Reference documentation for deal.II version 9.3.3
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grid_generator_from_name.cc
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2//
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5// This file is part of the deal.II library.
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15
17
19
21
22namespace GridGenerator
23{
24 namespace
25 {
32 template <int dim, int spacedim, class... Arguments>
33 void
34 parse_and_create(void (*generator)(Triangulation<dim, spacedim> &,
35 Arguments...),
36 const std::string & arguments,
38 {
39 std::function<void(Arguments...)> wrapper =
40 [&tria, &generator](Arguments... args) { generator(tria, args...); };
41 auto bound_function = Utilities::mutable_bind(wrapper);
42 bound_function.parse_arguments(arguments);
43 bound_function();
44 }
45
46
52 template <int dim, int spacedim>
53 typename std::enable_if<dim != spacedim, bool>::type
54 generate_codimension_zero_grid(const std::string &,
55 const std::string &,
57 {
58 return false;
59 }
60
66 template <int dim>
67 bool
68 generate_codimension_zero_grid(const std::string & name,
69 const std::string & arguments,
71 {
72 if (name == "simplex")
73 parse_and_create<dim, dim, const std::vector<Point<dim>> &>(simplex,
74 arguments,
75 tria);
76 else if (name == "subdivided_hyper_rectangle")
77 {
78 // subdivided_hyper_rectangle is polymorphic, and can be called with
79 // different sets of arguments. We support two of these function
80 // calls. We try the first one, and if parsing fails, we go to the
81 // second one.
82 try
83 {
84 parse_and_create<dim,
85 dim,
86 const std::vector<unsigned int> &,
87 const Point<dim> &,
88 const Point<dim> &,
90 arguments,
91 tria);
92 }
94 {
95 parse_and_create<dim,
96 dim,
97 const std::vector<std::vector<double>> &,
98 const Point<dim> &,
99 const Point<dim> &,
101 arguments,
102 tria);
103 }
104 }
105 else if (name == "plate_with_a_hole")
106 parse_and_create<dim,
107 dim,
108 double,
109 double,
110 double,
111 double,
112 double,
113 double,
114 const Point<dim> &,
117 double,
118 unsigned int,
119 bool>(plate_with_a_hole, arguments, tria);
120 else if (name == "channel_with_cylinder")
121 parse_and_create<dim, dim, double, unsigned int, double, bool>(
122 channel_with_cylinder, arguments, tria);
123
124 else if (name == "enclosed_hyper_cube")
125 parse_and_create<dim, dim, double, double, double, bool>(
126 enclosed_hyper_cube, arguments, tria);
127
128 else if (name == "hyper_ball")
129 parse_and_create<dim, dim, const Point<dim> &, double, bool>(hyper_ball,
130 arguments,
131 tria);
132
133 else if (name == "quarter_hyper_ball")
134 parse_and_create<dim, dim, const Point<dim> &, double>(
135 quarter_hyper_ball, arguments, tria);
136
137 else if (name == "half_hyper_ball")
138 parse_and_create<dim, dim, const Point<dim> &, double>(half_hyper_ball,
139 arguments,
140 tria);
141
142 else if (name == "cylinder")
143 parse_and_create<dim, dim, double, double>(cylinder, arguments, tria);
144
145 else if (name == "subdivided_cylinder")
146 parse_and_create<dim, dim, unsigned int, double, double>(
147 subdivided_cylinder, arguments, tria);
148
149 else if (name == "truncated_cone")
150 parse_and_create<dim, dim, double, double, double>(truncated_cone,
151 arguments,
152 tria);
153
154 else if (name == "hyper_L")
155 parse_and_create<dim, dim, double, double, bool>(hyper_L,
156 arguments,
157 tria);
158
159 else if (name == "hyper_cube_slit")
160 parse_and_create<dim, dim, double, double, bool>(hyper_cube_slit,
161 arguments,
162 tria);
163
164 else if (name == "hyper_shell")
165 parse_and_create<dim,
166 dim,
167 const Point<dim> &,
168 double,
169 double,
170 unsigned int,
171 bool>(hyper_shell, arguments, tria);
172
173 else if (name == "half_hyper_shell")
174 parse_and_create<dim,
175 dim,
176 const Point<dim> &,
177 double,
178 double,
179 unsigned int,
180 bool>(half_hyper_shell, arguments, tria);
181
182 else if (name == "quarter_hyper_shell")
183 parse_and_create<dim,
184 dim,
185 const Point<dim> &,
186 double,
187 double,
188 unsigned int,
189 bool>(quarter_hyper_shell, arguments, tria);
190
191 else if (name == "eccentric_hyper_shell")
192 parse_and_create<dim,
193 dim,
194 const Point<dim> &,
195 const Point<dim> &,
196 double,
197 double,
198 unsigned int>(eccentric_hyper_shell, arguments, tria);
199
200 else if (name == "cylinder_shell")
201 parse_and_create<dim,
202 dim,
203 double,
204 double,
205 double,
206 unsigned int,
207 unsigned int>(cylinder_shell, arguments, tria);
208
209 else if (name == "hyper_cube_with_cylindrical_hole")
210 parse_and_create<dim, dim, double, double, double, unsigned int, bool>(
211 hyper_cube_with_cylindrical_hole, arguments, tria);
212
213 else if (name == "concentric_hyper_shells")
214 parse_and_create<dim,
215 dim,
216 const Point<dim> &,
217 double,
218 double,
219 unsigned int,
220 double,
221 unsigned int,
222 bool>(concentric_hyper_shells, arguments, tria);
223 else
224 return false;
225
226 return true;
227 }
228
229
235 template <int dim, int spacedim>
236 typename std::enable_if<dim != spacedim - 1, bool>::type
237 generate_codimension_one_grid(const std::string &,
238 const std::string &,
240 {
241 return false;
242 }
243
249 template <int dim>
250 bool
251 generate_codimension_one_grid(const std::string & name,
252 const std::string & arguments,
254 {
255 if (name == "hyper_sphere")
256 parse_and_create<dim, dim + 1, const Point<dim + 1> &, double>(
257 hyper_sphere, arguments, tria);
258 else
259 return false;
260 return true;
261 }
262
268 template <int dim, int spacedim>
269 bool
270 generate_special(const std::string &,
271 const std::string &,
273 {
274 return false;
275 }
276
282 bool
283 generate_special(const std::string & name,
284 const std::string & arguments,
286 {
287 if (name == "moebius")
288 parse_and_create<3, 3, unsigned int, unsigned int, double, double>(
289 moebius, arguments, tria);
290 else if (name == "torus")
291 parse_and_create<3, 3, double, double, unsigned int, double>(torus,
292 arguments,
293 tria);
294 else
295 {
296 return false;
297 }
298 return true;
299 }
300
306 bool
307 generate_special(const std::string & name,
308 const std::string & arguments,
310 {
311 if (name == "torus")
312 parse_and_create<2, 3, double, double, unsigned int, double>(torus,
313 arguments,
314 tria);
315 else
316 {
317 return false;
318 }
319 return true;
320 }
321 } // namespace
322
323
324
325 template <int dim, int spacedim>
326 void
328 const std::string & name,
329 const std::string & arguments)
330 {
331 // We begin with all function calls that are implemented for all
332 // combinations of dim and spacedim.
333 if (name == "hyper_cube")
334 parse_and_create<dim, spacedim, double, double, bool>(hyper_cube,
335 arguments,
336 tria);
337 else if (name == "subdivided_hyper_cube")
338 parse_and_create<dim, spacedim, unsigned int, double, double, bool>(
339 subdivided_hyper_cube, arguments, tria);
340 else if (name == "hyper_rectangle")
341 parse_and_create<dim,
342 spacedim,
343 const Point<dim> &,
344 const Point<dim> &,
345 bool>(hyper_rectangle, arguments, tria);
346 else if (name == "cheese")
347 parse_and_create<dim, spacedim, const std::vector<unsigned int> &>(
348 cheese, arguments, tria);
349 else if (name == "general_cell")
350 parse_and_create<dim,
351 spacedim,
352 const std::vector<Point<spacedim>> &,
353 bool>(general_cell, arguments, tria);
354 else if (name == "hyper_cross")
355 parse_and_create<dim, spacedim, const std::vector<unsigned int> &, bool>(
356 hyper_cross, arguments, tria);
357 // If none of the above worked, than we try with more specific function
358 // calls. First we try to call functions that are only implemented when
359 // dim == spacedim, then when dim == spacedim-1, and lastly, we try to see
360 // if the name, dim, and spacedim match some of the very special grid
361 // generator functions, like torus, moebius, etc.
362 //
363 // If one of the function call succeeds, we skip the rest and return.
364 else if (generate_codimension_zero_grid(name, arguments, tria))
365 {}
366 else if (generate_codimension_one_grid(name, arguments, tria))
367 {}
368 else if (generate_special(name, arguments, tria))
369 {}
370 else
371 // If we got here, we really have no idea what grid the user wants to
372 // generate.
373 AssertThrow(false,
374 ExcMessage(name + "(" + arguments + ") not implemented"));
375 }
376} // namespace GridGenerator
377
378#include "grid_generator_from_name.inst"
379
Definition: point.h:111
#define DEAL_II_NAMESPACE_OPEN
Definition: config.h:402
#define DEAL_II_NAMESPACE_CLOSE
Definition: config.h:403
static ::ExceptionBase & ExcNoMatch(std::string arg1, std::string arg2)
static ::ExceptionBase & ExcMessage(std::string arg1)
#define AssertThrow(cond, exc)
Definition: exceptions.h:1575
void hyper_cross(Triangulation< dim, spacedim > &tria, const std::vector< unsigned int > &sizes, const bool colorize_cells=false)
A center cell with stacks of cell protruding from each surface.
void plate_with_a_hole(Triangulation< dim > &tria, const double inner_radius=0.4, const double outer_radius=1., const double pad_bottom=2., const double pad_top=2., const double pad_left=1., const double pad_right=1., const Point< dim > &center=Point< dim >(), const types::manifold_id polar_manifold_id=0, const types::manifold_id tfi_manifold_id=1, const double L=1., const unsigned int n_slices=2, const bool colorize=false)
Rectangular plate with an (offset) cylindrical hole.
void generate_from_name_and_arguments(Triangulation< dim, spacedim > &tria, const std::string &grid_generator_function_name, const std::string &grid_generator_function_arguments)
void enclosed_hyper_cube(Triangulation< dim > &tria, const double left=0., const double right=1., const double thickness=1., const bool colorize=false)
void general_cell(Triangulation< dim, spacedim > &tria, const std::vector< Point< spacedim > > &vertices, const bool colorize=false)
void subdivided_hyper_cube(Triangulation< dim, spacedim > &tria, const unsigned int repetitions, const double left=0., const double right=1., const bool colorize=false)
void hyper_L(Triangulation< dim > &tria, const double left=-1., const double right=1., const bool colorize=false)
void hyper_cube_slit(Triangulation< dim > &tria, const double left=0., const double right=1., const bool colorize=false)
void hyper_ball(Triangulation< dim > &tria, const Point< dim > &center=Point< dim >(), const double radius=1., const bool attach_spherical_manifold_on_boundary_cells=false)
void eccentric_hyper_shell(Triangulation< dim > &triangulation, const Point< dim > &inner_center, const Point< dim > &outer_center, const double inner_radius, const double outer_radius, const unsigned int n_cells)
void hyper_rectangle(Triangulation< dim, spacedim > &tria, const Point< dim > &p1, const Point< dim > &p2, const bool colorize=false)
void cylinder(Triangulation< dim > &tria, const double radius=1., const double half_length=1.)
void moebius(Triangulation< 3, 3 > &tria, const unsigned int n_cells, const unsigned int n_rotations, const double R, const double r)
void half_hyper_shell(Triangulation< dim > &tria, const Point< dim > &center, const double inner_radius, const double outer_radius, const unsigned int n_cells=0, const bool colorize=false)
void quarter_hyper_ball(Triangulation< dim > &tria, const Point< dim > &center=Point< dim >(), const double radius=1.)
void cylinder_shell(Triangulation< dim > &tria, const double length, const double inner_radius, const double outer_radius, const unsigned int n_radial_cells=0, const unsigned int n_axial_cells=0)
void cheese(Triangulation< dim, spacedim > &tria, const std::vector< unsigned int > &holes)
Rectangular domain with rectangular pattern of holes.
void torus(Triangulation< dim, spacedim > &tria, const double R, const double r, const unsigned int n_cells_toroidal=6, const double phi=2.0 *numbers::PI)
void subdivided_cylinder(Triangulation< dim > &tria, const unsigned int x_subdivisions, const double radius=1., const double half_length=1.)
void channel_with_cylinder(Triangulation< dim > &tria, const double shell_region_width=0.03, const unsigned int n_shells=2, const double skewness=2.0, const bool colorize=false)
void hyper_sphere(Triangulation< spacedim - 1, spacedim > &tria, const Point< spacedim > &center=Point< spacedim >(), const double radius=1.)
void concentric_hyper_shells(Triangulation< dim > &triangulation, const Point< dim > &center, const double inner_radius=0.125, const double outer_radius=0.25, const unsigned int n_shells=1, const double skewness=0.1, const unsigned int n_cells_per_shell=0, const bool colorize=false)
void subdivided_hyper_rectangle(Triangulation< dim, spacedim > &tria, const std::vector< unsigned int > &repetitions, const Point< dim > &p1, const Point< dim > &p2, const bool colorize=false)
void quarter_hyper_shell(Triangulation< dim > &tria, const Point< dim > &center, const double inner_radius, const double outer_radius, const unsigned int n_cells=0, const bool colorize=false)
void hyper_cube(Triangulation< dim, spacedim > &tria, const double left=0., const double right=1., const bool colorize=false)
void hyper_shell(Triangulation< dim > &tria, const Point< dim > &center, const double inner_radius, const double outer_radius, const unsigned int n_cells=0, bool colorize=false)
void simplex(Triangulation< dim, dim > &tria, const std::vector< Point< dim > > &vertices)
void hyper_cube_with_cylindrical_hole(Triangulation< dim > &triangulation, const double inner_radius=.25, const double outer_radius=.5, const double L=.5, const unsigned int repetitions=1, const bool colorize=false)
void truncated_cone(Triangulation< dim > &tria, const double radius_0=1.0, const double radius_1=0.5, const double half_length=1.0)
void half_hyper_ball(Triangulation< dim > &tria, const Point< dim > &center=Point< dim >(), const double radius=1.)
MutableBind< ReturnType, FunctionArgs... > mutable_bind(ReturnType(*function)(FunctionArgs...), typename identity< FunctionArgs >::type &&... arguments)
unsigned int manifold_id
Definition: types.h:141