libCEED/interface/ceed-qfunction.c

d7b241e6Sjeremylt// Copyright (c) 2017, Lawrence Livermore National Security, LLC. Produced at
d7b241e6Sjeremylt// the Lawrence Livermore National Laboratory. LLNL-CODE-734707. All Rights
d7b241e6Sjeremylt// reserved. See files LICENSE and NOTICE for details.
d7b241e6Sjeremylt//
d7b241e6Sjeremylt// This file is part of CEED, a collection of benchmarks, miniapps, software
d7b241e6Sjeremylt// libraries and APIs for efficient high-order finite element and spectral
d7b241e6Sjeremylt// element discretizations for exascale applications. For more information and
d7b241e6Sjeremylt// source code availability see http://github.com/ceed.
d7b241e6Sjeremylt//
d7b241e6Sjeremylt// The CEED research is supported by the Exascale Computing Project 17-SC-20-SC,
d7b241e6Sjeremylt// a collaborative effort of two U.S. Department of Energy organizations (Office
d7b241e6Sjeremylt// of Science and the National Nuclear Security Administration) responsible for
d7b241e6Sjeremylt// the planning and preparation of a capable exascale ecosystem, including
d7b241e6Sjeremylt// software, applications, hardware, advanced system engineering and early
d7b241e6Sjeremylt// testbed platforms, in support of the nation's exascale computing imperative.
d7b241e6Sjeremylt
d7b241e6Sjeremylt#include <ceed-impl.h>
d7b241e6Sjeremylt#include <string.h>
d7b241e6Sjeremylt
*dfdf5a53Sjeremylt/// @file
*dfdf5a53Sjeremylt/// Implementation of public CeedQFunction interfaces
*dfdf5a53Sjeremylt///
*dfdf5a53Sjeremylt/// @addtogroup CeedQFunction
*dfdf5a53Sjeremylt/// @{
d7b241e6Sjeremylt
d7b241e6Sjeremylt/**
d7b241e6Sjeremylt  @brief Create a CeedQFunction for evaluating interior (volumetric) terms.
d7b241e6Sjeremylt
b11c1e72Sjeremylt  @param ceed       A Ceed object where the CeedQFunction will be created
d7b241e6Sjeremylt  @param vlength    Vector length.  Caller must ensure that number of quadrature
d7b241e6Sjeremylt                    points is a multiple of vlength.
d7b241e6Sjeremylt  @param f          Function pointer to evaluate action at quadrature points.
d7b241e6Sjeremylt                    See below.
d7b241e6Sjeremylt  @param focca      OCCA identifier "file.c:function_name" for definition of `f`
b11c1e72Sjeremylt  @param[out] qf    Address of the variable where the newly created
b11c1e72Sjeremylt                     CeedQFunction will be stored
b11c1e72Sjeremylt
b11c1e72Sjeremylt  @return An error code: 0 - success, otherwise - failure
d7b241e6Sjeremylt
d7b241e6Sjeremylt  The arguments of the call-back 'function' are:
d7b241e6Sjeremylt
d7b241e6Sjeremylt   1. [void *ctx][in/out] - user data, this is the 'ctx' pointer stored in
d7b241e6Sjeremylt              the CeedQFunction, set by calling CeedQFunctionSetContext
d7b241e6Sjeremylt
d7b241e6Sjeremylt   2. [CeedInt nq][in] - number of quadrature points to process
d7b241e6Sjeremylt
d7b241e6Sjeremylt   3. [const CeedScalar *const *u][in] - input fields data at quadrature pts, listed in the order given by the user
d7b241e6Sjeremylt
d7b241e6Sjeremylt   4. [CeedScalar *const *v][out] - output fields data at quadrature points, again listed in order given by the user
d7b241e6Sjeremylt
*dfdf5a53Sjeremylt  @ref Basic
*dfdf5a53Sjeremylt**/
d7b241e6Sjeremyltint CeedQFunctionCreateInterior(Ceed ceed, CeedInt vlength,
d7b241e6Sjeremylt                                int (*f)(void*, CeedInt, const CeedScalar *const*, CeedScalar *const*),
d7b241e6Sjeremylt                                const char *focca, CeedQFunction *qf) {
d7b241e6Sjeremylt  int ierr;
d7b241e6Sjeremylt  char *focca_copy;
d7b241e6Sjeremylt
d7b241e6Sjeremylt  if (!ceed->QFunctionCreate)
d7b241e6Sjeremylt    return CeedError(ceed, 1, "Backend does not support QFunctionCreate");
d7b241e6Sjeremylt  ierr = CeedCalloc(1,qf); CeedChk(ierr);
d7b241e6Sjeremylt  (*qf)->ceed = ceed;
d7b241e6Sjeremylt  ceed->refcount++;
d7b241e6Sjeremylt  (*qf)->refcount = 1;
d7b241e6Sjeremylt  (*qf)->vlength = vlength;
d7b241e6Sjeremylt  (*qf)->function = f;
d7b241e6Sjeremylt  ierr = CeedCalloc(strlen(focca)+1, &focca_copy); CeedChk(ierr);
d7b241e6Sjeremylt  strcpy(focca_copy, focca);
d7b241e6Sjeremylt  (*qf)->focca = focca_copy;
d7b241e6Sjeremylt  ierr = ceed->QFunctionCreate(*qf); CeedChk(ierr);
d7b241e6Sjeremylt  return 0;
d7b241e6Sjeremylt}
d7b241e6Sjeremylt
b11c1e72Sjeremylt/**
b11c1e72Sjeremylt  @brief Set a CEEDQFunction field, used by CeedQFunctionAddInput/Output
b11c1e72Sjeremylt
b11c1e72Sjeremylt  @param f          CeedQFunctionField
b11c1e72Sjeremylt  @param fieldname  Name of QFunction field
b11c1e72Sjeremylt  @param ncomp      Number of components per quadrature node
b11c1e72Sjeremylt  @param emode      \ref CEED_EVAL_NONE to use values directly,
b11c1e72Sjeremylt                      \ref CEED_EVAL_INTERP to use interpolated values,
b11c1e72Sjeremylt                      \ref CEED_EVAL_GRAD to use gradients.
b11c1e72Sjeremylt
b11c1e72Sjeremylt  @return An error code: 0 - success, otherwise - failure
*dfdf5a53Sjeremylt
*dfdf5a53Sjeremylt  @ref Developer
b11c1e72Sjeremylt**/
d7b241e6Sjeremyltstatic int CeedQFunctionFieldSet(struct CeedQFunctionField *f,
d7b241e6Sjeremylt                                 const char *fieldname, CeedInt ncomp,
d7b241e6Sjeremylt                                 CeedEvalMode emode) {
d7b241e6Sjeremylt  size_t len = strlen(fieldname);
d7b241e6Sjeremylt  char *tmp;
d7b241e6Sjeremylt  int ierr =  CeedCalloc(len+1, &tmp); CeedChk(ierr);
d7b241e6Sjeremylt  memcpy(tmp, fieldname, len+1);
d7b241e6Sjeremylt  f->fieldname = tmp;
d7b241e6Sjeremylt  f->ncomp = ncomp;
d7b241e6Sjeremylt  f->emode = emode;
d7b241e6Sjeremylt  return 0;
d7b241e6Sjeremylt}
d7b241e6Sjeremylt
b11c1e72Sjeremylt/**
b11c1e72Sjeremylt  @brief Add a CEEDQFunction input
b11c1e72Sjeremylt
b11c1e72Sjeremylt  @param qf         CeedQFunction
b11c1e72Sjeremylt  @param fieldname  Name of QFunction field
b11c1e72Sjeremylt  @param ncomp      Number of components per quadrature node
b11c1e72Sjeremylt  @param emode      \ref CEED_EVAL_NONE to use values directly,
b11c1e72Sjeremylt                      \ref CEED_EVAL_INTERP to use interpolated values,
b11c1e72Sjeremylt                      \ref CEED_EVAL_GRAD to use gradients.
b11c1e72Sjeremylt
b11c1e72Sjeremylt  @return An error code: 0 - success, otherwise - failure
*dfdf5a53Sjeremylt
*dfdf5a53Sjeremylt  @ref Basic
b11c1e72Sjeremylt**/
d7b241e6Sjeremyltint CeedQFunctionAddInput(CeedQFunction qf, const char *fieldname,
d7b241e6Sjeremylt                          CeedInt ncomp, CeedEvalMode emode) {
d7b241e6Sjeremylt  int ierr = CeedQFunctionFieldSet(&qf->inputfields[qf->numinputfields++],
d7b241e6Sjeremylt                                   fieldname, ncomp, emode); CeedChk(ierr);
d7b241e6Sjeremylt  return 0;
d7b241e6Sjeremylt}
d7b241e6Sjeremylt
b11c1e72Sjeremylt/**
b11c1e72Sjeremylt  @brief Add a CEEDQFunction output
b11c1e72Sjeremylt
b11c1e72Sjeremylt  @param qf         CeedQFunction
b11c1e72Sjeremylt  @param fieldname  Name of QFunction field
b11c1e72Sjeremylt  @param ncomp      Number of components per quadrature node
b11c1e72Sjeremylt  @param emode      \ref CEED_EVAL_NONE to use values directly,
b11c1e72Sjeremylt                      \ref CEED_EVAL_INTERP to use interpolated values,
b11c1e72Sjeremylt                      \ref CEED_EVAL_GRAD to use gradients.
b11c1e72Sjeremylt
b11c1e72Sjeremylt  @return An error code: 0 - success, otherwise - failure
*dfdf5a53Sjeremylt
*dfdf5a53Sjeremylt  @ref Basic
b11c1e72Sjeremylt**/
d7b241e6Sjeremyltint CeedQFunctionAddOutput(CeedQFunction qf, const char *fieldname,
d7b241e6Sjeremylt                           CeedInt ncomp, CeedEvalMode emode) {
d7b241e6Sjeremylt  if (emode == CEED_EVAL_WEIGHT)
d7b241e6Sjeremylt    return CeedError(qf->ceed, 1,
d7b241e6Sjeremylt                     "Cannot create qfunction output with CEED_EVAL_WEIGHT");
d7b241e6Sjeremylt  int ierr = CeedQFunctionFieldSet(&qf->outputfields[qf->numoutputfields++],
d7b241e6Sjeremylt                                   fieldname, ncomp, emode); CeedChk(ierr);
d7b241e6Sjeremylt  return 0;
d7b241e6Sjeremylt}
d7b241e6Sjeremylt
*dfdf5a53Sjeremylt/**
*dfdf5a53Sjeremylt  @brief Get the number of inputs and outputs to a CeedQFunction
*dfdf5a53Sjeremylt
*dfdf5a53Sjeremylt  @param qf              CeedQFunction
*dfdf5a53Sjeremylt  @param[out] numinput   Number of input fields
*dfdf5a53Sjeremylt  @param[out] numoutput  Number of output fields
*dfdf5a53Sjeremylt
*dfdf5a53Sjeremylt  @return An error code: 0 - success, otherwise - failure
*dfdf5a53Sjeremylt
*dfdf5a53Sjeremylt  @ref Utility
*dfdf5a53Sjeremylt**/
*dfdf5a53Sjeremylt
d7b241e6Sjeremyltint CeedQFunctionGetNumArgs(CeedQFunction qf, CeedInt *numinput,
d7b241e6Sjeremylt                            CeedInt *numoutput) {
d7b241e6Sjeremylt  CeedInt nin = 0, nout = 0;
d7b241e6Sjeremylt  for (CeedInt i=0; i<qf->numinputfields; i++) {
d7b241e6Sjeremylt    CeedEvalMode emode = qf->inputfields[i].emode;
d7b241e6Sjeremylt    if (emode == CEED_EVAL_NONE) nin++;  // Colocated field is input directly
d7b241e6Sjeremylt    if (emode & CEED_EVAL_INTERP) nin++; // Interpolate to quadrature points
d7b241e6Sjeremylt    if (emode & CEED_EVAL_GRAD) nin++;   // Gradients at quadrature points
d7b241e6Sjeremylt  }
d7b241e6Sjeremylt  for (CeedInt i=0; i<qf->numoutputfields; i++) {
d7b241e6Sjeremylt    CeedEvalMode emode = qf->outputfields[i].emode;
d7b241e6Sjeremylt    if (emode == CEED_EVAL_NONE) nout++;
d7b241e6Sjeremylt    if (emode & CEED_EVAL_INTERP) nout++;
d7b241e6Sjeremylt    if (emode & CEED_EVAL_GRAD) nout++;
d7b241e6Sjeremylt  }
d7b241e6Sjeremylt  if (numinput) *numinput = nin;
d7b241e6Sjeremylt  if (numoutput) *numoutput = nout;
d7b241e6Sjeremylt  return 0;
d7b241e6Sjeremylt}
d7b241e6Sjeremylt
d7b241e6Sjeremylt/**
b11c1e72Sjeremylt  @brief Set global context for a quadrature function
b11c1e72Sjeremylt
b11c1e72Sjeremylt  @param qf       CeedQFunction
b11c1e72Sjeremylt  @param ctx      Context data to set
b11c1e72Sjeremylt  @param ctxsize  Size of context data values
b11c1e72Sjeremylt
b11c1e72Sjeremylt  @return An error code: 0 - success, otherwise - failure
*dfdf5a53Sjeremylt
*dfdf5a53Sjeremylt  @ref Basic
b11c1e72Sjeremylt**/
d7b241e6Sjeremyltint CeedQFunctionSetContext(CeedQFunction qf, void *ctx, size_t ctxsize) {
d7b241e6Sjeremylt  qf->ctx = ctx;
d7b241e6Sjeremylt  qf->ctxsize = ctxsize;
d7b241e6Sjeremylt  return 0;
d7b241e6Sjeremylt}
d7b241e6Sjeremylt
b11c1e72Sjeremylt/**
b11c1e72Sjeremylt  @brief Apply the action of a CeedQFunction
b11c1e72Sjeremylt
b11c1e72Sjeremylt  @param qf      CeedQFunction
b11c1e72Sjeremylt  @param Q       Number of quadrature points
b11c1e72Sjeremylt  @param[in] u   Array of input data arrays
b11c1e72Sjeremylt  @param[out] v  Array of output data arrays
b11c1e72Sjeremylt
b11c1e72Sjeremylt  @return An error code: 0 - success, otherwise - failure
*dfdf5a53Sjeremylt
*dfdf5a53Sjeremylt  @ref Advanced
b11c1e72Sjeremylt**/
d7b241e6Sjeremyltint CeedQFunctionApply(CeedQFunction qf, CeedInt Q,
d7b241e6Sjeremylt                       const CeedScalar *const *u,
d7b241e6Sjeremylt                       CeedScalar *const *v) {
d7b241e6Sjeremylt  int ierr;
d7b241e6Sjeremylt  if (!qf->Apply)
d7b241e6Sjeremylt    return CeedError(qf->ceed, 1, "Backend does not support QFunctionApply");
d7b241e6Sjeremylt  if (Q % qf->vlength)
d7b241e6Sjeremylt    return CeedError(qf->ceed, 2,
d7b241e6Sjeremylt                     "Number of quadrature points %d must be a multiple of %d",
d7b241e6Sjeremylt                     Q, qf->vlength);
d7b241e6Sjeremylt  ierr = qf->Apply(qf, Q, u, v); CeedChk(ierr);
d7b241e6Sjeremylt  return 0;
d7b241e6Sjeremylt}
d7b241e6Sjeremylt
b11c1e72Sjeremylt/**
b11c1e72Sjeremylt  @brief Destroy a CeedQFunction
b11c1e72Sjeremylt
b11c1e72Sjeremylt  @param qf CeedQFunction to destroy
b11c1e72Sjeremylt
b11c1e72Sjeremylt  @return An error code: 0 - success, otherwise - failure
*dfdf5a53Sjeremylt
*dfdf5a53Sjeremylt  @ref Basic
b11c1e72Sjeremylt**/
d7b241e6Sjeremyltint CeedQFunctionDestroy(CeedQFunction *qf) {
d7b241e6Sjeremylt  int ierr;
d7b241e6Sjeremylt
d7b241e6Sjeremylt  if (!*qf || --(*qf)->refcount > 0) return 0;
d7b241e6Sjeremylt  // Free field names
d7b241e6Sjeremylt  for (int i=0; i<(*qf)->numinputfields; i++) {
d7b241e6Sjeremylt    ierr = CeedFree(&(*qf)->inputfields[i].fieldname); CeedChk(ierr);
d7b241e6Sjeremylt  }
d7b241e6Sjeremylt  for (int i=0; i<(*qf)->numoutputfields; i++) {
d7b241e6Sjeremylt    ierr = CeedFree(&(*qf)->outputfields[i].fieldname); CeedChk(ierr);
d7b241e6Sjeremylt  }
d7b241e6Sjeremylt  if ((*qf)->Destroy) {
d7b241e6Sjeremylt    ierr = (*qf)->Destroy(*qf); CeedChk(ierr);
d7b241e6Sjeremylt  }
d7b241e6Sjeremylt  ierr = CeedFree(&(*qf)->focca); CeedChk(ierr);
d7b241e6Sjeremylt  ierr = CeedDestroy(&(*qf)->ceed); CeedChk(ierr);
d7b241e6Sjeremylt  ierr = CeedFree(qf); CeedChk(ierr);
d7b241e6Sjeremylt  return 0;
d7b241e6Sjeremylt}
d7b241e6Sjeremylt
d7b241e6Sjeremylt/// @}