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1 /*
2  [auto_generated]
3  libs/numeric/odeint/examples/molecular_dynamics_cells.cpp
4 
5  [begin_description]
6  Molecular dynamics example with cells.
7  [end_description]
8 
9  Copyright 2009-2012 Karsten Ahnert
10  Copyright 2009-2012 Mario Mulansky
11 
12  Distributed under the Boost Software License, Version 1.0.
13  (See accompanying file LICENSE_1_0.txt or
14  copy at http://www.boost.org/LICENSE_1_0.txt)
15  */
16 
17 #include <boost/numeric/odeint.hpp>
18 
19 #include <cstddef>
20 #include <vector>
21 #include <cmath>
22 #include <algorithm>
23 #include <tuple>
24 #include <iostream>
25 #include <random>
26 
27 #include <boost/range/algorithm/for_each.hpp>
28 #include <boost/range/algorithm/sort.hpp>
29 #include <boost/range/algorithm/unique_copy.hpp>
30 #include <boost/range/algorithm_ext/iota.hpp>
31 #include <boost/iterator/zip_iterator.hpp>
32 #include <boost/iterator/transform_iterator.hpp>
33 #include <boost/iterator/permutation_iterator.hpp>
34 #include <boost/iterator/counting_iterator.hpp>
35 
36 #include "point_type.hpp"
37 
38 
39 
40 
41 
42 
43 
44 
45 struct local_force
46 {
47     double m_gamma;        // friction
local_forcelocal_force48     local_force( double gamma = 0.0 ) : m_gamma( gamma ) { }
49     template< typename Point >
operator ()local_force50     Point operator()( Point& x , Point& v ) const
51     {
52         return - m_gamma * v;
53     }
54 };
55 
56 
57 struct lennard_jones
58 {
59     double m_sigma;
60     double m_eps;
lennard_joneslennard_jones61     lennard_jones( double sigma = 1.0 , double eps = 0.1 ) : m_sigma( sigma ) , m_eps( eps ) { }
operator ()lennard_jones62     double operator()( double r ) const
63     {
64         double c = m_sigma / r;
65         double c3 = c * c * c;
66         double c6 = c3 * c3;
67         return 4.0 * m_eps * ( -12.0 * c6 * c6 / r + 6.0 * c6 / r );
68     }
69 };
70 
71 template< typename F >
72 struct conservative_interaction
73 {
74     F m_f;
conservative_interactionconservative_interaction75     conservative_interaction( F const &f = F() ) : m_f( f ) { }
76     template< typename Point >
operator ()conservative_interaction77     Point operator()( Point const& x1 , Point const& x2 ) const
78     {
79         Point diff = x1 - x2;
80         double r = abs( diff );
81         double f = m_f( r );
82         return - diff / r * f;
83     }
84 };
85 
86 template< typename F >
make_conservative_interaction(F const & f)87 conservative_interaction< F > make_conservative_interaction( F const &f )
88 {
89     return conservative_interaction< F >( f );
90 }
91 
92 
93 
94 
95 
96 
97 
98 // force = interaction( x1 , x2 )
99 // force = local_force( x , v )
100 template< typename LocalForce , typename Interaction >
101 class md_system_bs
102 {
103 public:
104 
105     typedef std::vector< double > vector_type;
106     typedef point< double , 2 > point_type;
107     typedef point< int , 2 > index_type;
108     typedef std::vector< point_type > point_vector;
109     typedef std::vector< index_type > index_vector;
110     typedef std::vector< size_t > hash_vector;
111     typedef LocalForce local_force_type;
112     typedef Interaction interaction_type;
113 
114 
115     struct params
116     {
117         size_t n;
118         size_t n_cell_x , n_cell_y , n_cells;
119         double x_max , y_max , cell_size;
120         double eps , sigma;    // interaction strength, interaction radius
121         interaction_type interaction;
122         local_force_type local_force;
123     };
124 
125 
126     struct cell_functor
127     {
128         params const &m_p;
129 
cell_functormd_system_bs::cell_functor130         cell_functor( params const& p ) : m_p( p ) { }
131 
132         template< typename Tuple >
operator ()md_system_bs::cell_functor133         void operator()( Tuple const& t ) const
134         {
135             auto point = boost::get< 0 >( t );
136             size_t i1 = size_t( point[0] / m_p.cell_size ) , i2 = size_t( point[1] / m_p.cell_size );
137             boost::get< 1 >( t ) = index_type( i1 , i2 );
138             boost::get< 2 >( t ) = hash_func( boost::get< 1 >( t ) , m_p );
139         }
140     };
141 
142 
143 
144     struct transform_functor
145     {
146         typedef size_t argument_type;
147         typedef size_t result_type;
148         hash_vector const* m_index;
transform_functormd_system_bs::transform_functor149         transform_functor( hash_vector const& index ) : m_index( &index ) { }
operator ()md_system_bs::transform_functor150         size_t operator()( size_t i ) const { return (*m_index)[i]; }
151     };
152 
153 
154 
155     struct interaction_functor
156     {
157         hash_vector const &m_cells_begin;
158         hash_vector const &m_cells_end;
159         hash_vector const &m_order;
160         point_vector const &m_x;
161         point_vector const &m_v;
162         params const &m_p;
163         size_t m_ncellx , m_ncelly;
164 
interaction_functormd_system_bs::interaction_functor165         interaction_functor( hash_vector const& cells_begin , hash_vector const& cells_end , hash_vector pos_order ,
166                             point_vector const&x , point_vector const& v , params const &p )
167         : m_cells_begin( cells_begin ) , m_cells_end( cells_end ) , m_order( pos_order ) , m_x( x ) , m_v( v ) ,
168         m_p( p ) { }
169 
170         template< typename Tuple >
operator ()md_system_bs::interaction_functor171         void operator()( Tuple const &t ) const
172         {
173             point_type x = periodic_bc( boost::get< 0 >( t ) , m_p ) , v = boost::get< 1 >( t );
174             index_type index = boost::get< 3 >( t );
175             size_t pos_hash = boost::get< 4 >( t );
176 
177             point_type a = m_p.local_force( x , v );
178 
179             for( int i=-1 ; i<=1 ; ++i )
180             {
181                 for( int j=-1 ; j<=1 ; ++j )
182                 {
183                     index_type cell_index = index + index_type( i , j );
184                     size_t cell_hash = hash_func( cell_index , m_p );
185                     for( size_t ii = m_cells_begin[ cell_hash ] ; ii < m_cells_end[ cell_hash ] ; ++ii )
186                     {
187                         if( m_order[ ii ] == pos_hash ) continue;
188                         point_type x2 = periodic_bc( m_x[ m_order[ ii ] ] , m_p );
189 
190                         if( cell_index[0] >= m_p.n_cell_x ) x2[0] += m_p.x_max;
191                         if( cell_index[0] < 0 ) x2[0] -= m_p.x_max;
192                         if( cell_index[1] >= m_p.n_cell_y ) x2[1] += m_p.y_max;
193                         if( cell_index[1] < 0 ) x2[1] -= m_p.y_max;
194 
195                         a += m_p.interaction( x , x2 );
196                     }
197                 }
198             }
199             boost::get< 2 >( t ) = a;
200         }
201     };
202 
203 
204 
205 
md_system_bs(size_t n,local_force_type const & local_force=local_force_type (),interaction_type const & interaction=interaction_type (),double xmax=100.0,double ymax=100.0,double cell_size=2.0)206     md_system_bs( size_t n ,
207                   local_force_type const& local_force = local_force_type() ,
208                   interaction_type const& interaction = interaction_type() ,
209                   double xmax = 100.0 , double ymax = 100.0 , double cell_size = 2.0 )
210     : m_p()
211     {
212         m_p.n = n;
213         m_p.x_max = xmax;
214         m_p.y_max = ymax;
215         m_p.interaction = interaction;
216         m_p.local_force = local_force;
217         m_p.n_cell_x = size_t( xmax / cell_size );
218         m_p.n_cell_y = size_t( ymax / cell_size );
219         m_p.n_cells = m_p.n_cell_x * m_p.n_cell_y;
220         m_p.cell_size = cell_size;
221     }
222 
init_point_vector(point_vector & x) const223     void init_point_vector( point_vector &x ) const { x.resize( m_p.n ); }
224 
operator ()(point_vector const & x,point_vector const & v,point_vector & a,double t) const225     void operator()( point_vector const& x , point_vector const& v , point_vector &a , double t ) const
226     {
227         // init
228         hash_vector pos_hash( m_p.n , 0 );
229         index_vector pos_index( m_p.n );
230         hash_vector pos_order( m_p.n , 0 );
231         hash_vector cells_begin( m_p.n_cells ) , cells_end( m_p.n_cells ) , cell_order( m_p.n_cells );
232 
233         boost::iota( pos_order , 0 );
234         boost::iota( cell_order , 0 );
235 
236         // calculate grid hash
237         // calcHash( m_dGridParticleHash, m_dGridParticleIndex, dPos, m_numParticles);
238         std::for_each(
239             boost::make_zip_iterator( boost::make_tuple( x.begin() , pos_index.begin() , pos_hash.begin() ) ) ,
240             boost::make_zip_iterator( boost::make_tuple( x.end() , pos_index.end() , pos_hash.end() ) ) ,
241             cell_functor( m_p ) );
242 
243 //         // sort particles based on hash
244 //         // sortParticles(m_dGridParticleHash, m_dGridParticleIndex, m_numParticles);
245         boost::sort( pos_order , [&]( size_t i1 , size_t i2 ) -> bool {
246             return pos_hash[i1] < pos_hash[i2]; } );
247 
248 
249 
250         // reorder particle arrays into sorted order and find start and end of each cell
251         std::for_each( cell_order.begin() , cell_order.end() , [&]( size_t i ) {
252             auto pos_begin = boost::make_transform_iterator( pos_order.begin() , transform_functor( pos_hash ) );
253             auto pos_end = boost::make_transform_iterator( pos_order.end() , transform_functor( pos_hash ) );
254             cells_begin[ i ] = std::distance( pos_begin , std::lower_bound( pos_begin , pos_end , i ) );
255             cells_end[ i ] = std::distance( pos_begin , std::upper_bound( pos_begin , pos_end , i ) );
256         } );
257 
258         std::for_each(
259             boost::make_zip_iterator( boost::make_tuple(
260                 x.begin() ,
261                 v.begin() ,
262                 a.begin() ,
263                 pos_index.begin() ,
264                 boost::counting_iterator< size_t >( 0 )
265             ) ) ,
266             boost::make_zip_iterator( boost::make_tuple(
267                 x.end() ,
268                 v.end() ,
269                 a.end() ,
270                 pos_index.end() ,
271                 boost::counting_iterator< size_t >( m_p.n )
272             ) ) ,
273             interaction_functor( cells_begin , cells_end , pos_order , x , v , m_p ) );
274     }
275 
bc(point_vector & x)276     void bc( point_vector &x )
277     {
278         for( size_t i=0 ; i<m_p.n ; ++i )
279         {
280             x[i][0] = periodic_bc( x[ i ][0] , m_p.x_max );
281             x[i][1] = periodic_bc( x[ i ][1] , m_p.y_max );
282         }
283     }
284 
periodic_bc(double x,double xmax)285     static inline double periodic_bc( double x , double xmax )
286     {
287         double tmp = x - xmax * int( x / xmax );
288         return tmp >= 0.0 ? tmp : tmp + xmax;
289     }
290 
291 
periodic_bc(point_type const & x,params const & p)292     static inline point_type periodic_bc( point_type const& x , params const& p )
293     {
294         return point_type( periodic_bc( x[0] , p.x_max ) , periodic_bc( x[1] , p.y_max ) );
295     }
296 
297 
check_interval(int i,int max)298     static inline int check_interval( int i , int max )
299     {
300         int tmp = i % max;
301         return tmp >= 0 ? tmp : tmp + max;
302     }
303 
304 
hash_func(index_type index,params const & p)305     static inline size_t hash_func( index_type index , params const & p )
306     {
307         size_t i1 = check_interval( index[0] , p.n_cell_x );
308         size_t i2 = check_interval( index[1] , p.n_cell_y );
309         return i1 * p.n_cell_y + i2;
310     }
311 
312     params m_p;
313 };
314 
315 
316 template< typename LocalForce , typename Interaction >
make_md_system_bs(size_t n,LocalForce const & f1,Interaction const & f2,double xmax=100.0,double ymax=100.0,double cell_size=2.0)317 md_system_bs< LocalForce , Interaction > make_md_system_bs( size_t n , LocalForce const &f1 , Interaction const &f2 ,
318     double xmax = 100.0 , double ymax = 100.0 , double cell_size = 2.0 )
319 {
320     return md_system_bs< LocalForce , Interaction >( n , f1 , f2 , xmax , ymax , cell_size );
321 }
322 
323 
324 
325 
326 
327 
328 using namespace boost::numeric::odeint;
329 
330 
331 
main(int argc,char * argv[])332 int main( int argc , char *argv[] )
333 {
334     const size_t n1 = 32;
335     const size_t n2 = 32;
336     const size_t n = n1 * n2;
337     auto sys = make_md_system_bs( n , local_force() , make_conservative_interaction( lennard_jones() ) , 100.0 , 100.0 , 2.0 );
338     typedef decltype( sys ) system_type;
339     typedef system_type::point_vector point_vector;
340 
341     std::mt19937 rng;
342     std::normal_distribution<> dist( 0.0 , 1.0 );
343 
344     point_vector x , v;
345     sys.init_point_vector( x );
346     sys.init_point_vector( v );
347 
348     for( size_t i=0 ; i<n1 ; ++i )
349     {
350         for( size_t j=0 ; j<n2 ; ++j )
351         {
352             size_t index = i * n2 + j;
353             x[index][0] = 10.0 + i * 2.0 ;
354             x[index][1] = 10.0 + j * 2.0 ;
355             v[index][0] = dist( rng ) ;
356             v[index][1] = dist( rng ) ;
357         }
358     }
359 
360     velocity_verlet< point_vector > stepper;
361     const double dt = 0.025;
362     double t = 0.0;
363     // std::cout << "set term x11" << endl;
364     for( size_t oi=0 ; oi<10000 ; ++oi )
365     {
366         for( size_t ii=0 ; ii<50 ; ++ii,t+=dt )
367             stepper.do_step( sys , std::make_pair( std::ref( x ) , std::ref( v ) ) , t , dt );
368         sys.bc( x );
369 
370         std::cout << "set size square" << "\n";
371         std::cout << "unset key" << "\n";
372         std::cout << "p [0:" << sys.m_p.x_max << "][0:" << sys.m_p.y_max << "] '-' pt 7 ps 0.5" << "\n";
373         for( size_t i=0 ; i<n ; ++i )
374             std::cout << x[i][0] << " " << x[i][1] << " " << v[i][0] << " " << v[i][1] << "\n";
375         std::cout << "e" << std::endl;
376     }
377 
378     return 0;
379 }
380