1d7b241e6Sjeremylt // Copyright (c) 2017, Lawrence Livermore National Security, LLC. Produced at 2d7b241e6Sjeremylt // the Lawrence Livermore National Laboratory. LLNL-CODE-734707. All Rights 3d7b241e6Sjeremylt // reserved. See files LICENSE and NOTICE for details. 4d7b241e6Sjeremylt // 5d7b241e6Sjeremylt // This file is part of CEED, a collection of benchmarks, miniapps, software 6d7b241e6Sjeremylt // libraries and APIs for efficient high-order finite element and spectral 7d7b241e6Sjeremylt // element discretizations for exascale applications. For more information and 8d7b241e6Sjeremylt // source code availability see http://github.com/ceed. 9d7b241e6Sjeremylt // 10d7b241e6Sjeremylt // The CEED research is supported by the Exascale Computing Project 17-SC-20-SC, 11d7b241e6Sjeremylt // a collaborative effort of two U.S. Department of Energy organizations (Office 12d7b241e6Sjeremylt // of Science and the National Nuclear Security Administration) responsible for 13d7b241e6Sjeremylt // the planning and preparation of a capable exascale ecosystem, including 14d7b241e6Sjeremylt // software, applications, hardware, advanced system engineering and early 15d7b241e6Sjeremylt // testbed platforms, in support of the nation's exascale computing imperative. 16d7b241e6Sjeremylt 17d7b241e6Sjeremylt #include <ceed-impl.h> 18d863ab9bSjeremylt #include <ceed-backend.h> 19d7b241e6Sjeremylt 20d7b241e6Sjeremylt /// @file 21d7b241e6Sjeremylt /// Implementation of public CeedElemRestriction interfaces 22d7b241e6Sjeremylt /// 23dfdf5a53Sjeremylt /// @addtogroup CeedElemRestriction 24d7b241e6Sjeremylt /// @{ 25d7b241e6Sjeremylt 26d7b241e6Sjeremylt /** 27b11c1e72Sjeremylt @brief Create a CeedElemRestriction 28d7b241e6Sjeremylt 29b11c1e72Sjeremylt @param ceed A Ceed object where the CeedElemRestriction will be created 30b11c1e72Sjeremylt @param nelem Number of elements described in the @a indices array 31b11c1e72Sjeremylt @param elemsize Size (number of "nodes") per element 32d7b241e6Sjeremylt @param ndof The total size of the input CeedVector to which the 33d7b241e6Sjeremylt restriction will be applied. This size may include data 34d7b241e6Sjeremylt used by other CeedElemRestriction objects describing 35d7b241e6Sjeremylt different types of elements. 36b11c1e72Sjeremylt @param ncomp Number of field components per interpolation node 37b11c1e72Sjeremylt @param mtype Memory type of the @a indices array, see CeedMemType 38b11c1e72Sjeremylt @param cmode Copy mode for the @a indices array, see CeedCopyMode 39ecf6354eSJed Brown @param indices Array of shape [@a nelem, @a elemsize]. Row i holds the ordered list 40d7b241e6Sjeremylt of the indices (into the input CeedVector) for the unknowns 41d7b241e6Sjeremylt corresponding to element i, where 0 <= i < @a nelements. 42d7b241e6Sjeremylt All indices must be in the range [0, @a ndof). 434ce2993fSjeremylt @param[out] rstr Address of the variable where the newly created 44b11c1e72Sjeremylt CeedElemRestriction will be stored 45d7b241e6Sjeremylt 46b11c1e72Sjeremylt @return An error code: 0 - success, otherwise - failure 47dfdf5a53Sjeremylt 48dfdf5a53Sjeremylt @ref Basic 49b11c1e72Sjeremylt **/ 50d7b241e6Sjeremylt int CeedElemRestrictionCreate(Ceed ceed, CeedInt nelem, CeedInt elemsize, 51d7b241e6Sjeremylt CeedInt ndof, CeedInt ncomp, CeedMemType mtype, 52d7b241e6Sjeremylt CeedCopyMode cmode, const CeedInt *indices, 534ce2993fSjeremylt CeedElemRestriction *rstr) { 54d7b241e6Sjeremylt int ierr; 55d7b241e6Sjeremylt 565fe0d4faSjeremylt if (!ceed->ElemRestrictionCreate) { 575fe0d4faSjeremylt Ceed delegate; 585fe0d4faSjeremylt ierr = CeedGetDelegate(ceed, &delegate); CeedChk(ierr); 595fe0d4faSjeremylt 605fe0d4faSjeremylt if (!delegate) 61d7b241e6Sjeremylt return CeedError(ceed, 1, "Backend does not support ElemRestrictionCreate"); 625fe0d4faSjeremylt 635fe0d4faSjeremylt ierr = CeedElemRestrictionCreate(delegate, nelem, elemsize, 645fe0d4faSjeremylt ndof, ncomp, mtype, cmode, 654ce2993fSjeremylt indices, rstr); CeedChk(ierr); 665fe0d4faSjeremylt return 0; 675fe0d4faSjeremylt } 685fe0d4faSjeremylt 694ce2993fSjeremylt ierr = CeedCalloc(1, rstr); CeedChk(ierr); 704ce2993fSjeremylt (*rstr)->ceed = ceed; 71d7b241e6Sjeremylt ceed->refcount++; 724ce2993fSjeremylt (*rstr)->refcount = 1; 734ce2993fSjeremylt (*rstr)->nelem = nelem; 744ce2993fSjeremylt (*rstr)->elemsize = elemsize; 754ce2993fSjeremylt (*rstr)->ndof = ndof; 764ce2993fSjeremylt (*rstr)->ncomp = ncomp; 774ce2993fSjeremylt (*rstr)->nblk = nelem; 784ce2993fSjeremylt (*rstr)->blksize = 1; 794ce2993fSjeremylt ierr = ceed->ElemRestrictionCreate(mtype, cmode, indices, *rstr); CeedChk(ierr); 80d7b241e6Sjeremylt return 0; 81d7b241e6Sjeremylt } 82d7b241e6Sjeremylt 83d7b241e6Sjeremylt /** 84b11c1e72Sjeremylt @brief Create an identity CeedElemRestriction 85d7b241e6Sjeremylt 86b11c1e72Sjeremylt @param ceed A Ceed object where the CeedElemRestriction will be created 87b11c1e72Sjeremylt @param nelem Number of elements described in the @a indices array 88b11c1e72Sjeremylt @param elemsize Size (number of "nodes") per element 89d7b241e6Sjeremylt @param ndof The total size of the input CeedVector to which the 90d7b241e6Sjeremylt restriction will be applied. This size may include data 91d7b241e6Sjeremylt used by other CeedElemRestriction objects describing 92b11c1e72Sjeremylt different types of elements 93b11c1e72Sjeremylt @param ncomp Number of field components per interpolation node 944ce2993fSjeremylt @param rstr Address of the variable where the newly created 95b11c1e72Sjeremylt CeedElemRestriction will be stored 96d7b241e6Sjeremylt 97b11c1e72Sjeremylt @return An error code: 0 - success, otherwise - failure 98dfdf5a53Sjeremylt 99dfdf5a53Sjeremylt @ref Basic 100b11c1e72Sjeremylt **/ 1014b8bea3bSJed Brown int CeedElemRestrictionCreateIdentity(Ceed ceed, CeedInt nelem, 1024b8bea3bSJed Brown CeedInt elemsize, 1034ce2993fSjeremylt CeedInt ndof, CeedInt ncomp, CeedElemRestriction *rstr) { 104d7b241e6Sjeremylt int ierr; 105d7b241e6Sjeremylt 1065fe0d4faSjeremylt if (!ceed->ElemRestrictionCreate) { 1075fe0d4faSjeremylt Ceed delegate; 1085fe0d4faSjeremylt ierr = CeedGetDelegate(ceed, &delegate); CeedChk(ierr); 1095fe0d4faSjeremylt 1105fe0d4faSjeremylt if (!delegate) 1114b8bea3bSJed Brown return CeedError(ceed, 1, 1125fe0d4faSjeremylt "Backend does not support ElemRestrictionCreate"); 1135fe0d4faSjeremylt 1145fe0d4faSjeremylt ierr = CeedElemRestrictionCreateIdentity(delegate, nelem, elemsize, 1154ce2993fSjeremylt ndof, ncomp, rstr); CeedChk(ierr); 1165fe0d4faSjeremylt return 0; 1175fe0d4faSjeremylt } 1185fe0d4faSjeremylt 1194ce2993fSjeremylt ierr = CeedCalloc(1, rstr); CeedChk(ierr); 1204ce2993fSjeremylt (*rstr)->ceed = ceed; 121d7b241e6Sjeremylt ceed->refcount++; 1224ce2993fSjeremylt (*rstr)->refcount = 1; 1234ce2993fSjeremylt (*rstr)->nelem = nelem; 1244ce2993fSjeremylt (*rstr)->elemsize = elemsize; 1254ce2993fSjeremylt (*rstr)->ndof = ndof; 1264ce2993fSjeremylt (*rstr)->ncomp = ncomp; 1274ce2993fSjeremylt (*rstr)->nblk = nelem; 1284ce2993fSjeremylt (*rstr)->blksize = 1; 1294ce2993fSjeremylt ierr = ceed->ElemRestrictionCreate(CEED_MEM_HOST, CEED_OWN_POINTER, NULL, *rstr); 1304b8bea3bSJed Brown CeedChk(ierr); 131d7b241e6Sjeremylt return 0; 132d7b241e6Sjeremylt } 133d7b241e6Sjeremylt 134d7b241e6Sjeremylt /** 135b11c1e72Sjeremylt @brief Permute and pad indices for a blocked restriction 136d7b241e6Sjeremylt 137ecf6354eSJed Brown @param indices Array of shape [@a nelem, @a elemsize]. Row i holds the ordered list 138d7b241e6Sjeremylt of the indices (into the input CeedVector) for the unknowns 139d7b241e6Sjeremylt corresponding to element i, where 0 <= i < @a nelements. 140d7b241e6Sjeremylt All indices must be in the range [0, @a ndof). 141ecf6354eSJed Brown @param blkindices Array of permuted and padded indices of 142ecf6354eSJed Brown shape [@a nblk, @a elemsize, @a blksize]. 143d7b241e6Sjeremylt @param nblk Number of blocks 144d7b241e6Sjeremylt @param nelem Number of elements 145d7b241e6Sjeremylt @param blksize Number of elements in a block 146d7b241e6Sjeremylt @param elemsize Size of each element 147d7b241e6Sjeremylt 148b11c1e72Sjeremylt @return An error code: 0 - success, otherwise - failure 149b11c1e72Sjeremylt 150dfdf5a53Sjeremylt @ref Utility 151b11c1e72Sjeremylt **/ 152dfdf5a53Sjeremylt int CeedPermutePadIndices(const CeedInt *indices, CeedInt *blkindices, 153d7b241e6Sjeremylt CeedInt nblk, CeedInt nelem, 154d7b241e6Sjeremylt CeedInt blksize, CeedInt elemsize) { 155d7b241e6Sjeremylt for (CeedInt e = 0; e < nblk*blksize; e+=blksize) 156d7b241e6Sjeremylt for (int j = 0; j < blksize; j++) 157d7b241e6Sjeremylt for (int k = 0; k < elemsize; k++) 158d7b241e6Sjeremylt blkindices[e*elemsize + k*blksize + j] 159d7b241e6Sjeremylt = indices[CeedIntMin(e+j,nelem-1)*elemsize + k]; 160dfdf5a53Sjeremylt return 0; 161d7b241e6Sjeremylt } 162d7b241e6Sjeremylt 163d7b241e6Sjeremylt /** 164b11c1e72Sjeremylt @brief Create a blocked CeedElemRestriction, typically only called by backends 165d7b241e6Sjeremylt 166d7b241e6Sjeremylt @param ceed A Ceed object where the CeedElemRestriction will be created. 167d7b241e6Sjeremylt @param nelem Number of elements described in the @a indices array. 168b11c1e72Sjeremylt @param elemsize Size (number of unknowns) per element 169b11c1e72Sjeremylt @param blksize Number of elements in a block 170d7b241e6Sjeremylt @param ndof The total size of the input CeedVector to which the 171d7b241e6Sjeremylt restriction will be applied. This size may include data 172d7b241e6Sjeremylt used by other CeedElemRestriction objects describing 173d7b241e6Sjeremylt different types of elements. 174b11c1e72Sjeremylt @param ncomp Number of components stored at each node 175b11c1e72Sjeremylt @param mtype Memory type of the @a indices array, see CeedMemType 176b11c1e72Sjeremylt @param cmode Copy mode for the @a indices array, see CeedCopyMode 177ecf6354eSJed Brown @param indices Array of shape [@a nelem, @a elemsize]. Row i holds the ordered list 178d7b241e6Sjeremylt of the indices (into the input CeedVector) for the unknowns 179d7b241e6Sjeremylt corresponding to element i, where 0 <= i < @a nelements. 180d7b241e6Sjeremylt All indices must be in the range [0, @a ndof). The 181d7b241e6Sjeremylt backend will permute and pad this array to the desired 182d7b241e6Sjeremylt ordering for the blocksize, which is typically given by the 183d7b241e6Sjeremylt backend. The default reordering is to interlace elements. 1844ce2993fSjeremylt @param rstr Address of the variable where the newly created 185b11c1e72Sjeremylt CeedElemRestriction will be stored 186d7b241e6Sjeremylt 187b11c1e72Sjeremylt @return An error code: 0 - success, otherwise - failure 188dfdf5a53Sjeremylt 189dfdf5a53Sjeremylt @ref Advanced 190b11c1e72Sjeremylt **/ 191d7b241e6Sjeremylt int CeedElemRestrictionCreateBlocked(Ceed ceed, CeedInt nelem, CeedInt elemsize, 192d7b241e6Sjeremylt CeedInt blksize, CeedInt ndof, CeedInt ncomp, 193d7b241e6Sjeremylt CeedMemType mtype, CeedCopyMode cmode, 1944ce2993fSjeremylt const CeedInt *indices, 1954ce2993fSjeremylt CeedElemRestriction *rstr) { 196d7b241e6Sjeremylt int ierr; 197d7b241e6Sjeremylt CeedInt *blkindices; 198d7b241e6Sjeremylt CeedInt nblk = (nelem / blksize) + !!(nelem % blksize); 199d7b241e6Sjeremylt 2005fe0d4faSjeremylt if (!ceed->ElemRestrictionCreateBlocked) { 2015fe0d4faSjeremylt Ceed delegate; 2025fe0d4faSjeremylt ierr = CeedGetDelegate(ceed, &delegate); CeedChk(ierr); 2035fe0d4faSjeremylt 2045fe0d4faSjeremylt if (!delegate) 205d7b241e6Sjeremylt return CeedError(ceed, 1, 206d7b241e6Sjeremylt "Backend does not support ElemRestrictionCreateBlocked"); 2075fe0d4faSjeremylt 2085fe0d4faSjeremylt ierr = CeedElemRestrictionCreateBlocked(delegate, nelem, elemsize, 2095fe0d4faSjeremylt blksize, ndof, ncomp, mtype, cmode, 2104ce2993fSjeremylt indices, rstr); CeedChk(ierr); 2115fe0d4faSjeremylt return 0; 2125fe0d4faSjeremylt } 213d7b241e6Sjeremylt 2144ce2993fSjeremylt ierr = CeedCalloc(1, rstr); CeedChk(ierr); 215d7b241e6Sjeremylt 216d7b241e6Sjeremylt if (indices) { 217d7b241e6Sjeremylt ierr = CeedCalloc(nblk*blksize*elemsize, &blkindices); 2184b8bea3bSJed Brown ierr = CeedPermutePadIndices(indices, blkindices, nblk, nelem, blksize, 2194b8bea3bSJed Brown elemsize); 220dfdf5a53Sjeremylt CeedChk(ierr); 221d7b241e6Sjeremylt } else { 222d7b241e6Sjeremylt blkindices = NULL; 223d7b241e6Sjeremylt } 224d7b241e6Sjeremylt 2254ce2993fSjeremylt (*rstr)->ceed = ceed; 226d7b241e6Sjeremylt ceed->refcount++; 2274ce2993fSjeremylt (*rstr)->refcount = 1; 2284ce2993fSjeremylt (*rstr)->nelem = nelem; 2294ce2993fSjeremylt (*rstr)->elemsize = elemsize; 2304ce2993fSjeremylt (*rstr)->ndof = ndof; 2314ce2993fSjeremylt (*rstr)->ncomp = ncomp; 2324ce2993fSjeremylt (*rstr)->nblk = nblk; 2334ce2993fSjeremylt (*rstr)->blksize = blksize; 234667bc5fcSjeremylt ierr = ceed->ElemRestrictionCreateBlocked(CEED_MEM_HOST, CEED_OWN_POINTER, 2354ce2993fSjeremylt (const CeedInt *) blkindices, *rstr); 236d7b241e6Sjeremylt CeedChk(ierr); 237d7b241e6Sjeremylt 238d7b241e6Sjeremylt if (cmode == CEED_OWN_POINTER) 239d7b241e6Sjeremylt ierr = CeedFree(&indices); CeedChk(ierr); 240d7b241e6Sjeremylt 241d7b241e6Sjeremylt return 0; 242d7b241e6Sjeremylt } 243d7b241e6Sjeremylt 244b11c1e72Sjeremylt /** 245b11c1e72Sjeremylt @brief Create CeedVectors associated with a CeedElemRestriction 246b11c1e72Sjeremylt 2474ce2993fSjeremylt @param rstr CeedElemRestriction 248b11c1e72Sjeremylt @param lvec The address of the L-vector to be created, or NULL 249b11c1e72Sjeremylt @param evec The address of the E-vector to be created, or NULL 250b11c1e72Sjeremylt 251b11c1e72Sjeremylt @return An error code: 0 - success, otherwise - failure 252dfdf5a53Sjeremylt 253dfdf5a53Sjeremylt @ref Advanced 254b11c1e72Sjeremylt **/ 2554ce2993fSjeremylt int CeedElemRestrictionCreateVector(CeedElemRestriction rstr, CeedVector *lvec, 256d7b241e6Sjeremylt CeedVector *evec) { 257d7b241e6Sjeremylt int ierr; 258d7b241e6Sjeremylt CeedInt n, m; 2594ce2993fSjeremylt m = rstr->ndof * rstr->ncomp; 2604ce2993fSjeremylt n = rstr->nblk * rstr->blksize * rstr->elemsize * rstr->ncomp; 261d7b241e6Sjeremylt if (lvec) { 2624ce2993fSjeremylt ierr = CeedVectorCreate(rstr->ceed, m, lvec); CeedChk(ierr); 263d7b241e6Sjeremylt } 264d7b241e6Sjeremylt if (evec) { 2654ce2993fSjeremylt ierr = CeedVectorCreate(rstr->ceed, n, evec); CeedChk(ierr); 266d7b241e6Sjeremylt } 267d7b241e6Sjeremylt return 0; 268d7b241e6Sjeremylt } 269d7b241e6Sjeremylt 270d7b241e6Sjeremylt /** 271b11c1e72Sjeremylt @brief Restrict an L-vector to an E-vector or apply transpose 272d7b241e6Sjeremylt 2734ce2993fSjeremylt @param rstr CeedElemRestriction 274d7b241e6Sjeremylt @param tmode Apply restriction or transpose 275d7b241e6Sjeremylt @param lmode Ordering of the ncomp components 276d7b241e6Sjeremylt @param u Input vector (of size @a ndof when tmode=CEED_NOTRANSPOSE) 277d7b241e6Sjeremylt @param v Output vector (of size @a nelem * @a elemsize when tmode=CEED_NOTRANSPOSE) 278d7b241e6Sjeremylt @param request Request or CEED_REQUEST_IMMEDIATE 279b11c1e72Sjeremylt 280b11c1e72Sjeremylt @return An error code: 0 - success, otherwise - failure 281dfdf5a53Sjeremylt 282dfdf5a53Sjeremylt @ref Advanced 283b11c1e72Sjeremylt **/ 2844ce2993fSjeremylt int CeedElemRestrictionApply(CeedElemRestriction rstr, CeedTransposeMode tmode, 285d7b241e6Sjeremylt CeedTransposeMode lmode, 286d7b241e6Sjeremylt CeedVector u, CeedVector v, CeedRequest *request) { 287d7b241e6Sjeremylt CeedInt m,n; 288d7b241e6Sjeremylt int ierr; 289d7b241e6Sjeremylt 290d7b241e6Sjeremylt if (tmode == CEED_NOTRANSPOSE) { 2914ce2993fSjeremylt m = rstr->nblk * rstr->blksize * rstr->elemsize * rstr->ncomp; 2924ce2993fSjeremylt n = rstr->ndof * rstr->ncomp; 293d7b241e6Sjeremylt } else { 2944ce2993fSjeremylt m = rstr->ndof * rstr->ncomp; 2954ce2993fSjeremylt n = rstr->nblk * rstr->blksize * rstr->elemsize * rstr->ncomp; 296d7b241e6Sjeremylt } 297d7b241e6Sjeremylt if (n != u->length) 2984ce2993fSjeremylt return CeedError(rstr->ceed, 2, 299d7b241e6Sjeremylt "Input vector size %d not compatible with element restriction (%d, %d)", 300d7b241e6Sjeremylt u->length, m, n); 301d7b241e6Sjeremylt if (m != v->length) 3024ce2993fSjeremylt return CeedError(rstr->ceed, 2, 303d7b241e6Sjeremylt "Output vector size %d not compatible with element restriction (%d, %d)", 304d7b241e6Sjeremylt v->length, m, n); 3054ce2993fSjeremylt ierr = rstr->Apply(rstr, tmode, lmode, u, v, request); CeedChk(ierr); 306d7b241e6Sjeremylt 307d7b241e6Sjeremylt return 0; 308d7b241e6Sjeremylt } 309d7b241e6Sjeremylt 310d7b241e6Sjeremylt /** 3114ce2993fSjeremylt @brief Get the Ceed associated with a CeedElemRestriction 3124ce2993fSjeremylt 3134ce2993fSjeremylt @param rstr CeedElemRestriction 3144ce2993fSjeremylt @param[out] ceed Variable to store Ceed 3154ce2993fSjeremylt 3164ce2993fSjeremylt @return An error code: 0 - success, otherwise - failure 3174ce2993fSjeremylt 31823617272Sjeremylt @ref Advanced 3194ce2993fSjeremylt **/ 3204ce2993fSjeremylt int CeedElemRestrictionGetCeed(CeedElemRestriction rstr, Ceed *ceed) { 3214ce2993fSjeremylt *ceed = rstr->ceed; 3224ce2993fSjeremylt return 0; 3234ce2993fSjeremylt } 3244ce2993fSjeremylt 3254ce2993fSjeremylt /** 326b11c1e72Sjeremylt @brief Get the total number of elements in the range of a CeedElemRestriction 327d7b241e6Sjeremylt 3284ce2993fSjeremylt @param rstr CeedElemRestriction 3294ce2993fSjeremylt @param[out] numelements Variable to store number of elements 330b11c1e72Sjeremylt 331b11c1e72Sjeremylt @return An error code: 0 - success, otherwise - failure 332dfdf5a53Sjeremylt 33323617272Sjeremylt @ref Advanced 334b11c1e72Sjeremylt **/ 3354ce2993fSjeremylt int CeedElemRestrictionGetNumElements(CeedElemRestriction rstr, 3364ce2993fSjeremylt CeedInt *numelem) { 3374ce2993fSjeremylt *numelem = rstr->nelem; 3384ce2993fSjeremylt return 0; 3394ce2993fSjeremylt } 3404ce2993fSjeremylt 3414ce2993fSjeremylt /** 3424ce2993fSjeremylt @brief Get the size of elements in the CeedElemRestriction 3434ce2993fSjeremylt 3444ce2993fSjeremylt @param rstr CeedElemRestriction 3454ce2993fSjeremylt @param[out] elemsize Variable to store size of elements 3464ce2993fSjeremylt 3474ce2993fSjeremylt @return An error code: 0 - success, otherwise - failure 3484ce2993fSjeremylt 34923617272Sjeremylt @ref Advanced 3504ce2993fSjeremylt **/ 3514ce2993fSjeremylt int CeedElemRestrictionGetElementSize(CeedElemRestriction rstr, 3524ce2993fSjeremylt CeedInt *elemsize) { 3534ce2993fSjeremylt *elemsize = rstr->elemsize; 3544ce2993fSjeremylt return 0; 3554ce2993fSjeremylt } 3564ce2993fSjeremylt 3574ce2993fSjeremylt /** 3584ce2993fSjeremylt @brief Get the number of degrees of freedom in the range of a 3594ce2993fSjeremylt CeedElemRestriction 3604ce2993fSjeremylt 3614ce2993fSjeremylt @param rstr CeedElemRestriction 3624ce2993fSjeremylt @param[out] numdof Variable to store number of DoFs 3634ce2993fSjeremylt 3644ce2993fSjeremylt @return An error code: 0 - success, otherwise - failure 3654ce2993fSjeremylt 36623617272Sjeremylt @ref Advanced 3674ce2993fSjeremylt **/ 3684ce2993fSjeremylt int CeedElemRestrictionGetNumDoF(CeedElemRestriction rstr, 3694ce2993fSjeremylt CeedInt *numdof) { 3704ce2993fSjeremylt *numdof = rstr->ndof; 3714ce2993fSjeremylt return 0; 3724ce2993fSjeremylt } 3734ce2993fSjeremylt 3744ce2993fSjeremylt /** 3754ce2993fSjeremylt @brief Get the number of components in the elements of a 3764ce2993fSjeremylt CeedElemRestriction 3774ce2993fSjeremylt 3784ce2993fSjeremylt @param rstr CeedElemRestriction 3794ce2993fSjeremylt @param[out] numcomp Variable to store number of components 3804ce2993fSjeremylt 3814ce2993fSjeremylt @return An error code: 0 - success, otherwise - failure 3824ce2993fSjeremylt 38323617272Sjeremylt @ref Advanced 3844ce2993fSjeremylt **/ 3854ce2993fSjeremylt int CeedElemRestrictionGetNumComponents(CeedElemRestriction rstr, 3864ce2993fSjeremylt CeedInt *numcomp) { 3874ce2993fSjeremylt *numcomp = rstr->ncomp; 3884ce2993fSjeremylt return 0; 3894ce2993fSjeremylt } 3904ce2993fSjeremylt 3914ce2993fSjeremylt /** 3924ce2993fSjeremylt @brief Get the number of blocks in a CeedElemRestriction 3934ce2993fSjeremylt 3944ce2993fSjeremylt @param rstr CeedElemRestriction 3954ce2993fSjeremylt @param[out] numblock Variable to store number of blocks 3964ce2993fSjeremylt 3974ce2993fSjeremylt @return An error code: 0 - success, otherwise - failure 3984ce2993fSjeremylt 39923617272Sjeremylt @ref Advanced 4004ce2993fSjeremylt **/ 4014ce2993fSjeremylt int CeedElemRestrictionGetNumBlocks(CeedElemRestriction rstr, 4024ce2993fSjeremylt CeedInt *numblock) { 4034ce2993fSjeremylt *numblock = rstr->nblk; 4044ce2993fSjeremylt return 0; 4054ce2993fSjeremylt } 4064ce2993fSjeremylt 4074ce2993fSjeremylt /** 4084ce2993fSjeremylt @brief Get the size of blocks in the CeedElemRestriction 4094ce2993fSjeremylt 4104ce2993fSjeremylt @param r CeedElemRestriction 4114ce2993fSjeremylt @param[out] blksize Variable to store size of blocks 4124ce2993fSjeremylt 4134ce2993fSjeremylt @return An error code: 0 - success, otherwise - failure 4144ce2993fSjeremylt 41523617272Sjeremylt @ref Advanced 4164ce2993fSjeremylt **/ 4174ce2993fSjeremylt int CeedElemRestrictionGetBlockSize(CeedElemRestriction rstr, 4184ce2993fSjeremylt CeedInt *blksize) { 4194ce2993fSjeremylt *blksize = rstr->blksize; 4204ce2993fSjeremylt return 0; 4214ce2993fSjeremylt } 4224ce2993fSjeremylt 4234ce2993fSjeremylt /** 4244ce2993fSjeremylt @brief Get the backend data of a CeedElemRestriction 4254ce2993fSjeremylt 4264ce2993fSjeremylt @param r CeedElemRestriction 4274ce2993fSjeremylt @param[out] data Variable to store data 4284ce2993fSjeremylt 4294ce2993fSjeremylt @return An error code: 0 - success, otherwise - failure 4304ce2993fSjeremylt 43123617272Sjeremylt @ref Advanced 4324ce2993fSjeremylt **/ 4334ce2993fSjeremylt int CeedElemRestrictionGetData(CeedElemRestriction rstr, 4344ce2993fSjeremylt void* *data) { 4354ce2993fSjeremylt *data = rstr->data; 436d7b241e6Sjeremylt return 0; 437d7b241e6Sjeremylt } 438d7b241e6Sjeremylt 439d7b241e6Sjeremylt /** 440*fe2413ffSjeremylt @brief Set the backend data of a CeedElemRestriction 441*fe2413ffSjeremylt 442*fe2413ffSjeremylt @param[out] r CeedElemRestriction 443*fe2413ffSjeremylt @param data Data to set 444*fe2413ffSjeremylt 445*fe2413ffSjeremylt @return An error code: 0 - success, otherwise - failure 446*fe2413ffSjeremylt 447*fe2413ffSjeremylt @ref Advanced 448*fe2413ffSjeremylt **/ 449*fe2413ffSjeremylt int CeedElemRestrictionSetData(CeedElemRestriction rstr, 450*fe2413ffSjeremylt void* *data) { 451*fe2413ffSjeremylt rstr->data = *data; 452*fe2413ffSjeremylt return 0; 453*fe2413ffSjeremylt } 454*fe2413ffSjeremylt 455*fe2413ffSjeremylt /** 456b11c1e72Sjeremylt @brief Destroy a CeedElemRestriction 457b11c1e72Sjeremylt 4584ce2993fSjeremylt @param rstr CeedElemRestriction to destroy 459b11c1e72Sjeremylt 460b11c1e72Sjeremylt @return An error code: 0 - success, otherwise - failure 461dfdf5a53Sjeremylt 462dfdf5a53Sjeremylt @ref Basic 463b11c1e72Sjeremylt **/ 4644ce2993fSjeremylt int CeedElemRestrictionDestroy(CeedElemRestriction *rstr) { 465d7b241e6Sjeremylt int ierr; 466d7b241e6Sjeremylt 4674ce2993fSjeremylt if (!*rstr || --(*rstr)->refcount > 0) return 0; 4684ce2993fSjeremylt if ((*rstr)->Destroy) { 4694ce2993fSjeremylt ierr = (*rstr)->Destroy(*rstr); CeedChk(ierr); 470d7b241e6Sjeremylt } 4714ce2993fSjeremylt ierr = CeedDestroy(&(*rstr)->ceed); CeedChk(ierr); 4724ce2993fSjeremylt ierr = CeedFree(rstr); CeedChk(ierr); 473d7b241e6Sjeremylt return 0; 474d7b241e6Sjeremylt } 475d7b241e6Sjeremylt 476d7b241e6Sjeremylt /// @} 477