1""" 2 CeedScalar 3 4Scalar (floating point) type. Equivalent to `Float64`. 5""" 6const CeedScalar = C.CeedScalar 7""" 8 CeedInt 9 10Integer type, used for indexing. Equivalent to `Int32`. 11""" 12const CeedInt = C.CeedInt 13 14""" 15 QuadMode 16 17One of `GAUSS` or `GAUSS_LOBATTO`. 18""" 19const QuadMode = C.CeedQuadMode 20const GAUSS = C.CEED_GAUSS 21const GAUSS_LOBATTO = C.CEED_GAUSS_LOBATTO 22 23""" 24 MemType 25 26One of `MEM_HOST` or `MEM_DEVICE`. 27""" 28const MemType = C.CeedMemType 29const MEM_HOST = C.CEED_MEM_HOST 30const MEM_DEVICE = C.CEED_MEM_DEVICE 31 32""" 33 CopyMode 34 35One of `COPY_VALUES`, `USE_POINTER` or `OWN_POINTER`. 36 37`OWN_POINTER` is not typically supported for objects created in Julia, because those must be 38destroyed by the garbage collector, and cannot be freed from C. 39""" 40const CopyMode = C.CeedCopyMode 41const COPY_VALUES = C.CEED_COPY_VALUES 42const USE_POINTER = C.CEED_USE_POINTER 43const OWN_POINTER = C.CEED_OWN_POINTER 44 45""" 46 EvalMode 47 48Evaluation mode used in the specification of input and output fields for Q-functions, e.g. 49in [`@interior_qf`](@ref). 50 51One of: 52- `EVAL_NONE` 53- `EVAL_INTERP` 54- `EVAL_GRAD` 55- `EVAL_DIV` 56- `EVAL_CURL` 57- `EVAL_WEIGHT` 58 59See the [libCEED 60documentation](https://libceed.readthedocs.io/en/latest/api/CeedBasis/?highlight=EVAL_MODE#c.CeedEvalMode) 61for further information. 62""" 63const EvalMode = C.CeedEvalMode 64const EVAL_NONE = C.CEED_EVAL_NONE 65const EVAL_INTERP = C.CEED_EVAL_INTERP 66const EVAL_GRAD = C.CEED_EVAL_GRAD 67const EVAL_DIV = C.CEED_EVAL_DIV 68const EVAL_CURL = C.CEED_EVAL_CURL 69const EVAL_WEIGHT = C.CEED_EVAL_WEIGHT 70 71""" 72 NormType 73 74Denotes type of vector norm. One of `NORM_1`, `NORM_2`, or `NORM_MAX`. 75""" 76const NormType = C.CeedNormType 77const NORM_1 = C.CEED_NORM_1 78const NORM_2 = C.CEED_NORM_2 79const NORM_MAX = C.CEED_NORM_MAX 80 81""" 82 TransposeMose 83 84Denotes whether a linear transformation or its transpose should be applied. Either 85`NOTRANSPOSE` or `TRANSPOSE`. 86""" 87const TransposeMode = C.CeedTransposeMode 88const NOTRANSPOSE = C.CEED_NOTRANSPOSE 89const TRANSPOSE = C.CEED_TRANSPOSE 90 91""" 92 Topology 93 94Type of basis shape to create non-tensor H1 element basis. One of `LINE`, `TRIANGLE`, 95`QUAD`, `TET`, `PYRAMID`, `PRISM`, or `HEX`. 96 97The dimension can be extracted with bitshift: 98 99 dim = Int(topology) >> 16 100""" 101const Topology = C.CeedElemTopology 102const LINE = C.CEED_LINE 103const TRIANGLE = C.CEED_TRIANGLE 104const QUAD = C.CEED_QUAD 105const TET = C.CEED_TET 106const PYRAMID = C.CEED_PYRAMID 107const PRISM = C.CEED_PRISM 108const HEX = C.CEED_HEX 109 110function set_globals() 111 @doc """ 112 STRIDES_BACKEND 113 114 Indicate that the stride is determined by the backend. 115 """ 116 global STRIDES_BACKEND = C.CEED_STRIDES_BACKEND[] 117end 118