];
	71
	72	// create cca basis sets
	73	cca_bs1_ = GaussianBasis_Molecular::_create();
	74	cca_bs1_.initialize( bs1_.pointer(), bs1_->name() );
	75	if( bs1_.pointer() != bs2_.pointer() ) {
	76	cca_bs2_ = GaussianBasis_Molecular::_create();
	77	cca_bs2_.initialize( bs2_.pointer(), bs2_->name() );
	78	}
	79	else
	80	cca_bs2_ = cca_bs1_;
	81
	82	cca_dc_ = Chemistry_QC_GaussianBasis_DerivCenters::_create();
	83
	84	if( int_type == "overlap" ) {
	85	overlap_ = eval_factory_.get_integral_evaluator2( "overlap", 0,
	86	cca_bs1_, cca_bs2_ );
	87	overlap_ptr_ = &overlap_;
	88	if( use_opaque_ )
	89	buff_ = static_cast<double*>( overlap_ptr_->get_buffer() );
	90	}
	91
	92	else if( int_type == "overlap_1der" ) {
	93	overlap_1der_ = eval_factory_.get_integral_evaluator2( "overlap", 1,
	94	cca_bs1_, cca_bs2_ );
	95	overlap_1der_ptr_ = &overlap_1der_;
	96	if( use_opaque_ )
	97	buff_ = static_cast<double*>( overlap_1der_ptr_->get_buffer() );
	98	}
	99
	100	else if( int_type == "kinetic" ) {
	101	kinetic_ = eval_factory_.get_integral_evaluator2( "kinetic", 0,
	102	cca_bs1_, cca_bs2_ );
	103	kinetic_ptr_ = &kinetic_;
	104	if( use_opaque_ )
	105	buff_ = static_cast<double*>( kinetic_ptr_->get_buffer() );
	106	}
	107
	108	else if( int_type == "kinetic_1der" ) {
	109	kinetic_1der_ = eval_factory_.get_integral_evaluator2( "kinetic", 1,
	110	cca_bs1_, cca_bs2_ );
	111	kinetic_1der_ptr_ = &kinetic_1der_;
	112	if( use_opaque_ )
	113	buff_ = static_cast<double*>( kinetic_1der_ptr_->get_buffer() );
	114	}
	115
	116	else if( int_type == "nuclear" ) {
	117	nuclear_ = eval_factory_.get_integral_evaluator2( "potential", 0,
	118	cca_bs1_, cca_bs2_ );
	119	nuclear_ptr_ = &nuclear_;
	120	if( use_opaque_ )
	121	buff_ = static_cast<double*>( nuclear_ptr_->get_buffer() );
	122	}
	123
	124	else if( int_type == "nuclear_1der" ) {
	125	nuclear_1der_ = eval_factory_.get_integral_evaluator2( "potential", 1,
	126	cca_bs1_, cca_bs2_ );
	127	nuclear_1der_ptr_ = &nuclear_1der_;
	128	if( use_opaque_ )
	129	buff_ = static_cast<double*>( nuclear_1der_ptr_->get_buffer() );
	130	}
	131
	132	else if( int_type == "hcore" ) {
	133	hcore_ = eval_factory_.get_integral_evaluator2( "1eham", 0,
	134	cca_bs1_, cca_bs2_ );
	135	hcore_ptr_ = &hcore_;
	136	if( use_opaque_ )
	137	buff_ = static_cast<double*>( hcore_ptr_->get_buffer() );
	138	}
	139
	140	else if( int_type == "hcore_1der" ) {
	141	hcore_1der_ = eval_factory_.get_integral_evaluator2( "1eham", 1,
	142	cca_bs1_, cca_bs2_ );
	143	hcore_1der_ptr_ = &hcore_1der_;
	144	if( use_opaque_ )
	145	buff_ = static_cast<double*>( hcore_1der_ptr_->get_buffer() );
	146	}
	147
	148	}
	149
	150	Int1eCCA::~Int1eCCA()
	151	{
	152	}
	153
	154	void
	155	Int1eCCA::overlap( int ish, int jsh )
	156	{
	157	cca_dc_.clear();
	158	if( use_opaque_ )
	159	overlap_ptr_->compute( ish, jsh, 0, cca_dc_ );
	160	else {
	161	sidl_buffer_ = overlap_ptr_->compute_array( ish, jsh, 0, cca_dc_ );
	162	copy_buffer();
	163	}
	164	}
	165
	166	void
	167	Int1eCCA::overlap_1der(int ish, int jsh,
	168	Chemistry_QC_GaussianBasis_DerivCenters &dc)
	169	{
	170	if( use_opaque_ )
	171	overlap_1der_ptr_->compute( ish, jsh, 1, dc );
	172	else {
	173	sidl_buffer_ = overlap_1der_ptr_->compute_array( ish, jsh, 1, dc );
	174	copy_buffer();
	175	}
	176	}
	177
	178	void
	179	Int1eCCA::kinetic( int ish, int jsh )
	180	{
	181	cca_dc_.clear();
	182	if( use_opaque_ )
	183	kinetic_ptr_->compute( ish, jsh, 0, cca_dc_ );
	184	else {
	185	sidl_buffer_ = kinetic_ptr_->compute_array( ish, jsh, 0, cca_dc_ );
	186	copy_buffer();
	187	}
	188	}
	189
	190	void
	191	Int1eCCA::kinetic_1der(int ish, int jsh,
	192	Chemistry_QC_GaussianBasis_DerivCenters &dc)
	193	{
	194	if( use_opaque_ )
	195	kinetic_1der_ptr_->compute( ish, jsh, 1, dc );
	196	else {
	197	sidl_buffer_ = kinetic_1der_ptr_->compute_array( ish, jsh, 1, dc );
	198	copy_buffer();
	199	}
	200	}
	201
	202
	203	void
	204	Int1eCCA::nuclear( int ish, int jsh )
	205	{
	206	cca_dc_.clear();
	207	if( use_opaque_ )
	208	nuclear_ptr_->compute( ish, jsh, 0, cca_dc_ );
	209	else {
	210	sidl_buffer_ = nuclear_ptr_->compute_array( ish, jsh, 0, cca_dc_ );
	211	copy_buffer();
	212	}
	213	}
	214
	215	void
	216	Int1eCCA::nuclear_1der(int ish, int jsh,
	217	Chemistry_QC_GaussianBasis_DerivCenters &dc)
	218	{
	219	if( use_opaque_ )
	220	nuclear_1der_ptr_->compute( ish, jsh, 1, dc );
	221	else {
	222	sidl_buffer_ = nuclear_1der_ptr_->compute_array( ish, jsh, 1, dc );
	223	copy_buffer();
	224	}
	225	}
	226
	227	void
	228	Int1eCCA::hcore( int ish, int jsh )
	229	{
	230	cca_dc_.clear();
	231	if( use_opaque_ )
	232	hcore_ptr_->compute( ish, jsh, 0, cca_dc_ );
	233	else {
	234	sidl_buffer_ = hcore_ptr_->compute_array( ish, jsh, 0, cca_dc_ );
	235	copy_buffer();
	236	}
	237	}
	238
	239	void
	240	Int1eCCA::hcore_1der(int ish, int jsh,
	241	Chemistry_QC_GaussianBasis_DerivCenters &dc)
	242	{
	243	if( use_opaque_ )
	244	hcore_1der_ptr_->compute( ish, jsh, 1, dc );
	245	else {
	246	sidl_buffer_ = hcore_1der_ptr_->compute_array( ish, jsh, 1, dc );
	247	copy_buffer();
	248	}
	249	}
	250
	251	void
	252	Int1eCCA::copy_buffer()
	253	{
	254	int sidl_size = 1 + sidl_buffer_.upper(0) - sidl_buffer_.lower(0);
	255	for(int i=0; i<sidl_size; ++i)
	256	buff_[i] = sidl_buffer_.get(i);
	257	}
	258
	259
	260	/////////////////////////////////////////////////////////////////////////////
	261
	262	// Local Variables:
	263	// mode: c++
	264	// End:

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source: ThirdParty/mpqc_open/src/lib/chemistry/qc/intcca/int1e.cc@ aae63a

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