include/ceed/ceed.h

ec3da8bcSJed Brown/// Copyright (c) 2017, Lawrence Livermore National Security, LLC. Produced at
ec3da8bcSJed Brown/// the Lawrence Livermore National Laboratory. LLNL-CODE-734707. All Rights
ec3da8bcSJed Brown/// reserved. See files LICENSE and NOTICE for details.
ec3da8bcSJed Brown///
ec3da8bcSJed Brown/// This file is part of CEED, a collection of benchmarks, miniapps, software
ec3da8bcSJed Brown/// libraries and APIs for efficient high-order finite element and spectral
ec3da8bcSJed Brown/// element discretizations for exascale applications. For more information and
ec3da8bcSJed Brown/// source code availability see http://github.com/ceed.
ec3da8bcSJed Brown///
ec3da8bcSJed Brown/// The CEED research is supported by the Exascale Computing Project 17-SC-20-SC,
ec3da8bcSJed Brown/// a collaborative effort of two U.S. Department of Energy organizations (Office
ec3da8bcSJed Brown/// of Science and the National Nuclear Security Administration) responsible for
ec3da8bcSJed Brown/// the planning and preparation of a capable exascale ecosystem, including
ec3da8bcSJed Brown/// software, applications, hardware, advanced system engineering and early
ec3da8bcSJed Brown/// testbed platforms, in support of the nation's exascale computing imperative.
ec3da8bcSJed Brown
ec3da8bcSJed Brown/// @file
ec3da8bcSJed Brown/// Public header for user and utility components of libCEED
ec3da8bcSJed Brown#ifndef _ceed_h
ec3da8bcSJed Brown#define _ceed_h
ec3da8bcSJed Brown
ec3da8bcSJed Brown/// @defgroup Ceed Ceed: core components
ec3da8bcSJed Brown/// @defgroup CeedVector CeedVector: storing and manipulating vectors
ec3da8bcSJed Brown/// @defgroup CeedElemRestriction CeedElemRestriction: restriction from local vectors to elements
ec3da8bcSJed Brown/// @defgroup CeedBasis CeedBasis: fully discrete finite element-like objects
ec3da8bcSJed Brown/// @defgroup CeedQFunction CeedQFunction: independent operations at quadrature points
ec3da8bcSJed Brown/// @defgroup CeedOperator CeedOperator: composed FE-type operations on vectors
ec3da8bcSJed Brown///
ec3da8bcSJed Brown/// @page FunctionCategories libCEED: Types of Functions
ec3da8bcSJed Brown///    libCEED provides three different header files depending upon the type of
ec3da8bcSJed Brown///    functions a user requires.
ec3da8bcSJed Brown/// @section Utility Utility Functions
ec3da8bcSJed Brown///    These functions are intended general utilities that may be useful to
ec3da8bcSJed Brown///    libCEED developers and users. These functions can generally be found in
ec3da8bcSJed Brown///    "ceed.h".
ec3da8bcSJed Brown/// @section User User Functions
ec3da8bcSJed Brown///    These functions are intended to be used by general users of libCEED
ec3da8bcSJed Brown///    and can generally be found in "ceed.h".
ec3da8bcSJed Brown/// @section Backend Backend Developer Functions
ec3da8bcSJed Brown///    These functions are intended to be used by backend developers of
ec3da8bcSJed Brown///    libCEED and can generally be found in "ceed-backend.h".
ec3da8bcSJed Brown/// @section Developer Library Developer Functions
ec3da8bcSJed Brown///    These functions are intended to be used by library developers of
ec3da8bcSJed Brown///    libCEED and can generally be found in "ceed-impl.h".
ec3da8bcSJed Brown
ec3da8bcSJed Brown/**
ec3da8bcSJed Brown  CEED_EXTERN is used in this header to denote all publicly visible symbols.
ec3da8bcSJed Brown
ec3da8bcSJed Brown  No other file should declare publicly visible symbols, thus it should never be
ec3da8bcSJed Brown  used outside ceed.h.
ec3da8bcSJed Brown */
ec3da8bcSJed Brown#ifdef __cplusplus
ec3da8bcSJed Brown#  define CEED_EXTERN extern "C"
ec3da8bcSJed Brown#else
ec3da8bcSJed Brown#  define CEED_EXTERN extern
ec3da8bcSJed Brown#endif
ec3da8bcSJed Brown
ec3da8bcSJed Brown/**
ec3da8bcSJed Brown  @ingroup CeedQFunction
ec3da8bcSJed Brown  This macro populates the correct function annotations for User QFunction
ec3da8bcSJed Brown    source for code generation backends or populates default values for CPU
ec3da8bcSJed Brown    backends.
ec3da8bcSJed Brown**/
ec3da8bcSJed Brown#ifndef CEED_QFUNCTION
ec3da8bcSJed Brown#define CEED_QFUNCTION(name) \
ec3da8bcSJed Brown  static const char name ## _loc[] = __FILE__ ":" #name;        \
ec3da8bcSJed Brown  static int name
ec3da8bcSJed Brown#endif
ec3da8bcSJed Brown
ec3da8bcSJed Brown/**
ec3da8bcSJed Brown  @ingroup CeedQFunction
ec3da8bcSJed Brown  Using VLA syntax to reshape User QFunction inputs and outputs can make
ec3da8bcSJed Brown    user code more readable. VLA is a C99 feature that is not supported by
ec3da8bcSJed Brown    the C++ dialect used by CUDA. This macro allows users to use the VLA
ec3da8bcSJed Brown    syntax with the CUDA backends.
ec3da8bcSJed Brown**/
ec3da8bcSJed Brown#ifndef CEED_Q_VLA
ec3da8bcSJed Brown#  define CEED_Q_VLA Q
ec3da8bcSJed Brown#endif
ec3da8bcSJed Brown
ec3da8bcSJed Brown/**
ec3da8bcSJed Brown  @ingroup Ceed
ec3da8bcSJed Brown  This macro provides the appropriate SIMD Pragma for the compilation
ec3da8bcSJed Brown    environment. Code generation backends may redefine this macro, as needed.
ec3da8bcSJed Brown**/
ec3da8bcSJed Brown#ifndef CeedPragmaSIMD
ec3da8bcSJed Brown#  if defined(__INTEL_COMPILER)
ec3da8bcSJed Brown#    define CeedPragmaSIMD _Pragma("vector")
ec3da8bcSJed Brown// Cannot use Intel pragma ivdep because it miscompiles unpacking symmetric tensors, as in
ec3da8bcSJed Brown// Poisson2DApply, where the SIMD loop body contains temporaries such as the following.
ec3da8bcSJed Brown//
ec3da8bcSJed Brown//     const CeedScalar dXdxdXdxT[2][2] = {{qd[i+0*Q], qd[i+2*Q]},
ec3da8bcSJed Brown//                                         {qd[i+2*Q], qd[i+1*Q]}};
ec3da8bcSJed Brown//     for (int j=0; j<2; j++)
ec3da8bcSJed Brown//        vg[i+j*Q] = (du[0] * dXdxdXdxT[0][j] + du[1] * dXdxdXdxT[1][j]);
ec3da8bcSJed Brown//
ec3da8bcSJed Brown// Miscompilation with pragma ivdep observed with icc (ICC) 19.0.5.281 20190815
ec3da8bcSJed Brown// at -O2 and above.
ec3da8bcSJed Brown#  elif defined(__GNUC__) && __GNUC__ >= 5
ec3da8bcSJed Brown#    define CeedPragmaSIMD _Pragma("GCC ivdep")
ec3da8bcSJed Brown#  elif defined(_OPENMP) && _OPENMP >= 201307 // OpenMP-4.0 (July, 2013)
ec3da8bcSJed Brown#    define CeedPragmaSIMD _Pragma("omp simd")
ec3da8bcSJed Brown#  else
ec3da8bcSJed Brown#    define CeedPragmaSIMD
ec3da8bcSJed Brown#  endif
ec3da8bcSJed Brown#endif
ec3da8bcSJed Brown
ec3da8bcSJed Brown#include <stdint.h>
ec3da8bcSJed Brown#include <stdarg.h>
ec3da8bcSJed Brown#include <stdio.h>
ec3da8bcSJed Brown#include <stdbool.h>
ec3da8bcSJed Brown
ec3da8bcSJed Brown/// Integer type, used for indexing
ec3da8bcSJed Brown/// @ingroup Ceed
ec3da8bcSJed Browntypedef int32_t CeedInt;
ec3da8bcSJed Brown/// Scalar (floating point) type
ec3da8bcSJed Brown/// @ingroup Ceed
ec3da8bcSJed Browntypedef double CeedScalar;
ec3da8bcSJed Brown
ec3da8bcSJed Brown/// Library context created by CeedInit()
ec3da8bcSJed Brown/// @ingroup CeedUser
ec3da8bcSJed Browntypedef struct Ceed_private *Ceed;
ec3da8bcSJed Brown/// Non-blocking Ceed interfaces return a CeedRequest.
ec3da8bcSJed Brown/// To perform an operation immediately, pass \ref CEED_REQUEST_IMMEDIATE instead.
ec3da8bcSJed Brown/// @ingroup CeedUser
ec3da8bcSJed Browntypedef struct CeedRequest_private *CeedRequest;
ec3da8bcSJed Brown/// Handle for vectors over the field \ref CeedScalar
ec3da8bcSJed Brown/// @ingroup CeedVectorUser
ec3da8bcSJed Browntypedef struct CeedVector_private *CeedVector;
ec3da8bcSJed Brown/// Handle for object describing restriction to elements
ec3da8bcSJed Brown/// @ingroup CeedElemRestrictionUser
ec3da8bcSJed Browntypedef struct CeedElemRestriction_private *CeedElemRestriction;
ec3da8bcSJed Brown/// Handle for object describing discrete finite element evaluations
ec3da8bcSJed Brown/// @ingroup CeedBasisUser
ec3da8bcSJed Browntypedef struct CeedBasis_private *CeedBasis;
ec3da8bcSJed Brown/// Handle for object describing functions evaluated independently at quadrature points
ec3da8bcSJed Brown/// @ingroup CeedQFunctionUser
ec3da8bcSJed Browntypedef struct CeedQFunction_private *CeedQFunction;
ec3da8bcSJed Brown/// Handle for object describing context data for CeedQFunctions
ec3da8bcSJed Brown/// @ingroup CeedQFunctionUser
ec3da8bcSJed Browntypedef struct CeedQFunctionContext_private *CeedQFunctionContext;
ec3da8bcSJed Brown/// Handle for object describing FE-type operators acting on vectors
ec3da8bcSJed Brown///
ec3da8bcSJed Brown/// Given an element restriction \f$E\f$, basis evaluator \f$B\f$, and
ec3da8bcSJed Brown///   quadrature function\f$f\f$, a CeedOperator expresses operations of the form
ec3da8bcSJed Brown///   $$ E^T B^T f(B E u) $$
ec3da8bcSJed Brown///   acting on the vector \f$u\f$.
ec3da8bcSJed Brown/// @ingroup CeedOperatorUser
ec3da8bcSJed Browntypedef struct CeedOperator_private *CeedOperator;
ec3da8bcSJed Brown
*22e44211SjeremyltCEED_EXTERN int CeedRegistryGetList(size_t *n, char ***const resources, CeedInt **array);
ec3da8bcSJed BrownCEED_EXTERN int CeedInit(const char *resource, Ceed *ceed);
ec3da8bcSJed BrownCEED_EXTERN int CeedGetResource(Ceed ceed, const char **resource);
ec3da8bcSJed BrownCEED_EXTERN int CeedIsDeterministic(Ceed ceed, bool *isDeterministic);
ec3da8bcSJed BrownCEED_EXTERN int CeedView(Ceed ceed, FILE *stream);
ec3da8bcSJed BrownCEED_EXTERN int CeedDestroy(Ceed *ceed);
ec3da8bcSJed Brown
ec3da8bcSJed BrownCEED_EXTERN int CeedErrorImpl(Ceed, const char *, int, const char *, int,
ec3da8bcSJed Brown                              const char *, ...);
ec3da8bcSJed Brown/// Raise an error on ceed object
ec3da8bcSJed Brown///
ec3da8bcSJed Brown/// @param ceed Ceed library context or NULL
ec3da8bcSJed Brown/// @param ecode Error code (int)
ec3da8bcSJed Brown/// @param ... printf-style format string followed by arguments as needed
ec3da8bcSJed Brown///
ec3da8bcSJed Brown/// @ingroup Ceed
ec3da8bcSJed Brown/// @sa CeedSetErrorHandler()
ec3da8bcSJed Brown#if defined(__clang__)
ec3da8bcSJed Brown/// Use nonstandard ternary to convince the compiler/clang-tidy that this
ec3da8bcSJed Brown/// function never returns zero.
ec3da8bcSJed Brown#  define CeedError(ceed, ecode, ...)                                     \
ec3da8bcSJed Brown  (CeedErrorImpl((ceed), __FILE__, __LINE__, __func__, (ecode), __VA_ARGS__) ?: (ecode))
ec3da8bcSJed Brown#else
ec3da8bcSJed Brown#  define CeedError(ceed, ecode, ...)                                     \
ec3da8bcSJed Brown  CeedErrorImpl((ceed), __FILE__, __LINE__, __func__, (ecode), __VA_ARGS__) ?: (ecode)
ec3da8bcSJed Brown#endif
ec3da8bcSJed Brown
ec3da8bcSJed Brown/// Ceed error handlers
ec3da8bcSJed BrownCEED_EXTERN int CeedErrorReturn(Ceed, const char *, int, const char *, int,
ec3da8bcSJed Brown                                const char *, va_list *);
ec3da8bcSJed BrownCEED_EXTERN int CeedErrorStore(Ceed, const char *, int, const char *, int,
ec3da8bcSJed Brown                               const char *, va_list *);
ec3da8bcSJed BrownCEED_EXTERN int CeedErrorAbort(Ceed, const char *, int, const char *, int,
ec3da8bcSJed Brown                               const char *, va_list *);
ec3da8bcSJed BrownCEED_EXTERN int CeedErrorExit(Ceed, const char *, int, const char *, int,
ec3da8bcSJed Brown                              const char *, va_list *);
ec3da8bcSJed Browntypedef int (*CeedErrorHandler)(Ceed, const char *, int,
ec3da8bcSJed Brown                                const char *, int, const char *,
ec3da8bcSJed Brown                                va_list *);
ec3da8bcSJed BrownCEED_EXTERN int CeedSetErrorHandler(Ceed ceed, CeedErrorHandler eh);
ec3da8bcSJed BrownCEED_EXTERN int CeedGetErrorMessage(Ceed, const char **errmsg);
ec3da8bcSJed BrownCEED_EXTERN int CeedResetErrorMessage(Ceed, const char **errmsg);
ec3da8bcSJed Brown
ec3da8bcSJed Brown/// libCEED library version numbering
ec3da8bcSJed Brown/// @ingroup Ceed
ec3da8bcSJed Brown#define CEED_VERSION_MAJOR 0
ec3da8bcSJed Brown#define CEED_VERSION_MINOR 7
ec3da8bcSJed Brown#define CEED_VERSION_PATCH 0
ec3da8bcSJed Brown#define CEED_VERSION_RELEASE false
ec3da8bcSJed Brown
ec3da8bcSJed Brown/// Compile-time check that the the current library version is at least as
ec3da8bcSJed Brown/// recent as the specified version. This macro is typically used in
ec3da8bcSJed Brown/// @code
ec3da8bcSJed Brown/// #if CEED_VERSION_GE(0, 8, 0)
ec3da8bcSJed Brown///   code path that needs at least 0.8.0
ec3da8bcSJed Brown/// #else
ec3da8bcSJed Brown///   fallback code for older versions
ec3da8bcSJed Brown/// #endif
ec3da8bcSJed Brown/// @endcode
ec3da8bcSJed Brown///
ec3da8bcSJed Brown/// A non-release version always compares as positive infinity.
ec3da8bcSJed Brown///
ec3da8bcSJed Brown/// @param major   Major version
ec3da8bcSJed Brown/// @param minor   Minor version
ec3da8bcSJed Brown/// @param patch   Patch (subminor) version
ec3da8bcSJed Brown///
ec3da8bcSJed Brown/// @ingroup Ceed
ec3da8bcSJed Brown/// @sa CeedGetVersion()
ec3da8bcSJed Brown#define CEED_VERSION_GE(major, minor, patch)                                   \
ec3da8bcSJed Brown  (!CEED_VERSION_RELEASE ||                                                    \
ec3da8bcSJed Brown   (CEED_VERSION_MAJOR > major ||                                              \
ec3da8bcSJed Brown    (CEED_VERSION_MAJOR == major &&                                            \
ec3da8bcSJed Brown     (CEED_VERSION_MINOR > minor ||                                            \
ec3da8bcSJed Brown      (CEED_VERSION_MINOR == minor && CEED_VERSION_PATCH >= patch)))))
ec3da8bcSJed Brown
ec3da8bcSJed BrownCEED_EXTERN int CeedGetVersion(int *major, int *minor, int *patch,
ec3da8bcSJed Brown                               bool *release);
ec3da8bcSJed Brown
ec3da8bcSJed Brown/// Ceed Errors
ec3da8bcSJed Brown///
ec3da8bcSJed Brown/// This enum is used to specify the type of error returned by a function.
ec3da8bcSJed Brown/// A zero error code is success, negative error codes indicate terminal errors
ec3da8bcSJed Brown/// and positive error codes indicate nonterminal errors. With nonterminal errors
ec3da8bcSJed Brown/// the object state has not been modifiend, but with terminal errors the object
ec3da8bcSJed Brown/// data is likely modified or corrupted.
ec3da8bcSJed Brown/// @ingroup Ceed
ec3da8bcSJed Browntypedef enum {
ec3da8bcSJed Brown  /// Sucess error code
ec3da8bcSJed Brown  CEED_ERROR_SUCCESS     = 0,
ec3da8bcSJed Brown  /// Minor error, generic
ec3da8bcSJed Brown  CEED_ERROR_MINOR       = 1,
ec3da8bcSJed Brown  /// Minor error, dimension mismatch in inputs
ec3da8bcSJed Brown  CEED_ERROR_DIMENSION   = 2,
ec3da8bcSJed Brown  /// Minor error, incomplete object setup
ec3da8bcSJed Brown  CEED_ERROR_INCOMPLETE  = 3,
ec3da8bcSJed Brown  /// Minor error, incompatible arguments/configuration
ec3da8bcSJed Brown  CEED_ERROR_INCOMPATIBLE = 4,
ec3da8bcSJed Brown  /// Minor error, access lock problem
ec3da8bcSJed Brown  CEED_ERROR_ACCESS      = 5,
ec3da8bcSJed Brown  /// Major error, generic
ec3da8bcSJed Brown  CEED_ERROR_MAJOR       = -1,
ec3da8bcSJed Brown  /// Major error, internal backend error
ec3da8bcSJed Brown  CEED_ERROR_BACKEND     = -2,
ec3da8bcSJed Brown  /// Major error, operation unsupported by current backend
ec3da8bcSJed Brown  CEED_ERROR_UNSUPPORTED = -3,
ec3da8bcSJed Brown} CeedErrorType;
ec3da8bcSJed Brown
ec3da8bcSJed BrownCEED_EXTERN const char *const *CeedErrorTypes;
ec3da8bcSJed Brown
ec3da8bcSJed Brown/// Specify memory type
ec3da8bcSJed Brown///
ec3da8bcSJed Brown/// Many Ceed interfaces take or return pointers to memory.  This enum is used to
ec3da8bcSJed Brown/// specify where the memory being provided or requested must reside.
ec3da8bcSJed Brown/// @ingroup Ceed
ec3da8bcSJed Browntypedef enum {
ec3da8bcSJed Brown  /// Memory resides on the host
ec3da8bcSJed Brown  CEED_MEM_HOST,
ec3da8bcSJed Brown  /// Memory resides on a device (corresponding to \ref Ceed resource)
ec3da8bcSJed Brown  CEED_MEM_DEVICE,
ec3da8bcSJed Brown} CeedMemType;
ec3da8bcSJed Brown
ec3da8bcSJed BrownCEED_EXTERN const char *const CeedMemTypes[];
ec3da8bcSJed Brown
ec3da8bcSJed BrownCEED_EXTERN int CeedGetPreferredMemType(Ceed ceed, CeedMemType *type);
ec3da8bcSJed Brown
ec3da8bcSJed Brown/// Conveys ownership status of arrays passed to Ceed interfaces.
ec3da8bcSJed Brown/// @ingroup Ceed
ec3da8bcSJed Browntypedef enum {
ec3da8bcSJed Brown  /// Implementation will copy the values and not store the passed pointer.
ec3da8bcSJed Brown  CEED_COPY_VALUES,
ec3da8bcSJed Brown  /// Implementation can use and modify the data provided by the user, but does
ec3da8bcSJed Brown  /// not take ownership.
ec3da8bcSJed Brown  CEED_USE_POINTER,
ec3da8bcSJed Brown  /// Implementation takes ownership of the pointer and will free using
ec3da8bcSJed Brown  /// CeedFree() when done using it.  The user should not assume that the
ec3da8bcSJed Brown  /// pointer remains valid after ownership has been transferred.  Note that
ec3da8bcSJed Brown  /// arrays allocated using C++ operator new or other allocators cannot
ec3da8bcSJed Brown  /// generally be freed using CeedFree().  CeedFree() is capable of freeing any
ec3da8bcSJed Brown  /// memory that can be freed using free(3).
ec3da8bcSJed Brown  CEED_OWN_POINTER,
ec3da8bcSJed Brown} CeedCopyMode;
ec3da8bcSJed Brown
ec3da8bcSJed Brown/// Denotes type of vector norm to be computed
ec3da8bcSJed Brown/// @ingroup CeedVector
ec3da8bcSJed Browntypedef enum {
ec3da8bcSJed Brown  /// L_1 norm: sum_i |x_i|
ec3da8bcSJed Brown  CEED_NORM_1,
ec3da8bcSJed Brown  /// L_2 norm: sqrt(sum_i |x_i|^2)
ec3da8bcSJed Brown  CEED_NORM_2,
ec3da8bcSJed Brown  /// L_Infinity norm: max_i |x_i|
ec3da8bcSJed Brown  CEED_NORM_MAX,
ec3da8bcSJed Brown} CeedNormType;
ec3da8bcSJed Brown
ec3da8bcSJed BrownCEED_EXTERN const char *const CeedCopyModes[];
ec3da8bcSJed Brown
ec3da8bcSJed BrownCEED_EXTERN int CeedVectorCreate(Ceed ceed, CeedInt len, CeedVector *vec);
ec3da8bcSJed BrownCEED_EXTERN int CeedVectorSetArray(CeedVector vec, CeedMemType mtype,
ec3da8bcSJed Brown                                   CeedCopyMode cmode, CeedScalar *array);
ec3da8bcSJed BrownCEED_EXTERN int CeedVectorSetValue(CeedVector vec, CeedScalar value);
ec3da8bcSJed BrownCEED_EXTERN int CeedVectorSyncArray(CeedVector vec, CeedMemType mtype);
ec3da8bcSJed BrownCEED_EXTERN int CeedVectorTakeArray(CeedVector vec, CeedMemType mtype,
ec3da8bcSJed Brown                                    CeedScalar **array);
ec3da8bcSJed BrownCEED_EXTERN int CeedVectorGetArray(CeedVector vec, CeedMemType mtype,
ec3da8bcSJed Brown                                   CeedScalar **array);
ec3da8bcSJed BrownCEED_EXTERN int CeedVectorGetArrayRead(CeedVector vec, CeedMemType mtype,
ec3da8bcSJed Brown                                       const CeedScalar **array);
ec3da8bcSJed BrownCEED_EXTERN int CeedVectorRestoreArray(CeedVector vec, CeedScalar **array);
ec3da8bcSJed BrownCEED_EXTERN int CeedVectorRestoreArrayRead(CeedVector vec,
ec3da8bcSJed Brown    const CeedScalar **array);
ec3da8bcSJed BrownCEED_EXTERN int CeedVectorNorm(CeedVector vec, CeedNormType type,
ec3da8bcSJed Brown                               CeedScalar *norm);
ec3da8bcSJed BrownCEED_EXTERN int CeedVectorReciprocal(CeedVector vec);
ec3da8bcSJed BrownCEED_EXTERN int CeedVectorView(CeedVector vec, const char *fpfmt, FILE *stream);
ec3da8bcSJed BrownCEED_EXTERN int CeedVectorGetLength(CeedVector vec, CeedInt *length);
ec3da8bcSJed BrownCEED_EXTERN int CeedVectorDestroy(CeedVector *vec);
ec3da8bcSJed Brown
ec3da8bcSJed BrownCEED_EXTERN CeedRequest *const CEED_REQUEST_IMMEDIATE;
ec3da8bcSJed BrownCEED_EXTERN CeedRequest *const CEED_REQUEST_ORDERED;
ec3da8bcSJed BrownCEED_EXTERN int CeedRequestWait(CeedRequest *req);
ec3da8bcSJed Brown
ec3da8bcSJed Brown/// Argument for CeedOperatorSetField that vector is collocated with
ec3da8bcSJed Brown/// quadrature points, used with QFunction eval mode CEED_EVAL_NONE
ec3da8bcSJed Brown/// or CEED_EVAL_INTERP only, not with CEED_EVAL_GRAD, CEED_EVAL_DIV,
ec3da8bcSJed Brown/// or CEED_EVAL_CURL
ec3da8bcSJed Brown/// @ingroup CeedBasis
ec3da8bcSJed BrownCEED_EXTERN const CeedBasis CEED_BASIS_COLLOCATED;
ec3da8bcSJed Brown
ec3da8bcSJed Brown/// Argument for CeedOperatorSetField to use active input or output
ec3da8bcSJed Brown/// @ingroup CeedVector
ec3da8bcSJed BrownCEED_EXTERN const CeedVector CEED_VECTOR_ACTIVE;
ec3da8bcSJed Brown
ec3da8bcSJed Brown/// Argument for CeedOperatorSetField to use no vector, used with
ec3da8bcSJed Brown/// qfunction input with eval mode CEED_EVAL_WEIGHT
ec3da8bcSJed Brown/// @ingroup CeedVector
ec3da8bcSJed BrownCEED_EXTERN const CeedVector CEED_VECTOR_NONE;
ec3da8bcSJed Brown
ec3da8bcSJed Brown/// Argument for CeedOperatorSetField to use no ElemRestriction, only used with
ec3da8bcSJed Brown/// eval mode CEED_EVAL_WEIGHT.
ec3da8bcSJed Brown/// @ingroup CeedElemRestriction
ec3da8bcSJed BrownCEED_EXTERN const CeedElemRestriction CEED_ELEMRESTRICTION_NONE;
ec3da8bcSJed Brown
ec3da8bcSJed Brown/// Argument for CeedOperatorCreate that QFunction is not created by user.
ec3da8bcSJed Brown/// Only used for QFunctions dqf and dqfT. If implemented, a backend may
ec3da8bcSJed Brown/// attempt to provide the action of these QFunctions.
ec3da8bcSJed Brown/// @ingroup CeedQFunction
ec3da8bcSJed BrownCEED_EXTERN const CeedQFunction CEED_QFUNCTION_NONE;
ec3da8bcSJed Brown
ec3da8bcSJed Brown/// Denotes whether a linear transformation or its transpose should be applied
ec3da8bcSJed Brown/// @ingroup CeedBasis
ec3da8bcSJed Browntypedef enum {
ec3da8bcSJed Brown  /// Apply the linear transformation
ec3da8bcSJed Brown  CEED_NOTRANSPOSE,
ec3da8bcSJed Brown  /// Apply the transpose
ec3da8bcSJed Brown  CEED_TRANSPOSE
ec3da8bcSJed Brown} CeedTransposeMode;
ec3da8bcSJed Brown
ec3da8bcSJed BrownCEED_EXTERN const char *const CeedTransposeModes[];
ec3da8bcSJed Brown
ec3da8bcSJed Brown/// Argument for CeedElemRestrictionCreateStrided that L-vector is in
ec3da8bcSJed Brown/// the Ceed backend's preferred layout. This argument should only be used
ec3da8bcSJed Brown/// with vectors created by a Ceed backend.
ec3da8bcSJed Brown/// @ingroup CeedElemRestriction
ec3da8bcSJed BrownCEED_EXTERN const CeedInt CEED_STRIDES_BACKEND[3];
ec3da8bcSJed Brown
ec3da8bcSJed BrownCEED_EXTERN int CeedElemRestrictionCreate(Ceed ceed, CeedInt nelem,
ec3da8bcSJed Brown    CeedInt elemsize, CeedInt ncomp, CeedInt compstride, CeedInt lsize,
ec3da8bcSJed Brown    CeedMemType mtype, CeedCopyMode cmode, const CeedInt *offsets,
ec3da8bcSJed Brown    CeedElemRestriction *rstr);
ec3da8bcSJed BrownCEED_EXTERN int CeedElemRestrictionCreateStrided(Ceed ceed,
ec3da8bcSJed Brown    CeedInt nelem, CeedInt elemsize, CeedInt ncomp, CeedInt lsize,
ec3da8bcSJed Brown    const CeedInt strides[3], CeedElemRestriction *rstr);
ec3da8bcSJed BrownCEED_EXTERN int CeedElemRestrictionCreateBlocked(Ceed ceed, CeedInt nelem,
ec3da8bcSJed Brown    CeedInt elemsize, CeedInt blksize, CeedInt ncomp, CeedInt compstride,
ec3da8bcSJed Brown    CeedInt lsize, CeedMemType mtype, CeedCopyMode cmode,
ec3da8bcSJed Brown    const CeedInt *offsets, CeedElemRestriction *rstr);
ec3da8bcSJed BrownCEED_EXTERN int CeedElemRestrictionCreateBlockedStrided(Ceed ceed,
ec3da8bcSJed Brown    CeedInt nelem, CeedInt elemsize, CeedInt blksize, CeedInt ncomp,
ec3da8bcSJed Brown    CeedInt lsize, const CeedInt strides[3], CeedElemRestriction *rstr);
ec3da8bcSJed BrownCEED_EXTERN int CeedElemRestrictionCreateVector(CeedElemRestriction rstr,
ec3da8bcSJed Brown    CeedVector *lvec, CeedVector *evec);
ec3da8bcSJed BrownCEED_EXTERN int CeedElemRestrictionApply(CeedElemRestriction rstr,
ec3da8bcSJed Brown    CeedTransposeMode tmode, CeedVector u, CeedVector ru, CeedRequest *request);
ec3da8bcSJed BrownCEED_EXTERN int CeedElemRestrictionApplyBlock(CeedElemRestriction rstr,
ec3da8bcSJed Brown    CeedInt block, CeedTransposeMode tmode, CeedVector u, CeedVector ru,
ec3da8bcSJed Brown    CeedRequest *request);
ec3da8bcSJed BrownCEED_EXTERN int CeedElemRestrictionGetCompStride(CeedElemRestriction rstr,
ec3da8bcSJed Brown    CeedInt *compstride);
ec3da8bcSJed BrownCEED_EXTERN int CeedElemRestrictionGetNumElements(CeedElemRestriction rstr,
ec3da8bcSJed Brown    CeedInt *numelem);
ec3da8bcSJed BrownCEED_EXTERN int CeedElemRestrictionGetElementSize(CeedElemRestriction rstr,
ec3da8bcSJed Brown    CeedInt *elemsize);
ec3da8bcSJed BrownCEED_EXTERN int CeedElemRestrictionGetLVectorSize(CeedElemRestriction rstr,
ec3da8bcSJed Brown    CeedInt *lsize);
ec3da8bcSJed BrownCEED_EXTERN int CeedElemRestrictionGetNumComponents(CeedElemRestriction rstr,
ec3da8bcSJed Brown    CeedInt *numcomp);
ec3da8bcSJed BrownCEED_EXTERN int CeedElemRestrictionGetNumBlocks(CeedElemRestriction rstr,
ec3da8bcSJed Brown    CeedInt *numblk);
ec3da8bcSJed BrownCEED_EXTERN int CeedElemRestrictionGetBlockSize(CeedElemRestriction rstr,
ec3da8bcSJed Brown    CeedInt *blksize);
ec3da8bcSJed BrownCEED_EXTERN int CeedElemRestrictionGetMultiplicity(CeedElemRestriction rstr,
ec3da8bcSJed Brown    CeedVector mult);
ec3da8bcSJed BrownCEED_EXTERN int CeedElemRestrictionView(CeedElemRestriction rstr, FILE *stream);
ec3da8bcSJed BrownCEED_EXTERN int CeedElemRestrictionDestroy(CeedElemRestriction *rstr);
ec3da8bcSJed Brown
ec3da8bcSJed Brown// The formalism here is that we have the structure
ec3da8bcSJed Brown//  \int_\Omega v^T f_0(u, \nabla u, qdata) + (\nabla v)^T f_1(u, \nabla u, qdata)
ec3da8bcSJed Brown// where gradients are with respect to the reference element.
ec3da8bcSJed Brown
ec3da8bcSJed Brown/// Basis evaluation mode
ec3da8bcSJed Brown///
ec3da8bcSJed Brown/// Modes can be bitwise ORed when passing to most functions.
ec3da8bcSJed Brown/// @ingroup CeedBasis
ec3da8bcSJed Browntypedef enum {
ec3da8bcSJed Brown  /// Perform no evaluation (either because there is no data or it is already at
ec3da8bcSJed Brown  /// quadrature points)
ec3da8bcSJed Brown  CEED_EVAL_NONE   = 0,
ec3da8bcSJed Brown  /// Interpolate from nodes to quadrature points
ec3da8bcSJed Brown  CEED_EVAL_INTERP = 1,
ec3da8bcSJed Brown  /// Evaluate gradients at quadrature points from input in a nodal basis
ec3da8bcSJed Brown  CEED_EVAL_GRAD   = 2,
ec3da8bcSJed Brown  /// Evaluate divergence at quadrature points from input in a nodal basis
ec3da8bcSJed Brown  CEED_EVAL_DIV    = 4,
ec3da8bcSJed Brown  /// Evaluate curl at quadrature points from input in a nodal basis
ec3da8bcSJed Brown  CEED_EVAL_CURL   = 8,
ec3da8bcSJed Brown  /// Using no input, evaluate quadrature weights on the reference element
ec3da8bcSJed Brown  CEED_EVAL_WEIGHT = 16,
ec3da8bcSJed Brown} CeedEvalMode;
ec3da8bcSJed Brown
ec3da8bcSJed BrownCEED_EXTERN const char *const CeedEvalModes[];
ec3da8bcSJed Brown
ec3da8bcSJed Brown/// Type of quadrature; also used for location of nodes
ec3da8bcSJed Brown/// @ingroup CeedBasis
ec3da8bcSJed Browntypedef enum {
ec3da8bcSJed Brown  /// Gauss-Legendre quadrature
ec3da8bcSJed Brown  CEED_GAUSS = 0,
ec3da8bcSJed Brown  /// Gauss-Legendre-Lobatto quadrature
ec3da8bcSJed Brown  CEED_GAUSS_LOBATTO = 1,
ec3da8bcSJed Brown} CeedQuadMode;
ec3da8bcSJed Brown
ec3da8bcSJed BrownCEED_EXTERN const char *const CeedQuadModes[];
ec3da8bcSJed Brown
ec3da8bcSJed Brown/// Type of basis shape to create non-tensor H1 element basis
ec3da8bcSJed Brown///
ec3da8bcSJed Brown/// Dimension can be extracted with bitwise AND
ec3da8bcSJed Brown/// (CeedElemTopology & 2**(dim + 2)) == TRUE
ec3da8bcSJed Brown/// @ingroup CeedBasis
ec3da8bcSJed Browntypedef enum {
ec3da8bcSJed Brown  /// Line
ec3da8bcSJed Brown  CEED_LINE = 1 << 16 | 0,
ec3da8bcSJed Brown  /// Triangle - 2D shape
ec3da8bcSJed Brown  CEED_TRIANGLE = 2 << 16 | 1,
ec3da8bcSJed Brown  /// Quadralateral - 2D shape
ec3da8bcSJed Brown  CEED_QUAD = 2 << 16 | 2,
ec3da8bcSJed Brown  /// Tetrahedron - 3D shape
ec3da8bcSJed Brown  CEED_TET = 3 << 16 | 3,
ec3da8bcSJed Brown  /// Pyramid - 3D shape
ec3da8bcSJed Brown  CEED_PYRAMID = 3 << 16 | 4,
ec3da8bcSJed Brown  /// Prism - 3D shape
ec3da8bcSJed Brown  CEED_PRISM = 3 << 16 | 5,
ec3da8bcSJed Brown  /// Hexehedron - 3D shape
ec3da8bcSJed Brown  CEED_HEX = 3 << 16 | 6,
ec3da8bcSJed Brown} CeedElemTopology;
ec3da8bcSJed Brown
ec3da8bcSJed BrownCEED_EXTERN const char *const CeedElemTopologies[];
ec3da8bcSJed Brown
ec3da8bcSJed BrownCEED_EXTERN int CeedBasisCreateTensorH1Lagrange(Ceed ceed, CeedInt dim,
ec3da8bcSJed Brown    CeedInt ncomp, CeedInt P, CeedInt Q, CeedQuadMode qmode, CeedBasis *basis);
ec3da8bcSJed BrownCEED_EXTERN int CeedBasisCreateTensorH1(Ceed ceed, CeedInt dim, CeedInt ncomp,
ec3da8bcSJed Brown                                        CeedInt P1d, CeedInt Q1d,
ec3da8bcSJed Brown                                        const CeedScalar *interp1d,
ec3da8bcSJed Brown                                        const CeedScalar *grad1d,
ec3da8bcSJed Brown                                        const CeedScalar *qref1d,
ec3da8bcSJed Brown                                        const CeedScalar *qweight1d,
ec3da8bcSJed Brown                                        CeedBasis *basis);
ec3da8bcSJed BrownCEED_EXTERN int CeedBasisCreateH1(Ceed ceed, CeedElemTopology topo,
ec3da8bcSJed Brown                                  CeedInt ncomp,
ec3da8bcSJed Brown                                  CeedInt nnodes, CeedInt nqpts,
ec3da8bcSJed Brown                                  const CeedScalar *interp,
ec3da8bcSJed Brown                                  const CeedScalar *grad,
ec3da8bcSJed Brown                                  const CeedScalar *qref,
ec3da8bcSJed Brown                                  const CeedScalar *qweight, CeedBasis *basis);
ec3da8bcSJed BrownCEED_EXTERN int CeedBasisView(CeedBasis basis, FILE *stream);
ec3da8bcSJed BrownCEED_EXTERN int CeedBasisApply(CeedBasis basis, CeedInt nelem,
ec3da8bcSJed Brown                               CeedTransposeMode tmode,
ec3da8bcSJed Brown                               CeedEvalMode emode, CeedVector u, CeedVector v);
ec3da8bcSJed BrownCEED_EXTERN int CeedBasisGetDimension(CeedBasis basis, CeedInt *dim);
ec3da8bcSJed BrownCEED_EXTERN int CeedBasisGetTopology(CeedBasis basis, CeedElemTopology *topo);
ec3da8bcSJed BrownCEED_EXTERN int CeedBasisGetNumComponents(CeedBasis basis, CeedInt *numcomp);
ec3da8bcSJed BrownCEED_EXTERN int CeedBasisGetNumNodes(CeedBasis basis, CeedInt *P);
ec3da8bcSJed BrownCEED_EXTERN int CeedBasisGetNumNodes1D(CeedBasis basis, CeedInt *P1d);
ec3da8bcSJed BrownCEED_EXTERN int CeedBasisGetNumQuadraturePoints(CeedBasis basis, CeedInt *Q);
ec3da8bcSJed BrownCEED_EXTERN int CeedBasisGetNumQuadraturePoints1D(CeedBasis basis,
ec3da8bcSJed Brown    CeedInt *Q1d);
ec3da8bcSJed BrownCEED_EXTERN int CeedBasisGetQRef(CeedBasis basis, const CeedScalar **qref);
ec3da8bcSJed BrownCEED_EXTERN int CeedBasisGetQWeights(CeedBasis basis,
ec3da8bcSJed Brown                                     const CeedScalar **qweight);
ec3da8bcSJed BrownCEED_EXTERN int CeedBasisGetInterp(CeedBasis basis, const CeedScalar **interp);
ec3da8bcSJed BrownCEED_EXTERN int CeedBasisGetInterp1D(CeedBasis basis,
ec3da8bcSJed Brown                                     const CeedScalar **interp1d);
ec3da8bcSJed BrownCEED_EXTERN int CeedBasisGetGrad(CeedBasis basis, const CeedScalar **grad);
ec3da8bcSJed BrownCEED_EXTERN int CeedBasisGetGrad1D(CeedBasis basis, const CeedScalar **grad1d);
ec3da8bcSJed BrownCEED_EXTERN int CeedBasisDestroy(CeedBasis *basis);
ec3da8bcSJed Brown
ec3da8bcSJed BrownCEED_EXTERN int CeedGaussQuadrature(CeedInt Q, CeedScalar *qref1d,
ec3da8bcSJed Brown                                    CeedScalar *qweight1d);
ec3da8bcSJed BrownCEED_EXTERN int CeedLobattoQuadrature(CeedInt Q, CeedScalar *qref1d,
ec3da8bcSJed Brown                                      CeedScalar *qweight1d);
ec3da8bcSJed BrownCEED_EXTERN int CeedQRFactorization(Ceed ceed, CeedScalar *mat, CeedScalar *tau,
ec3da8bcSJed Brown                                    CeedInt m, CeedInt n);
ec3da8bcSJed BrownCEED_EXTERN int CeedSymmetricSchurDecomposition(Ceed ceed, CeedScalar *mat,
ec3da8bcSJed Brown    CeedScalar *lambda, CeedInt n);
ec3da8bcSJed BrownCEED_EXTERN int CeedSimultaneousDiagonalization(Ceed ceed, CeedScalar *matA,
ec3da8bcSJed Brown    CeedScalar *matB, CeedScalar *x, CeedScalar *lambda, CeedInt n);
ec3da8bcSJed Brown
ec3da8bcSJed Brown/** Handle for the object describing the user CeedQFunction
ec3da8bcSJed Brown
ec3da8bcSJed Brown @param ctx user-defined context set using CeedQFunctionSetContext() or NULL
ec3da8bcSJed Brown
ec3da8bcSJed Brown @param Q   number of quadrature points at which to evaluate
ec3da8bcSJed Brown
ec3da8bcSJed Brown @param in  array of pointers to each input argument in the order provided
ec3da8bcSJed Brown              by the user in CeedQFunctionAddInput().  Each array has shape
ec3da8bcSJed Brown              `[dim, ncomp, Q]` where `dim` is the geometric dimension for
ec3da8bcSJed Brown              \ref CEED_EVAL_GRAD (`dim=1` for \ref CEED_EVAL_INTERP) and
ec3da8bcSJed Brown              `ncomp` is the number of field components (`ncomp=1` for
ec3da8bcSJed Brown              scalar fields).  This results in indexing the `i`th input at
ec3da8bcSJed Brown              quadrature point `j` as `in[i][(d*ncomp + c)*Q + j]`.
ec3da8bcSJed Brown
ec3da8bcSJed Brown @param out array of pointers to each output array in the order provided
ec3da8bcSJed Brown              using CeedQFunctionAddOutput().  The shapes are as above for
ec3da8bcSJed Brown              \a in.
ec3da8bcSJed Brown
ec3da8bcSJed Brown @return An error code: 0 - success, otherwise - failure
ec3da8bcSJed Brown
ec3da8bcSJed Brown @ingroup CeedQFunction
ec3da8bcSJed Brown**/
ec3da8bcSJed Browntypedef int (*CeedQFunctionUser)(void *ctx, const CeedInt Q,
ec3da8bcSJed Brown                                 const CeedScalar *const *in,
ec3da8bcSJed Brown                                 CeedScalar *const *out);
ec3da8bcSJed Brown
ec3da8bcSJed BrownCEED_EXTERN int CeedQFunctionCreateInterior(Ceed ceed, CeedInt vlength,
ec3da8bcSJed Brown    CeedQFunctionUser f, const char *source, CeedQFunction *qf);
ec3da8bcSJed BrownCEED_EXTERN int CeedQFunctionCreateInteriorByName(Ceed ceed, const char *name,
ec3da8bcSJed Brown    CeedQFunction *qf);
ec3da8bcSJed BrownCEED_EXTERN int CeedQFunctionCreateIdentity(Ceed ceed, CeedInt size,
ec3da8bcSJed Brown    CeedEvalMode inmode, CeedEvalMode outmode, CeedQFunction *qf);
ec3da8bcSJed BrownCEED_EXTERN int CeedQFunctionAddInput(CeedQFunction qf, const char *fieldname,
ec3da8bcSJed Brown                                      CeedInt size, CeedEvalMode emode);
ec3da8bcSJed BrownCEED_EXTERN int CeedQFunctionAddOutput(CeedQFunction qf, const char *fieldname,
ec3da8bcSJed Brown                                       CeedInt size, CeedEvalMode emode);
ec3da8bcSJed BrownCEED_EXTERN int CeedQFunctionSetContext(CeedQFunction qf,
ec3da8bcSJed Brown                                        CeedQFunctionContext ctx);
ec3da8bcSJed BrownCEED_EXTERN int CeedQFunctionView(CeedQFunction qf, FILE *stream);
ec3da8bcSJed BrownCEED_EXTERN int CeedQFunctionApply(CeedQFunction qf, CeedInt Q,
ec3da8bcSJed Brown                                   CeedVector *u, CeedVector *v);
ec3da8bcSJed BrownCEED_EXTERN int CeedQFunctionDestroy(CeedQFunction *qf);
ec3da8bcSJed Brown
ec3da8bcSJed BrownCEED_EXTERN int CeedQFunctionContextCreate(Ceed ceed,
ec3da8bcSJed Brown    CeedQFunctionContext *ctx);
ec3da8bcSJed BrownCEED_EXTERN int CeedQFunctionContextSetData(CeedQFunctionContext ctx,
ec3da8bcSJed Brown    CeedMemType mtype, CeedCopyMode cmode, size_t size, void *data);
ec3da8bcSJed BrownCEED_EXTERN int CeedQFunctionContextGetData(CeedQFunctionContext ctx,
ec3da8bcSJed Brown    CeedMemType mtype,
ec3da8bcSJed Brown    void *data);
ec3da8bcSJed BrownCEED_EXTERN int CeedQFunctionContextRestoreData(CeedQFunctionContext ctx,
ec3da8bcSJed Brown    void *data);
ec3da8bcSJed BrownCEED_EXTERN int CeedQFunctionContextView(CeedQFunctionContext ctx,
ec3da8bcSJed Brown    FILE *stream);
ec3da8bcSJed BrownCEED_EXTERN int CeedQFunctionContextDestroy(CeedQFunctionContext *ctx);
ec3da8bcSJed Brown
ec3da8bcSJed BrownCEED_EXTERN int CeedOperatorCreate(Ceed ceed, CeedQFunction qf,
ec3da8bcSJed Brown                                   CeedQFunction dqf, CeedQFunction dqfT,
ec3da8bcSJed Brown                                   CeedOperator *op);
ec3da8bcSJed BrownCEED_EXTERN int CeedCompositeOperatorCreate(Ceed ceed, CeedOperator *op);
ec3da8bcSJed BrownCEED_EXTERN int CeedOperatorSetField(CeedOperator op, const char *fieldname,
ec3da8bcSJed Brown                                     CeedElemRestriction r, CeedBasis b,
ec3da8bcSJed Brown                                     CeedVector v);
ec3da8bcSJed BrownCEED_EXTERN int CeedCompositeOperatorAddSub(CeedOperator compositeop,
ec3da8bcSJed Brown    CeedOperator subop);
ec3da8bcSJed BrownCEED_EXTERN int CeedOperatorLinearAssembleQFunction(CeedOperator op,
ec3da8bcSJed Brown    CeedVector *assembled, CeedElemRestriction *rstr, CeedRequest *request);
ec3da8bcSJed BrownCEED_EXTERN int CeedOperatorLinearAssembleDiagonal(CeedOperator op,
ec3da8bcSJed Brown    CeedVector assembled, CeedRequest *request);
ec3da8bcSJed BrownCEED_EXTERN int CeedOperatorLinearAssembleAddDiagonal(CeedOperator op,
ec3da8bcSJed Brown    CeedVector assembled, CeedRequest *request);
ec3da8bcSJed BrownCEED_EXTERN int CeedOperatorLinearAssemblePointBlockDiagonal(CeedOperator op,
ec3da8bcSJed Brown    CeedVector assembled, CeedRequest *request);
ec3da8bcSJed BrownCEED_EXTERN int CeedOperatorLinearAssembleAddPointBlockDiagonal(CeedOperator op,
ec3da8bcSJed Brown    CeedVector assembled, CeedRequest *request);
ec3da8bcSJed BrownCEED_EXTERN int CeedOperatorLinearAssembleSymbolic(CeedOperator op,
ec3da8bcSJed Brown    CeedInt *nentries, CeedInt **rows, CeedInt **cols);
ec3da8bcSJed BrownCEED_EXTERN int CeedOperatorLinearAssemble(CeedOperator op, CeedVector values);
ec3da8bcSJed BrownCEED_EXTERN int CeedOperatorMultigridLevelCreate(CeedOperator opFine,
ec3da8bcSJed Brown    CeedVector PMultFine, CeedElemRestriction rstrCoarse, CeedBasis basisCoarse,
ec3da8bcSJed Brown    CeedOperator *opCoarse, CeedOperator *opProlong, CeedOperator *opRestrict);
ec3da8bcSJed BrownCEED_EXTERN int CeedOperatorMultigridLevelCreateTensorH1(
ec3da8bcSJed Brown  CeedOperator opFine, CeedVector PMultFine, CeedElemRestriction rstrCoarse,
ec3da8bcSJed Brown  CeedBasis basisCoarse, const CeedScalar *interpCtoF, CeedOperator *opCoarse,
ec3da8bcSJed Brown  CeedOperator *opProlong, CeedOperator *opRestrict);
ec3da8bcSJed BrownCEED_EXTERN int CeedOperatorMultigridLevelCreateH1(CeedOperator opFine,
ec3da8bcSJed Brown    CeedVector PMultFine, CeedElemRestriction rstrCoarse, CeedBasis basisCoarse,
ec3da8bcSJed Brown    const CeedScalar *interpCtoF, CeedOperator *opCoarse,
ec3da8bcSJed Brown    CeedOperator *opProlong, CeedOperator *opRestrict);
ec3da8bcSJed BrownCEED_EXTERN int CeedOperatorCreateFDMElementInverse(CeedOperator op,
ec3da8bcSJed Brown    CeedOperator *fdminv, CeedRequest *request);
ec3da8bcSJed BrownCEED_EXTERN int CeedOperatorView(CeedOperator op, FILE *stream);
ec3da8bcSJed BrownCEED_EXTERN int CeedOperatorApply(CeedOperator op, CeedVector in,
ec3da8bcSJed Brown                                  CeedVector out, CeedRequest *request);
ec3da8bcSJed BrownCEED_EXTERN int CeedOperatorApplyAdd(CeedOperator op, CeedVector in,
ec3da8bcSJed Brown                                     CeedVector out, CeedRequest *request);
ec3da8bcSJed BrownCEED_EXTERN int CeedOperatorDestroy(CeedOperator *op);
ec3da8bcSJed Brown
ec3da8bcSJed Brown/**
ec3da8bcSJed Brown  @brief Return integer power
ec3da8bcSJed Brown
ec3da8bcSJed Brown  @param[in] base   The base to exponentiate
ec3da8bcSJed Brown  @param[in] power  The power to raise the base to
ec3da8bcSJed Brown
ec3da8bcSJed Brown  @return base^power
ec3da8bcSJed Brown
ec3da8bcSJed Brown  @ref Utility
ec3da8bcSJed Brown**/
ec3da8bcSJed Brownstatic inline CeedInt CeedIntPow(CeedInt base, CeedInt power) {
ec3da8bcSJed Brown  CeedInt result = 1;
ec3da8bcSJed Brown  while (power) {
ec3da8bcSJed Brown    if (power & 1) result *= base;
ec3da8bcSJed Brown    power >>= 1;
ec3da8bcSJed Brown    base *= base;
ec3da8bcSJed Brown  }
ec3da8bcSJed Brown  return result;
ec3da8bcSJed Brown}
ec3da8bcSJed Brown
ec3da8bcSJed Brown/**
ec3da8bcSJed Brown  @brief Return minimum of two integers
ec3da8bcSJed Brown
ec3da8bcSJed Brown  @param[in] a  The first integer to compare
ec3da8bcSJed Brown  @param[in] b  The second integer to compare
ec3da8bcSJed Brown
ec3da8bcSJed Brown  @return The minimum of the two integers
ec3da8bcSJed Brown
ec3da8bcSJed Brown  @ref Utility
ec3da8bcSJed Brown**/
ec3da8bcSJed Brownstatic inline CeedInt CeedIntMin(CeedInt a, CeedInt b) { return a < b ? a : b; }
ec3da8bcSJed Brown
ec3da8bcSJed Brown/**
ec3da8bcSJed Brown  @brief Return maximum of two integers
ec3da8bcSJed Brown
ec3da8bcSJed Brown  @param[in] a  The first integer to compare
ec3da8bcSJed Brown  @param[in] b  The second integer to compare
ec3da8bcSJed Brown
ec3da8bcSJed Brown  @return The maximum of the two integers
ec3da8bcSJed Brown
ec3da8bcSJed Brown  @ref Utility
ec3da8bcSJed Brown**/
ec3da8bcSJed Brownstatic inline CeedInt CeedIntMax(CeedInt a, CeedInt b) { return a > b ? a : b; }
ec3da8bcSJed Brown
ec3da8bcSJed Brown// Used to ensure initialization before CeedInit()
ec3da8bcSJed BrownCEED_EXTERN int CeedRegisterAll(void);
ec3da8bcSJed Brown// Used to ensure initialization before CeedQFunctionCreate*()
ec3da8bcSJed BrownCEED_EXTERN int CeedQFunctionRegisterAll(void);
ec3da8bcSJed Brown
ec3da8bcSJed Brown#endif