Actual source code: space.c
petsc-3.13.6 2020-09-29
1: #include <petsc/private/petscfeimpl.h>
2: #include <petscdmshell.h>
4: PetscClassId PETSCSPACE_CLASSID = 0;
6: PetscFunctionList PetscSpaceList = NULL;
7: PetscBool PetscSpaceRegisterAllCalled = PETSC_FALSE;
9: /*@C
10: PetscSpaceRegister - Adds a new PetscSpace implementation
12: Not Collective
14: Input Parameters:
15: + name - The name of a new user-defined creation routine
16: - create_func - The creation routine for the implementation type
18: Notes:
19: PetscSpaceRegister() may be called multiple times to add several user-defined types of PetscSpaces. The creation function is called
20: when the type is set to 'name'.
22: Sample usage:
23: .vb
24: PetscSpaceRegister("my_space", MyPetscSpaceCreate);
25: .ve
27: Then, your PetscSpace type can be chosen with the procedural interface via
28: .vb
29: PetscSpaceCreate(MPI_Comm, PetscSpace *);
30: PetscSpaceSetType(PetscSpace, "my_space");
31: .ve
32: or at runtime via the option
33: .vb
34: -petscspace_type my_space
35: .ve
37: Level: advanced
39: .seealso: PetscSpaceRegisterAll(), PetscSpaceRegisterDestroy()
41: @*/
42: PetscErrorCode PetscSpaceRegister(const char sname[], PetscErrorCode (*function)(PetscSpace))
43: {
47: PetscFunctionListAdd(&PetscSpaceList, sname, function);
48: return(0);
49: }
51: /*@C
52: PetscSpaceSetType - Builds a particular PetscSpace
54: Collective on sp
56: Input Parameters:
57: + sp - The PetscSpace object
58: - name - The kind of space
60: Options Database Key:
61: . -petscspace_type <type> - Sets the PetscSpace type; use -help for a list of available types
63: Level: intermediate
65: .seealso: PetscSpaceGetType(), PetscSpaceCreate()
66: @*/
67: PetscErrorCode PetscSpaceSetType(PetscSpace sp, PetscSpaceType name)
68: {
69: PetscErrorCode (*r)(PetscSpace);
70: PetscBool match;
75: PetscObjectTypeCompare((PetscObject) sp, name, &match);
76: if (match) return(0);
78: PetscSpaceRegisterAll();
79: PetscFunctionListFind(PetscSpaceList, name, &r);
80: if (!r) SETERRQ1(PetscObjectComm((PetscObject) sp), PETSC_ERR_ARG_UNKNOWN_TYPE, "Unknown PetscSpace type: %s", name);
82: if (sp->ops->destroy) {
83: (*sp->ops->destroy)(sp);
84: sp->ops->destroy = NULL;
85: }
86: sp->dim = PETSC_DETERMINE;
87: (*r)(sp);
88: PetscObjectChangeTypeName((PetscObject) sp, name);
89: return(0);
90: }
92: /*@C
93: PetscSpaceGetType - Gets the PetscSpace type name (as a string) from the object.
95: Not Collective
97: Input Parameter:
98: . sp - The PetscSpace
100: Output Parameter:
101: . name - The PetscSpace type name
103: Level: intermediate
105: .seealso: PetscSpaceSetType(), PetscSpaceCreate()
106: @*/
107: PetscErrorCode PetscSpaceGetType(PetscSpace sp, PetscSpaceType *name)
108: {
114: if (!PetscSpaceRegisterAllCalled) {
115: PetscSpaceRegisterAll();
116: }
117: *name = ((PetscObject) sp)->type_name;
118: return(0);
119: }
121: /*@C
122: PetscSpaceViewFromOptions - View from Options
124: Collective on PetscSpace
126: Input Parameters:
127: + A - the PetscSpace object
128: . obj - Optional object
129: - name - command line option
131: Level: intermediate
132: .seealso: PetscSpace, PetscSpaceView, PetscObjectViewFromOptions(), PetscSpaceCreate()
133: @*/
134: PetscErrorCode PetscSpaceViewFromOptions(PetscSpace A,PetscObject obj,const char name[])
135: {
140: PetscObjectViewFromOptions((PetscObject)A,obj,name);
141: return(0);
142: }
144: /*@C
145: PetscSpaceView - Views a PetscSpace
147: Collective on sp
149: Input Parameter:
150: + sp - the PetscSpace object to view
151: - v - the viewer
153: Level: beginner
155: .seealso PetscSpaceDestroy()
156: @*/
157: PetscErrorCode PetscSpaceView(PetscSpace sp, PetscViewer v)
158: {
159: PetscInt pdim;
160: PetscBool iascii;
166: if (!v) {PetscViewerASCIIGetStdout(PetscObjectComm((PetscObject) sp), &v);}
167: PetscSpaceGetDimension(sp, &pdim);
168: PetscObjectPrintClassNamePrefixType((PetscObject)sp,v);
169: PetscObjectTypeCompare((PetscObject) v, PETSCVIEWERASCII, &iascii);
170: PetscViewerASCIIPushTab(v);
171: if (iascii) {PetscViewerASCIIPrintf(v, "Space in %D variables with %D components, size %D\n", sp->Nv, sp->Nc, pdim);}
172: if (sp->ops->view) {(*sp->ops->view)(sp, v);}
173: PetscViewerASCIIPopTab(v);
174: return(0);
175: }
177: /*@
178: PetscSpaceSetFromOptions - sets parameters in a PetscSpace from the options database
180: Collective on sp
182: Input Parameter:
183: . sp - the PetscSpace object to set options for
185: Options Database:
186: . -petscspace_degree the approximation order of the space
188: Level: intermediate
190: .seealso PetscSpaceView()
191: @*/
192: PetscErrorCode PetscSpaceSetFromOptions(PetscSpace sp)
193: {
194: const char *defaultType;
195: char name[256];
196: PetscBool flg;
201: if (!((PetscObject) sp)->type_name) {
202: defaultType = PETSCSPACEPOLYNOMIAL;
203: } else {
204: defaultType = ((PetscObject) sp)->type_name;
205: }
206: if (!PetscSpaceRegisterAllCalled) {PetscSpaceRegisterAll();}
208: PetscObjectOptionsBegin((PetscObject) sp);
209: PetscOptionsFList("-petscspace_type", "Linear space", "PetscSpaceSetType", PetscSpaceList, defaultType, name, 256, &flg);
210: if (flg) {
211: PetscSpaceSetType(sp, name);
212: } else if (!((PetscObject) sp)->type_name) {
213: PetscSpaceSetType(sp, defaultType);
214: }
215: {
216: PetscOptionsDeprecated("-petscspace_order","-petscspace_degree","3.11",NULL);
217: PetscOptionsBoundedInt("-petscspace_order", "DEPRECATED: The approximation order", "PetscSpaceSetDegree", sp->degree, &sp->degree, NULL,0);
218: }
219: PetscOptionsBoundedInt("-petscspace_degree", "The (maximally included) polynomial degree", "PetscSpaceSetDegree", sp->degree, &sp->degree, NULL,0);
220: PetscOptionsBoundedInt("-petscspace_variables", "The number of different variables, e.g. x and y", "PetscSpaceSetNumVariables", sp->Nv, &sp->Nv, NULL,0);
221: PetscOptionsBoundedInt("-petscspace_components", "The number of components", "PetscSpaceSetNumComponents", sp->Nc, &sp->Nc, NULL,0);
222: if (sp->ops->setfromoptions) {
223: (*sp->ops->setfromoptions)(PetscOptionsObject,sp);
224: }
225: /* process any options handlers added with PetscObjectAddOptionsHandler() */
226: PetscObjectProcessOptionsHandlers(PetscOptionsObject,(PetscObject) sp);
227: PetscOptionsEnd();
228: PetscSpaceViewFromOptions(sp, NULL, "-petscspace_view");
229: return(0);
230: }
232: /*@C
233: PetscSpaceSetUp - Construct data structures for the PetscSpace
235: Collective on sp
237: Input Parameter:
238: . sp - the PetscSpace object to setup
240: Level: intermediate
242: .seealso PetscSpaceView(), PetscSpaceDestroy()
243: @*/
244: PetscErrorCode PetscSpaceSetUp(PetscSpace sp)
245: {
250: if (sp->ops->setup) {(*sp->ops->setup)(sp);}
251: return(0);
252: }
254: /*@
255: PetscSpaceDestroy - Destroys a PetscSpace object
257: Collective on sp
259: Input Parameter:
260: . sp - the PetscSpace object to destroy
262: Level: beginner
264: .seealso PetscSpaceView()
265: @*/
266: PetscErrorCode PetscSpaceDestroy(PetscSpace *sp)
267: {
271: if (!*sp) return(0);
274: if (--((PetscObject)(*sp))->refct > 0) {*sp = 0; return(0);}
275: ((PetscObject) (*sp))->refct = 0;
276: DMDestroy(&(*sp)->dm);
278: (*(*sp)->ops->destroy)(*sp);
279: PetscHeaderDestroy(sp);
280: return(0);
281: }
283: /*@
284: PetscSpaceCreate - Creates an empty PetscSpace object. The type can then be set with PetscSpaceSetType().
286: Collective
288: Input Parameter:
289: . comm - The communicator for the PetscSpace object
291: Output Parameter:
292: . sp - The PetscSpace object
294: Level: beginner
296: .seealso: PetscSpaceSetType(), PETSCSPACEPOLYNOMIAL
297: @*/
298: PetscErrorCode PetscSpaceCreate(MPI_Comm comm, PetscSpace *sp)
299: {
300: PetscSpace s;
305: PetscCitationsRegister(FECitation,&FEcite);
306: *sp = NULL;
307: PetscFEInitializePackage();
309: PetscHeaderCreate(s, PETSCSPACE_CLASSID, "PetscSpace", "Linear Space", "PetscSpace", comm, PetscSpaceDestroy, PetscSpaceView);
311: s->degree = 0;
312: s->maxDegree = PETSC_DETERMINE;
313: s->Nc = 1;
314: s->Nv = 0;
315: s->dim = PETSC_DETERMINE;
316: DMShellCreate(comm, &s->dm);
317: PetscSpaceSetType(s, PETSCSPACEPOLYNOMIAL);
319: *sp = s;
320: return(0);
321: }
323: /*@
324: PetscSpaceGetDimension - Return the dimension of this space, i.e. the number of basis vectors
326: Input Parameter:
327: . sp - The PetscSpace
329: Output Parameter:
330: . dim - The dimension
332: Level: intermediate
334: .seealso: PetscSpaceGetDegree(), PetscSpaceCreate(), PetscSpace
335: @*/
336: PetscErrorCode PetscSpaceGetDimension(PetscSpace sp, PetscInt *dim)
337: {
343: if (sp->dim == PETSC_DETERMINE) {
344: if (sp->ops->getdimension) {(*sp->ops->getdimension)(sp, &sp->dim);}
345: }
346: *dim = sp->dim;
347: return(0);
348: }
350: /*@
351: PetscSpaceGetDegree - Return the polynomial degrees that characterize this space
353: Input Parameter:
354: . sp - The PetscSpace
356: Output Parameter:
357: + minDegree - The degree of the largest polynomial space contained in the space
358: - maxDegree - The degree of the smallest polynomial space containing the space
361: Level: intermediate
363: .seealso: PetscSpaceSetDegree(), PetscSpaceGetDimension(), PetscSpaceCreate(), PetscSpace
364: @*/
365: PetscErrorCode PetscSpaceGetDegree(PetscSpace sp, PetscInt *minDegree, PetscInt *maxDegree)
366: {
371: if (minDegree) *minDegree = sp->degree;
372: if (maxDegree) *maxDegree = sp->maxDegree;
373: return(0);
374: }
376: /*@
377: PetscSpaceSetDegree - Set the degree of approximation for this space.
379: Input Parameters:
380: + sp - The PetscSpace
381: . degree - The degree of the largest polynomial space contained in the space
382: - maxDegree - The degree of the largest polynomial space containing the space. One of degree and maxDegree can be PETSC_DETERMINE.
384: Level: intermediate
386: .seealso: PetscSpaceGetDegree(), PetscSpaceCreate(), PetscSpace
387: @*/
388: PetscErrorCode PetscSpaceSetDegree(PetscSpace sp, PetscInt degree, PetscInt maxDegree)
389: {
392: sp->degree = degree;
393: sp->maxDegree = maxDegree;
394: return(0);
395: }
397: /*@
398: PetscSpaceGetNumComponents - Return the number of components for this space
400: Input Parameter:
401: . sp - The PetscSpace
403: Output Parameter:
404: . Nc - The number of components
406: Note: A vector space, for example, will have d components, where d is the spatial dimension
408: Level: intermediate
410: .seealso: PetscSpaceSetNumComponents(), PetscSpaceGetNumVariables(), PetscSpaceGetDimension(), PetscSpaceCreate(), PetscSpace
411: @*/
412: PetscErrorCode PetscSpaceGetNumComponents(PetscSpace sp, PetscInt *Nc)
413: {
417: *Nc = sp->Nc;
418: return(0);
419: }
421: /*@
422: PetscSpaceSetNumComponents - Set the number of components for this space
424: Input Parameters:
425: + sp - The PetscSpace
426: - order - The number of components
428: Level: intermediate
430: .seealso: PetscSpaceGetNumComponents(), PetscSpaceSetNumVariables(), PetscSpaceCreate(), PetscSpace
431: @*/
432: PetscErrorCode PetscSpaceSetNumComponents(PetscSpace sp, PetscInt Nc)
433: {
436: sp->Nc = Nc;
437: return(0);
438: }
440: /*@
441: PetscSpaceSetNumVariables - Set the number of variables for this space
443: Input Parameters:
444: + sp - The PetscSpace
445: - n - The number of variables, e.g. x, y, z...
447: Level: intermediate
449: .seealso: PetscSpaceGetNumVariables(), PetscSpaceSetNumComponents(), PetscSpaceCreate(), PetscSpace
450: @*/
451: PetscErrorCode PetscSpaceSetNumVariables(PetscSpace sp, PetscInt n)
452: {
455: sp->Nv = n;
456: return(0);
457: }
459: /*@
460: PetscSpaceGetNumVariables - Return the number of variables for this space
462: Input Parameter:
463: . sp - The PetscSpace
465: Output Parameter:
466: . Nc - The number of variables, e.g. x, y, z...
468: Level: intermediate
470: .seealso: PetscSpaceSetNumVariables(), PetscSpaceGetNumComponents(), PetscSpaceGetDimension(), PetscSpaceCreate(), PetscSpace
471: @*/
472: PetscErrorCode PetscSpaceGetNumVariables(PetscSpace sp, PetscInt *n)
473: {
477: *n = sp->Nv;
478: return(0);
479: }
481: /*@C
482: PetscSpaceEvaluate - Evaluate the basis functions and their derivatives (jet) at each point
484: Input Parameters:
485: + sp - The PetscSpace
486: . npoints - The number of evaluation points, in reference coordinates
487: - points - The point coordinates
489: Output Parameters:
490: + B - The function evaluations in a npoints x nfuncs array
491: . D - The derivative evaluations in a npoints x nfuncs x dim array
492: - H - The second derivative evaluations in a npoints x nfuncs x dim x dim array
494: Note: Above nfuncs is the dimension of the space, and dim is the spatial dimension. The coordinates are given
495: on the reference cell, not in real space.
497: Level: beginner
499: .seealso: PetscFECreateTabulation(), PetscFEGetCellTabulation(), PetscSpaceCreate()
500: @*/
501: PetscErrorCode PetscSpaceEvaluate(PetscSpace sp, PetscInt npoints, const PetscReal points[], PetscReal B[], PetscReal D[], PetscReal H[])
502: {
506: if (!npoints) return(0);
512: if (sp->ops->evaluate) {(*sp->ops->evaluate)(sp, npoints, points, B, D, H);}
513: return(0);
514: }
516: /*@
517: PetscSpaceGetHeightSubspace - Get the subset of the primal space basis that is supported on a mesh point of a given height.
519: If the space is not defined on mesh points of the given height (e.g. if the space is discontinuous and
520: pointwise values are not defined on the element boundaries), or if the implementation of PetscSpace does not
521: support extracting subspaces, then NULL is returned.
523: This does not increment the reference count on the returned space, and the user should not destroy it.
525: Not collective
527: Input Parameters:
528: + sp - the PetscSpace object
529: - height - the height of the mesh point for which the subspace is desired
531: Output Parameter:
532: . subsp - the subspace
534: Level: advanced
536: .seealso: PetscDualSpaceGetHeightSubspace(), PetscSpace
537: @*/
538: PetscErrorCode PetscSpaceGetHeightSubspace(PetscSpace sp, PetscInt height, PetscSpace *subsp)
539: {
545: *subsp = NULL;
546: if (sp->ops->getheightsubspace) {
547: (*sp->ops->getheightsubspace)(sp, height, subsp);
548: }
549: return(0);
550: }