// Copyright (c) 2017-2022, Lawrence Livermore National Security, LLC and other CEED contributors. // All Rights Reserved. See the top-level LICENSE and NOTICE files for details. // // SPDX-License-Identifier: BSD-2-Clause // // This file is part of CEED: http://github.com/ceed #include #include #include #include #include "ceed-ref.h" //------------------------------------------------------------------------------ // Core ElemRestriction Apply Code //------------------------------------------------------------------------------ static inline int CeedElemRestrictionApply_Ref_Core(CeedElemRestriction r, const CeedInt num_comp, const CeedInt blk_size, const CeedInt comp_stride, CeedInt start, CeedInt stop, bool use_orients, CeedTransposeMode t_mode, CeedVector u, CeedVector v, CeedRequest *request) { CeedElemRestriction_Ref *impl; CeedCallBackend(CeedElemRestrictionGetData(r, &impl)); const CeedScalar *uu; CeedScalar *vv; CeedInt num_elem, elem_size, v_offset; CeedCallBackend(CeedElemRestrictionGetNumElements(r, &num_elem)); CeedCallBackend(CeedElemRestrictionGetElementSize(r, &elem_size)); v_offset = start * blk_size * elem_size * num_comp; bool is_oriented, is_curl_oriented; is_oriented = (impl->orients != NULL); is_curl_oriented = (impl->curl_orients != NULL); CeedCallBackend(CeedVectorGetArrayRead(u, CEED_MEM_HOST, &uu)); if (t_mode == CEED_TRANSPOSE) { // Sum into for transpose mode, e-vec to l-vec CeedCallBackend(CeedVectorGetArray(v, CEED_MEM_HOST, &vv)); } else { // Overwrite for notranspose mode, l-vec to e-vec CeedCallBackend(CeedVectorGetArrayWrite(v, CEED_MEM_HOST, &vv)); } // Restriction from L-vector to E-vector // Perform: v = r * u if (t_mode == CEED_NOTRANSPOSE) { // No offsets provided, Identity Restriction if (!impl->offsets) { bool has_backend_strides; CeedCallBackend(CeedElemRestrictionHasBackendStrides(r, &has_backend_strides)); if (has_backend_strides) { // CPU backend strides are {1, elem_size, elem_size*num_comp} // This if branch is left separate to allow better inlining for (CeedInt e = start * blk_size; e < stop * blk_size; e += blk_size) { CeedPragmaSIMD for (CeedInt k = 0; k < num_comp; k++) { CeedPragmaSIMD for (CeedInt n = 0; n < elem_size; n++) { CeedPragmaSIMD for (CeedInt j = 0; j < blk_size; j++) { vv[e * elem_size * num_comp + (k * elem_size + n) * blk_size + j - v_offset] = uu[n + k * elem_size + CeedIntMin(e + j, num_elem - 1) * elem_size * num_comp]; } } } } } else { // User provided strides CeedInt strides[3]; CeedCallBackend(CeedElemRestrictionGetStrides(r, &strides)); for (CeedInt e = start * blk_size; e < stop * blk_size; e += blk_size) { CeedPragmaSIMD for (CeedInt k = 0; k < num_comp; k++) { CeedPragmaSIMD for (CeedInt n = 0; n < elem_size; n++) { CeedPragmaSIMD for (CeedInt j = 0; j < blk_size; j++) { vv[e * elem_size * num_comp + (k * elem_size + n) * blk_size + j - v_offset] = uu[n * strides[0] + k * strides[1] + CeedIntMin(e + j, num_elem - 1) * strides[2]]; } } } } } } else { // Offsets provided, standard or blocked restriction // vv has shape [elem_size, num_comp, num_elem], row-major // uu has shape [nnodes, num_comp] for (CeedInt e = start * blk_size; e < stop * blk_size; e += blk_size) { CeedPragmaSIMD for (CeedInt k = 0; k < num_comp; k++) { CeedPragmaSIMD for (CeedInt i = 0; i < elem_size * blk_size; i++) { if (!use_orients || (!is_oriented && !is_curl_oriented)) { // Unsigned restriction vv[elem_size * (k * blk_size + num_comp * e) + i - v_offset] = uu[impl->offsets[i + elem_size * e] + k * comp_stride]; } else if (!is_curl_oriented) { // Signed restriction vv[elem_size * (k * blk_size + num_comp * e) + i - v_offset] = uu[impl->offsets[i + elem_size * e] + k * comp_stride] * (impl->orients[i + elem_size * e] ? -1.0 : 1.0); } else { // Restriction with tridiagonal transformation CeedInt ii = i % elem_size; if (ii == 0) { vv[elem_size * (k * blk_size + num_comp * e) + i - v_offset] = uu[impl->offsets[i + 0 + elem_size * e] + k * comp_stride] * impl->curl_orients[3 * i + 1 + 3 * elem_size * e] + uu[impl->offsets[i + 1 + elem_size * e] + k * comp_stride] * impl->curl_orients[3 * i + 2 + 3 * elem_size * e]; } else if (ii == elem_size - 1) { vv[elem_size * (k * blk_size + num_comp * e) + i - v_offset] = uu[impl->offsets[i - 1 + elem_size * e] + k * comp_stride] * impl->curl_orients[3 * i + 0 + 3 * elem_size * e] + uu[impl->offsets[i + 0 + elem_size * e] + k * comp_stride] * impl->curl_orients[3 * i + 1 + 3 * elem_size * e]; } else { vv[elem_size * (k * blk_size + num_comp * e) + i - v_offset] = uu[impl->offsets[i - 1 + elem_size * e] + k * comp_stride] * impl->curl_orients[3 * i + 0 + 3 * elem_size * e] + uu[impl->offsets[i + 0 + elem_size * e] + k * comp_stride] * impl->curl_orients[3 * i + 1 + 3 * elem_size * e] + uu[impl->offsets[i + 1 + elem_size * e] + k * comp_stride] * impl->curl_orients[3 * i + 2 + 3 * elem_size * e]; } } } } } } } else { // Restriction from E-vector to L-vector // Performing v += r^T * u // No offsets provided, Identity Restriction if (!impl->offsets) { bool has_backend_strides; CeedCallBackend(CeedElemRestrictionHasBackendStrides(r, &has_backend_strides)); if (has_backend_strides) { // CPU backend strides are {1, elem_size, elem_size*num_comp} // This if brach is left separate to allow better inlining for (CeedInt e = start * blk_size; e < stop * blk_size; e += blk_size) { CeedPragmaSIMD for (CeedInt k = 0; k < num_comp; k++) { CeedPragmaSIMD for (CeedInt n = 0; n < elem_size; n++) { CeedPragmaSIMD for (CeedInt j = 0; j < CeedIntMin(blk_size, num_elem - e); j++) { vv[n + k * elem_size + (e + j) * elem_size * num_comp] += uu[e * elem_size * num_comp + (k * elem_size + n) * blk_size + j - v_offset]; } } } } } else { // User provided strides CeedInt strides[3]; CeedCallBackend(CeedElemRestrictionGetStrides(r, &strides)); for (CeedInt e = start * blk_size; e < stop * blk_size; e += blk_size) { CeedPragmaSIMD for (CeedInt k = 0; k < num_comp; k++) { CeedPragmaSIMD for (CeedInt n = 0; n < elem_size; n++) { CeedPragmaSIMD for (CeedInt j = 0; j < CeedIntMin(blk_size, num_elem - e); j++) { vv[n * strides[0] + k * strides[1] + (e + j) * strides[2]] += uu[e * elem_size * num_comp + (k * elem_size + n) * blk_size + j - v_offset]; } } } } } } else { // Offsets provided, standard or blocked restriction // uu has shape [elem_size, num_comp, num_elem] // vv has shape [nnodes, num_comp] for (CeedInt e = start * blk_size; e < stop * blk_size; e += blk_size) { for (CeedInt k = 0; k < num_comp; k++) { for (CeedInt i = 0; i < elem_size * blk_size; i += blk_size) { // Iteration bound set to discard padding elements for (CeedInt j = i; j < i + CeedIntMin(blk_size, num_elem - e); j++) { if (!use_orients || (!is_oriented && !is_curl_oriented)) { // Unsigned restriction vv[impl->offsets[j + e * elem_size] + k * comp_stride] += uu[elem_size * (k * blk_size + num_comp * e) + j - v_offset]; } else if (!is_curl_oriented) { // Signed restriction vv[impl->offsets[j + e * elem_size] + k * comp_stride] += uu[elem_size * (k * blk_size + num_comp * e) + j - v_offset] * (impl->orients[j + e * elem_size] ? -1.0 : 1.0); } else { // Restriction with tridiagonal transformation CeedInt jj = j % elem_size; if (jj == 0) { vv[impl->offsets[j + e * elem_size] + k * comp_stride] += uu[elem_size * (k * blk_size + num_comp * e) + j + 0 - v_offset] * impl->curl_orients[(j + 0) * 3 + 1 + e * 3 * elem_size] + uu[elem_size * (k * blk_size + num_comp * e) + j + 1 - v_offset] * impl->curl_orients[(j + 1) * 3 + 0 + e * 3 * elem_size]; } else if (jj == elem_size - 1) { vv[impl->offsets[j + e * elem_size] + k * comp_stride] += uu[elem_size * (k * blk_size + num_comp * e) + j - 1 - v_offset] * impl->curl_orients[(j - 1) * 3 + 2 + e * 3 * elem_size] + uu[elem_size * (k * blk_size + num_comp * e) + j + 0 - v_offset] * impl->curl_orients[(j + 0) * 3 + 1 + e * 3 * elem_size]; } else { vv[impl->offsets[j + e * elem_size] + k * comp_stride] += uu[elem_size * (k * blk_size + num_comp * e) + j - 1 - v_offset] * impl->curl_orients[(j - 1) * 3 + 2 + e * 3 * elem_size] + uu[elem_size * (k * blk_size + num_comp * e) + j + 0 - v_offset] * impl->curl_orients[(j + 0) * 3 + 1 + e * 3 * elem_size] + uu[elem_size * (k * blk_size + num_comp * e) + j + 1 - v_offset] * impl->curl_orients[(j + 1) * 3 + 0 + e * 3 * elem_size]; } } } } } } } } CeedCallBackend(CeedVectorRestoreArrayRead(u, &uu)); CeedCallBackend(CeedVectorRestoreArray(v, &vv)); if (request != CEED_REQUEST_IMMEDIATE && request != CEED_REQUEST_ORDERED) *request = NULL; return CEED_ERROR_SUCCESS; } //------------------------------------------------------------------------------ // ElemRestriction Apply - Common Sizes //------------------------------------------------------------------------------ static int CeedElemRestrictionApply_Ref_110(CeedElemRestriction r, const CeedInt num_comp, const CeedInt blk_size, const CeedInt comp_stride, CeedInt start, CeedInt stop, bool use_orients, CeedTransposeMode t_mode, CeedVector u, CeedVector v, CeedRequest *request) { return CeedElemRestrictionApply_Ref_Core(r, 1, 1, comp_stride, start, stop, use_orients, t_mode, u, v, request); } static int CeedElemRestrictionApply_Ref_111(CeedElemRestriction r, const CeedInt num_comp, const CeedInt blk_size, const CeedInt comp_stride, CeedInt start, CeedInt stop, bool use_orients, CeedTransposeMode t_mode, CeedVector u, CeedVector v, CeedRequest *request) { return CeedElemRestrictionApply_Ref_Core(r, 1, 1, 1, start, stop, use_orients, t_mode, u, v, request); } static int CeedElemRestrictionApply_Ref_180(CeedElemRestriction r, const CeedInt num_comp, const CeedInt blk_size, const CeedInt comp_stride, CeedInt start, CeedInt stop, bool use_orients, CeedTransposeMode t_mode, CeedVector u, CeedVector v, CeedRequest *request) { return CeedElemRestrictionApply_Ref_Core(r, 1, 8, comp_stride, start, stop, use_orients, t_mode, u, v, request); } static int CeedElemRestrictionApply_Ref_181(CeedElemRestriction r, const CeedInt num_comp, const CeedInt blk_size, const CeedInt comp_stride, CeedInt start, CeedInt stop, bool use_orients, CeedTransposeMode t_mode, CeedVector u, CeedVector v, CeedRequest *request) { return CeedElemRestrictionApply_Ref_Core(r, 1, 8, 1, start, stop, use_orients, t_mode, u, v, request); } static int CeedElemRestrictionApply_Ref_310(CeedElemRestriction r, const CeedInt num_comp, const CeedInt blk_size, const CeedInt comp_stride, CeedInt start, CeedInt stop, bool use_orients, CeedTransposeMode t_mode, CeedVector u, CeedVector v, CeedRequest *request) { return CeedElemRestrictionApply_Ref_Core(r, 3, 1, comp_stride, start, stop, use_orients, t_mode, u, v, request); } static int CeedElemRestrictionApply_Ref_311(CeedElemRestriction r, const CeedInt num_comp, const CeedInt blk_size, const CeedInt comp_stride, CeedInt start, CeedInt stop, bool use_orients, CeedTransposeMode t_mode, CeedVector u, CeedVector v, CeedRequest *request) { return CeedElemRestrictionApply_Ref_Core(r, 3, 1, 1, start, stop, use_orients, t_mode, u, v, request); } static int CeedElemRestrictionApply_Ref_380(CeedElemRestriction r, const CeedInt num_comp, const CeedInt blk_size, const CeedInt comp_stride, CeedInt start, CeedInt stop, bool use_orients, CeedTransposeMode t_mode, CeedVector u, CeedVector v, CeedRequest *request) { return CeedElemRestrictionApply_Ref_Core(r, 3, 8, comp_stride, start, stop, use_orients, t_mode, u, v, request); } static int CeedElemRestrictionApply_Ref_381(CeedElemRestriction r, const CeedInt num_comp, const CeedInt blk_size, const CeedInt comp_stride, CeedInt start, CeedInt stop, bool use_orients, CeedTransposeMode t_mode, CeedVector u, CeedVector v, CeedRequest *request) { return CeedElemRestrictionApply_Ref_Core(r, 3, 8, 1, start, stop, use_orients, t_mode, u, v, request); } // LCOV_EXCL_START static int CeedElemRestrictionApply_Ref_510(CeedElemRestriction r, const CeedInt num_comp, const CeedInt blk_size, const CeedInt comp_stride, CeedInt start, CeedInt stop, bool use_orients, CeedTransposeMode t_mode, CeedVector u, CeedVector v, CeedRequest *request) { return CeedElemRestrictionApply_Ref_Core(r, 5, 1, comp_stride, start, stop, use_orients, t_mode, u, v, request); } // LCOV_EXCL_STOP static int CeedElemRestrictionApply_Ref_511(CeedElemRestriction r, const CeedInt num_comp, const CeedInt blk_size, const CeedInt comp_stride, CeedInt start, CeedInt stop, bool use_orients, CeedTransposeMode t_mode, CeedVector u, CeedVector v, CeedRequest *request) { return CeedElemRestrictionApply_Ref_Core(r, 5, 1, 1, start, stop, use_orients, t_mode, u, v, request); } // LCOV_EXCL_START static int CeedElemRestrictionApply_Ref_580(CeedElemRestriction r, const CeedInt num_comp, const CeedInt blk_size, const CeedInt comp_stride, CeedInt start, CeedInt stop, bool use_orients, CeedTransposeMode t_mode, CeedVector u, CeedVector v, CeedRequest *request) { return CeedElemRestrictionApply_Ref_Core(r, 5, 8, comp_stride, start, stop, use_orients, t_mode, u, v, request); } // LCOV_EXCL_STOP static int CeedElemRestrictionApply_Ref_581(CeedElemRestriction r, const CeedInt num_comp, const CeedInt blk_size, const CeedInt comp_stride, CeedInt start, CeedInt stop, bool use_orients, CeedTransposeMode t_mode, CeedVector u, CeedVector v, CeedRequest *request) { return CeedElemRestrictionApply_Ref_Core(r, 5, 8, 1, start, stop, use_orients, t_mode, u, v, request); } //------------------------------------------------------------------------------ // ElemRestriction Apply //------------------------------------------------------------------------------ static int CeedElemRestrictionApply_Ref(CeedElemRestriction r, CeedTransposeMode t_mode, CeedVector u, CeedVector v, CeedRequest *request) { CeedInt num_blk, blk_size, num_comp, comp_stride; CeedCallBackend(CeedElemRestrictionGetNumBlocks(r, &num_blk)); CeedCallBackend(CeedElemRestrictionGetBlockSize(r, &blk_size)); CeedCallBackend(CeedElemRestrictionGetNumComponents(r, &num_comp)); CeedCallBackend(CeedElemRestrictionGetCompStride(r, &comp_stride)); CeedElemRestriction_Ref *impl; CeedCallBackend(CeedElemRestrictionGetData(r, &impl)); return impl->Apply(r, num_comp, blk_size, comp_stride, 0, num_blk, true, t_mode, u, v, request); } //------------------------------------------------------------------------------ // ElemRestriction Apply Unsigned //------------------------------------------------------------------------------ static int CeedElemRestrictionApplyUnsigned_Ref(CeedElemRestriction r, CeedTransposeMode t_mode, CeedVector u, CeedVector v, CeedRequest *request) { CeedInt num_blk, blk_size, num_comp, comp_stride; CeedCallBackend(CeedElemRestrictionGetNumBlocks(r, &num_blk)); CeedCallBackend(CeedElemRestrictionGetBlockSize(r, &blk_size)); CeedCallBackend(CeedElemRestrictionGetNumComponents(r, &num_comp)); CeedCallBackend(CeedElemRestrictionGetCompStride(r, &comp_stride)); CeedElemRestriction_Ref *impl; CeedCallBackend(CeedElemRestrictionGetData(r, &impl)); return impl->Apply(r, num_comp, blk_size, comp_stride, 0, num_blk, false, t_mode, u, v, request); } //------------------------------------------------------------------------------ // ElemRestriction Apply Block //------------------------------------------------------------------------------ static int CeedElemRestrictionApplyBlock_Ref(CeedElemRestriction r, CeedInt block, CeedTransposeMode t_mode, CeedVector u, CeedVector v, CeedRequest *request) { CeedInt blk_size, num_comp, comp_stride; CeedCallBackend(CeedElemRestrictionGetBlockSize(r, &blk_size)); CeedCallBackend(CeedElemRestrictionGetNumComponents(r, &num_comp)); CeedCallBackend(CeedElemRestrictionGetCompStride(r, &comp_stride)); CeedElemRestriction_Ref *impl; CeedCallBackend(CeedElemRestrictionGetData(r, &impl)); return impl->Apply(r, num_comp, blk_size, comp_stride, block, block + 1, true, t_mode, u, v, request); } //------------------------------------------------------------------------------ // ElemRestriction Get Offsets //------------------------------------------------------------------------------ static int CeedElemRestrictionGetOffsets_Ref(CeedElemRestriction rstr, CeedMemType mem_type, const CeedInt **offsets) { CeedElemRestriction_Ref *impl; CeedCallBackend(CeedElemRestrictionGetData(rstr, &impl)); Ceed ceed; CeedCallBackend(CeedElemRestrictionGetCeed(rstr, &ceed)); CeedCheck(mem_type == CEED_MEM_HOST, ceed, CEED_ERROR_BACKEND, "Can only provide to HOST memory"); *offsets = impl->offsets; return CEED_ERROR_SUCCESS; } //------------------------------------------------------------------------------ // ElemRestriction Get Orientations //------------------------------------------------------------------------------ static int CeedElemRestrictionGetOrientations_Ref(CeedElemRestriction rstr, CeedMemType mem_type, const bool **orients) { CeedElemRestriction_Ref *impl; CeedCallBackend(CeedElemRestrictionGetData(rstr, &impl)); Ceed ceed; CeedCallBackend(CeedElemRestrictionGetCeed(rstr, &ceed)); if (mem_type != CEED_MEM_HOST) { // LCOV_EXCL_START return CeedError(ceed, CEED_ERROR_BACKEND, "Can only provide to HOST memory"); // LCOV_EXCL_STOP } *orients = impl->orients; return CEED_ERROR_SUCCESS; } //------------------------------------------------------------------------------ // ElemRestriction Get Curl-Conforming Orientations //------------------------------------------------------------------------------ static int CeedElemRestrictionGetCurlOrientations_Ref(CeedElemRestriction rstr, CeedMemType mem_type, const CeedInt **curl_orients) { CeedElemRestriction_Ref *impl; CeedCallBackend(CeedElemRestrictionGetData(rstr, &impl)); Ceed ceed; CeedCallBackend(CeedElemRestrictionGetCeed(rstr, &ceed)); if (mem_type != CEED_MEM_HOST) { // LCOV_EXCL_START return CeedError(ceed, CEED_ERROR_BACKEND, "Can only provide to HOST memory"); // LCOV_EXCL_STOP } *curl_orients = impl->curl_orients; return CEED_ERROR_SUCCESS; } //------------------------------------------------------------------------------ // ElemRestriction Destroy //------------------------------------------------------------------------------ static int CeedElemRestrictionDestroy_Ref(CeedElemRestriction r) { CeedElemRestriction_Ref *impl; CeedCallBackend(CeedElemRestrictionGetData(r, &impl)); CeedCallBackend(CeedFree(&impl->offsets_allocated)); CeedCallBackend(CeedFree(&impl->orients_allocated)); CeedCallBackend(CeedFree(&impl->curl_orients_allocated)); CeedCallBackend(CeedFree(&impl)); return CEED_ERROR_SUCCESS; } //------------------------------------------------------------------------------ // ElemRestriction Create //------------------------------------------------------------------------------ int CeedElemRestrictionCreate_Ref(CeedMemType mem_type, CeedCopyMode copy_mode, const CeedInt *offsets, CeedElemRestriction r) { CeedElemRestriction_Ref *impl; CeedInt num_elem, elem_size, num_blk, blk_size, num_comp, comp_stride; CeedCallBackend(CeedElemRestrictionGetNumElements(r, &num_elem)); CeedCallBackend(CeedElemRestrictionGetElementSize(r, &elem_size)); CeedCallBackend(CeedElemRestrictionGetNumBlocks(r, &num_blk)); CeedCallBackend(CeedElemRestrictionGetBlockSize(r, &blk_size)); CeedCallBackend(CeedElemRestrictionGetNumComponents(r, &num_comp)); CeedCallBackend(CeedElemRestrictionGetCompStride(r, &comp_stride)); Ceed ceed; CeedCallBackend(CeedElemRestrictionGetCeed(r, &ceed)); CeedCheck(mem_type == CEED_MEM_HOST, ceed, CEED_ERROR_BACKEND, "Only MemType = HOST supported"); CeedCallBackend(CeedCalloc(1, &impl)); // Offsets data bool is_strided; CeedCallBackend(CeedElemRestrictionIsStrided(r, &is_strided)); if (!is_strided) { // Check indices for ref or memcheck backends Ceed parent_ceed = ceed, curr_ceed = NULL; while (parent_ceed != curr_ceed) { curr_ceed = parent_ceed; CeedCallBackend(CeedGetParent(curr_ceed, &parent_ceed)); } const char *resource; CeedCallBackend(CeedGetResource(parent_ceed, &resource)); if (!strcmp(resource, "/cpu/self/ref/serial") || !strcmp(resource, "/cpu/self/ref/blocked") || !strcmp(resource, "/cpu/self/memcheck/serial") || !strcmp(resource, "/cpu/self/memcheck/blocked")) { CeedSize l_size; CeedCallBackend(CeedElemRestrictionGetLVectorSize(r, &l_size)); for (CeedInt i = 0; i < num_elem * elem_size; i++) { CeedCheck(offsets[i] >= 0 && offsets[i] + (num_comp - 1) * comp_stride < l_size, ceed, CEED_ERROR_BACKEND, "Restriction offset %" CeedInt_FMT " (%" CeedInt_FMT ") out of range [0, %" CeedInt_FMT "]", i, offsets[i], l_size); } } // Copy data switch (copy_mode) { case CEED_COPY_VALUES: CeedCallBackend(CeedMalloc(num_elem * elem_size, &impl->offsets_allocated)); memcpy(impl->offsets_allocated, offsets, num_elem * elem_size * sizeof(offsets[0])); impl->offsets = impl->offsets_allocated; break; case CEED_OWN_POINTER: impl->offsets_allocated = (CeedInt *)offsets; impl->offsets = impl->offsets_allocated; break; case CEED_USE_POINTER: impl->offsets = offsets; } } CeedCallBackend(CeedElemRestrictionSetData(r, impl)); CeedInt layout[3] = {1, elem_size, elem_size * num_comp}; CeedCallBackend(CeedElemRestrictionSetELayout(r, layout)); CeedCallBackend(CeedSetBackendFunction(ceed, "ElemRestriction", r, "Apply", CeedElemRestrictionApply_Ref)); CeedCallBackend(CeedSetBackendFunction(ceed, "ElemRestriction", r, "ApplyUnsigned", CeedElemRestrictionApplyUnsigned_Ref)); CeedCallBackend(CeedSetBackendFunction(ceed, "ElemRestriction", r, "ApplyBlock", CeedElemRestrictionApplyBlock_Ref)); CeedCallBackend(CeedSetBackendFunction(ceed, "ElemRestriction", r, "GetOffsets", CeedElemRestrictionGetOffsets_Ref)); CeedCallBackend(CeedSetBackendFunction(ceed, "ElemRestriction", r, "GetOrientations", CeedElemRestrictionGetOrientations_Ref)); CeedCallBackend(CeedSetBackendFunction(ceed, "ElemRestriction", r, "GetCurlOrientations", CeedElemRestrictionGetCurlOrientations_Ref)); CeedCallBackend(CeedSetBackendFunction(ceed, "ElemRestriction", r, "Destroy", CeedElemRestrictionDestroy_Ref)); // Set apply function based upon num_comp, blk_size, and comp_stride CeedInt idx = -1; if (blk_size < 10) idx = 100 * num_comp + 10 * blk_size + (comp_stride == 1); switch (idx) { case 110: impl->Apply = CeedElemRestrictionApply_Ref_110; break; case 111: impl->Apply = CeedElemRestrictionApply_Ref_111; break; case 180: impl->Apply = CeedElemRestrictionApply_Ref_180; break; case 181: impl->Apply = CeedElemRestrictionApply_Ref_181; break; case 310: impl->Apply = CeedElemRestrictionApply_Ref_310; break; case 311: impl->Apply = CeedElemRestrictionApply_Ref_311; break; case 380: impl->Apply = CeedElemRestrictionApply_Ref_380; break; case 381: impl->Apply = CeedElemRestrictionApply_Ref_381; break; // LCOV_EXCL_START case 510: impl->Apply = CeedElemRestrictionApply_Ref_510; break; // LCOV_EXCL_STOP case 511: impl->Apply = CeedElemRestrictionApply_Ref_511; break; // LCOV_EXCL_START case 580: impl->Apply = CeedElemRestrictionApply_Ref_580; break; // LCOV_EXCL_STOP case 581: impl->Apply = CeedElemRestrictionApply_Ref_581; break; default: impl->Apply = CeedElemRestrictionApply_Ref_Core; break; } return CEED_ERROR_SUCCESS; } //------------------------------------------------------------------------------ // ElemRestriction Create Oriented //------------------------------------------------------------------------------ int CeedElemRestrictionCreateOriented_Ref(CeedMemType mem_type, CeedCopyMode copy_mode, const CeedInt *offsets, const bool *orients, CeedElemRestriction r) { // Set up for normal restriction with explicit offsets. This sets up dispatch to // CeedElemRestrictionApply_Ref_* and manages the impl->offsets array copy/allocation. CeedCallBackend(CeedElemRestrictionCreate_Ref(mem_type, copy_mode, offsets, r)); CeedElemRestriction_Ref *impl; CeedInt num_elem, elem_size; CeedCallBackend(CeedElemRestrictionGetData(r, &impl)); CeedCallBackend(CeedElemRestrictionGetNumElements(r, &num_elem)); CeedCallBackend(CeedElemRestrictionGetElementSize(r, &elem_size)); // Copy data switch (copy_mode) { case CEED_COPY_VALUES: CeedCallBackend(CeedMalloc(num_elem * elem_size, &impl->orients_allocated)); memcpy(impl->orients_allocated, orients, num_elem * elem_size * sizeof(orients[0])); impl->orients = impl->orients_allocated; break; case CEED_OWN_POINTER: impl->orients_allocated = (bool *)orients; impl->orients = impl->orients_allocated; break; case CEED_USE_POINTER: impl->orients = orients; } return CEED_ERROR_SUCCESS; } //------------------------------------------------------------------------------ // ElemRestriction Create Curl-Conforming Oriented //------------------------------------------------------------------------------ int CeedElemRestrictionCreateCurlOriented_Ref(CeedMemType mem_type, CeedCopyMode copy_mode, const CeedInt *offsets, const CeedInt *curl_orients, CeedElemRestriction r) { // Set up for normal restriction with explicit offsets. This sets up dispatch to // CeedElemRestrictionApply_Ref_* and manages the impl->offsets array copy/allocation. CeedCallBackend(CeedElemRestrictionCreate_Ref(mem_type, copy_mode, offsets, r)); CeedElemRestriction_Ref *impl; CeedInt num_elem, elem_size; CeedCallBackend(CeedElemRestrictionGetData(r, &impl)); CeedCallBackend(CeedElemRestrictionGetNumElements(r, &num_elem)); CeedCallBackend(CeedElemRestrictionGetElementSize(r, &elem_size)); // Orientation data switch (copy_mode) { case CEED_COPY_VALUES: CeedCallBackend(CeedMalloc(num_elem * 3 * elem_size, &impl->curl_orients_allocated)); memcpy(impl->curl_orients_allocated, curl_orients, num_elem * 3 * elem_size * sizeof(curl_orients[0])); impl->curl_orients = impl->curl_orients_allocated; break; case CEED_OWN_POINTER: impl->curl_orients_allocated = (CeedInt *)curl_orients; impl->curl_orients = impl->curl_orients_allocated; break; case CEED_USE_POINTER: impl->curl_orients = curl_orients; } return CEED_ERROR_SUCCESS; } //------------------------------------------------------------------------------