xref: /libCEED/rust/libceed-sys/c-src/include/ceed.h (revision 8c23e06a04c8d85344e76487b2ce86a963e650f0) 
1 // Copyright (c) 2017, Lawrence Livermore National Security, LLC. Produced at
2 // the Lawrence Livermore National Laboratory. LLNL-CODE-734707. All Rights
3 // reserved. See files LICENSE and NOTICE for details.
4 //
5 // This file is part of CEED, a collection of benchmarks, miniapps, software
6 // libraries and APIs for efficient high-order finite element and spectral
7 // element discretizations for exascale applications. For more information and
8 // source code availability see http://github.com/ceed.
9 //
10 // The CEED research is supported by the Exascale Computing Project 17-SC-20-SC,
11 // a collaborative effort of two U.S. Department of Energy organizations (Office
12 // of Science and the National Nuclear Security Administration) responsible for
13 // the planning and preparation of a capable exascale ecosystem, including
14 // software, applications, hardware, advanced system engineering and early
15 // testbed platforms, in support of the nation's exascale computing imperative.
16 
17 /// @file
18 /// Public header for libCEED
19 #ifndef _ceed_h
20 #define _ceed_h
21 
22 /**
23   CEED_EXTERN is used in this header to denote all publicly visible symbols.
24 
25   No other file should declare publicly visible symbols, thus it should never be
26   used outside ceed.h.
27  */
28 #ifdef __cplusplus
29 #  define CEED_EXTERN extern "C"
30 #else
31 #  define CEED_EXTERN extern
32 #endif
33 
34 #include <assert.h>
35 #include <stdint.h>
36 #include <stddef.h>
37 #include <stdarg.h>
38 #include <stdio.h>
39 
40 // We can discuss ways to avoid forcing these to be compile-time decisions, but let's leave that for later.
41 /// Integer type, used for indexing
42 /// @ingroup Ceed
43 typedef int32_t CeedInt;
44 /// Scalar (floating point) type
45 /// @ingroup Ceed
46 typedef double CeedScalar;
47 
48 /// Library context created by CeedInit()
49 /// @ingroup Ceed
50 typedef struct Ceed_private *Ceed;
51 /// Non-blocking Ceed interfaces return a CeedRequest.
52 /// To perform an operation immediately, pass \ref CEED_REQUEST_IMMEDIATE instead.
53 /// @ingroup Ceed
54 typedef struct CeedRequest_private *CeedRequest;
55 /// Handle for vectors over the field \ref CeedScalar
56 /// @ingroup CeedVector
57 typedef struct CeedVector_private *CeedVector;
58 /// Handle for object describing restriction to elements
59 /// @ingroup CeedElemRestriction
60 typedef struct CeedElemRestriction_private *CeedElemRestriction;
61 /// Handle for object describing discrete finite element evaluations
62 /// @ingroup CeedBasis
63 typedef struct CeedBasis_private *CeedBasis;
64 /// Handle for object describing functions evaluated independently at quadrature points
65 /// @ingroup CeedQFunction
66 typedef struct CeedQFunction_private *CeedQFunction;
67 /// Handle for object describing FE-type operators acting on vectors
68 ///
69 /// Given an element restriction \f$E\f$, basis evaluator \f$B\f$, and quadrature function
70 /// \f$f\f$, a CeedOperator expresses operations of the form
71 ///   $$ E^T B^T f(B E u) $$
72 /// acting on the vector \f$u\f$.
73 typedef struct CeedOperator_private *CeedOperator;
74 
75 CEED_EXTERN int CeedRegister(const char *prefix,
76                              int (*init)(const char *, Ceed), unsigned int priority);
77 
78 CEED_EXTERN int CeedInit(const char *resource, Ceed *ceed);
79 CEED_EXTERN int CeedErrorReturn(Ceed, const char *, int, const char *, int,
80                                 const char *, va_list);
81 CEED_EXTERN int CeedErrorAbort(Ceed, const char *, int, const char *, int,
82                                const char *, va_list);
83 CEED_EXTERN int CeedSetErrorHandler(Ceed ceed,
84                                     int (eh)(Ceed, const char *, int, const char *,
85                                         int, const char *, va_list));
86 CEED_EXTERN int CeedErrorImpl(Ceed, const char *, int, const char *, int,
87                               const char *, ...);
88 /// Raise an error on ceed object
89 ///
90 /// @param ceed Ceed library context or NULL
91 /// @param ecode Error code (int)
92 /// @param ... printf-style format string followed by arguments as needed
93 ///
94 /// @ingroup Ceed
95 /// @sa CeedSetErrorHandler()
96 #define CeedError(ceed, ecode, ...)                                     \
97   CeedErrorImpl((ceed), __FILE__, __LINE__, __func__, (ecode), __VA_ARGS__)
98 CEED_EXTERN int CeedDestroy(Ceed *ceed);
99 
100 /// Specify memory type
101 ///
102 /// Many Ceed interfaces take or return pointers to memory.  This enum is used to
103 /// specify where the memory being provided or requested must reside.
104 /// @ingroup Ceed
105 typedef enum {
106   /// Memory resides on the host
107   CEED_MEM_HOST,
108   /// Memory resides on a device (corresponding to \ref Ceed resource)
109   CEED_MEM_DEVICE,
110 } CeedMemType;
111 
112 /// Conveys ownership status of arrays passed to Ceed interfaces.
113 /// @ingroup Ceed
114 typedef enum {
115   /// Implementation will copy the values and not store the passed pointer.
116   CEED_COPY_VALUES,
117   /// Implementation can use and modify the data provided by the user, but does
118   /// not take ownership.
119   CEED_USE_POINTER,
120   /// Implementation takes ownership of the pointer and will free using
121   /// CeedFree() when done using it.  The user should not assume that the
122   /// pointer remains valid after ownership has been transferred.  Note that
123   /// arrays allocated using C++ operator new or other allocators cannot
124   /// generally be freed using CeedFree().  CeedFree() is capable of freeing any
125   /// memory that can be freed using free(3).
126   CEED_OWN_POINTER,
127 } CeedCopyMode;
128 
129 CEED_EXTERN int CeedVectorCreate(Ceed ceed, CeedInt len, CeedVector *vec);
130 CEED_EXTERN int CeedVectorSetArray(CeedVector vec, CeedMemType mtype,
131                                    CeedCopyMode cmode, CeedScalar *array);
132 CEED_EXTERN int CeedVectorGetArray(CeedVector vec, CeedMemType mtype,
133                                    CeedScalar **array);
134 CEED_EXTERN int CeedVectorGetArrayRead(CeedVector vec, CeedMemType mtype,
135                                        const CeedScalar **array);
136 CEED_EXTERN int CeedVectorRestoreArray(CeedVector vec, CeedScalar **array);
137 CEED_EXTERN int CeedVectorRestoreArrayRead(CeedVector vec,
138     const CeedScalar **array);
139 CEED_EXTERN int CeedVectorView(CeedVector vec, const char *fpfmt, FILE *stream);
140 CEED_EXTERN int CeedVectorGetLength(CeedVector vec, CeedInt *length);
141 CEED_EXTERN int CeedVectorDestroy(CeedVector *vec);
142 
143 CEED_EXTERN CeedRequest *const CEED_REQUEST_IMMEDIATE;
144 CEED_EXTERN CeedRequest *const CEED_REQUEST_ORDERED;
145 CEED_EXTERN int CeedRequestWait(CeedRequest *req);
146 
147 /// Argument for CeedOperatorSetField to use no restriction
148 /// @ingroup CeedElemRestriction
149 CEED_EXTERN CeedElemRestriction CEED_RESTRICTION_IDENTITY;
150 
151 /// Argument for CeedOperatorSetField that vector is colocated with
152 /// quadrature points, used with qfunction eval mode CEED_EVAL_NONE
153 /// or CEED_EVAL_INTERP only, not with CEED_EVAL_GRAD, CEED_EVAL_DIV,
154 /// or CEED_EVAL_CURL
155 /// @ingroup CeedOperator
156 CEED_EXTERN CeedBasis CEED_BASIS_COLOCATED;
157 
158 /// Argument for CeedOperatorSetField to use active input or output
159 /// @ingroup CeedVector
160 CEED_EXTERN CeedVector CEED_VECTOR_ACTIVE;
161 
162 /// Argument for CeedOperatorSetField to use no vector, used with
163 /// qfunction input with eval mode CEED_EVAL_WEIGHTS
164 /// @ingroup CeedVector
165 CEED_EXTERN CeedVector CEED_VECTOR_NONE;
166 
167 /// Denotes whether a linear transformation or its transpose should be applied
168 /// @ingroup CeedBasis
169 typedef enum {
170   /// Apply the linear transformation
171   CEED_NOTRANSPOSE,
172   /// Apply the transpose
173   CEED_TRANSPOSE
174 } CeedTransposeMode;
175 
176 CEED_EXTERN int CeedElemRestrictionCreate(Ceed ceed, CeedInt nelem,
177     CeedInt elemsize, CeedInt ndof, CeedInt ncomp, CeedMemType mtype, CeedCopyMode cmode,
178     const CeedInt *indices, CeedElemRestriction *r);
179 CEED_EXTERN int CeedElemRestrictionCreateBlocked(Ceed ceed, CeedInt nelem,
180     CeedInt elemsize, CeedInt blksize, CeedInt ndof, CeedInt ncomp, CeedMemType mtype, CeedCopyMode cmode,
181     const CeedInt *indices, CeedElemRestriction *r);
182 CEED_EXTERN int CeedElemRestrictionCreateVector(CeedElemRestriction r,
183                                                 CeedVector *lvec,
184                                                 CeedVector *evec);
185 CEED_EXTERN int CeedElemRestrictionGetNumElements(CeedElemRestriction r,
186                                                   CeedInt *numelements);
187 CEED_EXTERN int CeedElemRestrictionApply(CeedElemRestriction r,
188     CeedTransposeMode tmode, CeedTransposeMode lmode, CeedVector u,
189     CeedVector ru, CeedRequest *request);
190 CEED_EXTERN int CeedElemRestrictionDestroy(CeedElemRestriction *r);
191 
192 // The formalism here is that we have the structure
193 //   \int_\Omega v^T f_0(u, \nabla u, qdata) + (\nabla v)^T f_1(u, \nabla u, qdata)
194 // where gradients are with respect to the reference element.
195 
196 /// Basis evaluation mode
197 ///
198 /// Modes can be bitwise ORed when passing to most functions.
199 /// @ingroup CeedBasis
200 typedef enum {
201   /// Perform no evaluation (either because there is no data or it is already at
202   /// quadrature points)
203   CEED_EVAL_NONE   = 0,
204   /// Interpolate from nodes to quadrature points
205   CEED_EVAL_INTERP = 1,
206   /// Evaluate gradients at quadrature points from input in a nodal basis
207   CEED_EVAL_GRAD   = 2,
208   /// Evaluate divergence at quadrature points from input in a nodal basis
209   CEED_EVAL_DIV    = 4,
210   /// Evaluate curl at quadrature points from input in a nodal basis
211   CEED_EVAL_CURL   = 8,
212   /// Using no input, evaluate quadrature weights on the reference element
213   CEED_EVAL_WEIGHT = 16,
214 } CeedEvalMode;
215 
216 /// Type of quadrature; also used for location of nodes
217 /// @ingroup CeedBasis
218 typedef enum {
219   /// Gauss-Legendre quadrature
220   CEED_GAUSS = 0,
221   /// Gauss-Legendre-Lobatto quadrature
222   CEED_GAUSS_LOBATTO = 1,
223 } CeedQuadMode;
224 
225 CEED_EXTERN int CeedBasisCreateTensorH1Lagrange(Ceed ceed, CeedInt dim,
226     CeedInt ndof, CeedInt P, CeedInt Q, CeedQuadMode qmode, CeedBasis *basis);
227 CEED_EXTERN int CeedBasisCreateTensorH1(Ceed ceed, CeedInt dim, CeedInt ndof,
228                                         CeedInt P1d, CeedInt Q1d, const CeedScalar *interp1d, const CeedScalar *grad1d,
229                                         const CeedScalar *qref1d, const CeedScalar *qweight1d, CeedBasis *basis);
230 CEED_EXTERN int CeedBasisView(CeedBasis basis, FILE *stream);
231 CEED_EXTERN int CeedQRFactorization(CeedScalar *mat, CeedScalar *tau, CeedInt m, CeedInt n);
232 CEED_EXTERN int CeedBasisGetColocatedGrad(CeedBasis basis, CeedScalar *colograd1d);
233 CEED_EXTERN int CeedBasisApply(CeedBasis basis, CeedInt nelem, CeedTransposeMode tmode,
234                                CeedEvalMode emode, const CeedScalar *u, CeedScalar *v);
235 CEED_EXTERN int CeedBasisGetNumNodes(CeedBasis basis, CeedInt *P);
236 CEED_EXTERN int CeedBasisGetNumQuadraturePoints(CeedBasis basis, CeedInt *Q);
237 CEED_EXTERN int CeedBasisDestroy(CeedBasis *basis);
238 
239 CEED_EXTERN int CeedGaussQuadrature(CeedInt Q, CeedScalar *qref1d,
240                                     CeedScalar *qweight1d);
241 CEED_EXTERN int CeedLobattoQuadrature(CeedInt Q, CeedScalar *qref1d,
242                                       CeedScalar *qweight1d);
243 
244 CEED_EXTERN int CeedQFunctionCreateInterior(Ceed ceed, CeedInt vlength,
245     int (*f)(void *ctx, CeedInt nq, const CeedScalar *const *u,
246              CeedScalar *const *v), const char *focca, CeedQFunction *qf);
247 CEED_EXTERN int CeedQFunctionAddInput(CeedQFunction qf, const char *fieldname,
248                                       CeedInt ncomp, CeedEvalMode emode);
249 CEED_EXTERN int CeedQFunctionAddOutput(CeedQFunction qf, const char *fieldname,
250                                        CeedInt ncomp, CeedEvalMode emode);
251 CEED_EXTERN int CeedQFunctionGetNumArgs(CeedQFunction qf, CeedInt *numinput,
252                                         CeedInt *numoutput);
253 CEED_EXTERN int CeedQFunctionSetContext(CeedQFunction qf, void *ctx,
254                                         size_t ctxsize);
255 CEED_EXTERN int CeedQFunctionApply(CeedQFunction qf, CeedInt Q,
256                                    const CeedScalar *const *u,
257                                    CeedScalar *const *v);
258 CEED_EXTERN int CeedQFunctionDestroy(CeedQFunction *qf);
259 
260 CEED_EXTERN int CeedOperatorCreate(Ceed ceed, CeedQFunction qf,
261                                    CeedQFunction dqf, CeedQFunction dqfT,
262                                    CeedOperator *op);
263 CEED_EXTERN int CeedOperatorSetField(CeedOperator op, const char *fieldname,
264                                      CeedElemRestriction r, CeedBasis b,
265                                      CeedVector v);
266 CEED_EXTERN int CeedOperatorApply(CeedOperator op, CeedVector in,
267                                   CeedVector out, CeedRequest *request);
268 CEED_EXTERN int CeedOperatorDestroy(CeedOperator *op);
269 
270 static inline CeedInt CeedPowInt(CeedInt base, CeedInt power) {
271   CeedInt result = 1;
272   while (power) {
273     if (power & 1) result *= base;
274     power >>= 1;
275     base *= base;
276   }
277   return result;
278 }
279 
280 #endif
281