// Copyright (c) 2017-2025, 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 #include #include #include /// @file /// Implementation of public CeedQFunction interfaces /// @cond DOXYGEN_SKIP static struct CeedQFunction_private ceed_qfunction_none; /// @endcond /// @addtogroup CeedQFunctionUser /// @{ // Indicate that no `CeedQFunction` is provided by the user const CeedQFunction CEED_QFUNCTION_NONE = &ceed_qfunction_none; /// @} /// @cond DOXYGEN_SKIP static struct { char name[CEED_MAX_RESOURCE_LEN]; char source[CEED_MAX_RESOURCE_LEN]; CeedInt vec_length; CeedQFunctionUser f; int (*init)(Ceed ceed, const char *name, CeedQFunction qf); } gallery_qfunctions[1024]; static size_t num_qfunctions; /// @endcond /// ---------------------------------------------------------------------------- /// CeedQFunction Library Internal Functions /// ---------------------------------------------------------------------------- /// @addtogroup CeedQFunctionDeveloper /// @{ /** @brief Register a gallery `CeedQFunction` @param[in] name Name for this backend to respond to @param[in] source Absolute path to source of `CeedQFunction`, "\path\CEED_DIR\gallery\folder\file.h:function_name" @param[in] vec_length Vector length. Caller must ensure that number of quadrature points is a multiple of `vec_length`. @param[in] f Function pointer to evaluate action at quadrature points. See `CeedQFunctionUser`. @param[in] init Initialization function called by @ref CeedQFunctionCreateInteriorByName() when the `CeedQFunction` is selected. @return An error code: 0 - success, otherwise - failure @ref Developer **/ int CeedQFunctionRegister(const char *name, const char *source, CeedInt vec_length, CeedQFunctionUser f, int (*init)(Ceed, const char *, CeedQFunction)) { const char *relative_file_path; int ierr = 0; CeedDebugEnv("Gallery Register: %s", name); CeedCall(CeedGetJitRelativePath(source, &relative_file_path)); CeedPragmaCritical(CeedQFunctionRegister) { if (num_qfunctions < sizeof(gallery_qfunctions) / sizeof(gallery_qfunctions[0])) { strncpy(gallery_qfunctions[num_qfunctions].name, name, CEED_MAX_RESOURCE_LEN); gallery_qfunctions[num_qfunctions].name[CEED_MAX_RESOURCE_LEN - 1] = 0; strncpy(gallery_qfunctions[num_qfunctions].source, relative_file_path, CEED_MAX_RESOURCE_LEN); gallery_qfunctions[num_qfunctions].source[CEED_MAX_RESOURCE_LEN - 1] = 0; gallery_qfunctions[num_qfunctions].vec_length = vec_length; gallery_qfunctions[num_qfunctions].f = f; gallery_qfunctions[num_qfunctions].init = init; num_qfunctions++; } else { ierr = 1; } } CeedCheck(ierr == 0, NULL, CEED_ERROR_MAJOR, "Too many gallery CeedQFunctions"); return CEED_ERROR_SUCCESS; } /** @brief Set a `CeedQFunction` field, used by @ref CeedQFunctionAddInput() and @ref CeedQFunctionAddOutput() @param[out] f `CeedQFunctionField` @param[in] field_name Name of `CeedQFunction` field @param[in] size Size of `CeedQFunction` field, (`num_comp * 1`) for @ref CEED_EVAL_NONE and @ref CEED_EVAL_WEIGHT, (`num_comp * 1`) for @ref CEED_EVAL_INTERP for an \f$H^1\f$ space or (`num_comp * dim`) for an \f$H(\mathrm{div})\f$ or \f$H(\mathrm{curl})\f$ space, (`num_comp * dim`) for @ref CEED_EVAL_GRAD, or (num_comp * 1) for @ref CEED_EVAL_DIV, and (`num_comp * curl_dim`) with `curl_dim = 1` if `dim < 3` and `curl_dim = dim` for @ref CEED_EVAL_CURL. @param[in] eval_mode @ref CEED_EVAL_NONE to use values directly, @ref CEED_EVAL_WEIGHT to use quadrature weights, @ref CEED_EVAL_INTERP to use interpolated values, @ref CEED_EVAL_GRAD to use gradients, @ref CEED_EVAL_DIV to use divergence, @ref CEED_EVAL_CURL to use curl @return An error code: 0 - success, otherwise - failure @ref Developer **/ static int CeedQFunctionFieldSet(CeedQFunctionField *f, const char *field_name, CeedInt size, CeedEvalMode eval_mode) { CeedCall(CeedCalloc(1, f)); CeedCall(CeedStringAllocCopy(field_name, (char **)&(*f)->field_name)); (*f)->size = size; (*f)->eval_mode = eval_mode; return CEED_ERROR_SUCCESS; } /** @brief View a field of a `CeedQFunction` @param[in] field `CeedQFunction` field to view @param[in] field_number Number of field being viewed @param[in] in true for input field, false for output @param[in] stream Stream to view to, e.g., `stdout` @return An error code: 0 - success, otherwise - failure @ref Utility **/ static int CeedQFunctionFieldView(CeedQFunctionField field, CeedInt field_number, bool in, FILE *stream) { const char *inout = in ? "Input" : "Output"; const char *field_name; CeedInt size; CeedEvalMode eval_mode; CeedCall(CeedQFunctionFieldGetData(field, &field_name, &size, &eval_mode)); fprintf(stream, " %s field %" CeedInt_FMT ":\n" " Name: \"%s\"\n" " Size: %" CeedInt_FMT "\n" " EvalMode: \"%s\"\n", inout, field_number, field_name, size, CeedEvalModes[eval_mode]); return CEED_ERROR_SUCCESS; } /** @brief Set flag to determine if Fortran interface is used @param[in,out] qf CeedQFunction @param[in] status Boolean value to set as Fortran status @return An error code: 0 - success, otherwise - failure @ref Backend **/ int CeedQFunctionSetFortranStatus(CeedQFunction qf, bool status) { qf->is_fortran = status; return CEED_ERROR_SUCCESS; } /// @} /// ---------------------------------------------------------------------------- /// CeedQFunction Backend API /// ---------------------------------------------------------------------------- /// @addtogroup CeedQFunctionBackend /// @{ /** @brief Get the vector length of a `CeedQFunction` @param[in] qf `CeedQFunction` @param[out] vec_length Variable to store vector length @return An error code: 0 - success, otherwise - failure @ref Backend **/ int CeedQFunctionGetVectorLength(CeedQFunction qf, CeedInt *vec_length) { *vec_length = qf->vec_length; return CEED_ERROR_SUCCESS; } /** @brief Get the number of inputs and outputs to a `CeedQFunction` @param[in] qf `CeedQFunction` @param[out] num_input Variable to store number of input fields @param[out] num_output Variable to store number of output fields @return An error code: 0 - success, otherwise - failure @ref Backend **/ int CeedQFunctionGetNumArgs(CeedQFunction qf, CeedInt *num_input, CeedInt *num_output) { if (num_input) *num_input = qf->num_input_fields; if (num_output) *num_output = qf->num_output_fields; return CEED_ERROR_SUCCESS; } /** @brief Get the name of the `CeedQFunction`. Use the `name` if created via @ref `CeedQFunctionCreateInteriorByName`, otherwise return the kernel name via @ref `CeedQFunctionGetKernelName`. @param[in] qf `CeedQFunction` @param[out] kernel_name Variable to store `CeedQFunction` name @return An error code: 0 - success, otherwise - failure @ref Backend **/ int CeedQFunctionGetName(CeedQFunction qf, const char **name) { if (qf->is_gallery) { *name = qf->gallery_name; } else { CeedCall(CeedQFunctionGetKernelName(qf, name)); } return CEED_ERROR_SUCCESS; } /** @brief Get the name of the user function for a `CeedQFunction` @param[in] qf `CeedQFunction` @param[out] kernel_name Variable to store string holding kernel name @return An error code: 0 - success, otherwise - failure @ref Backend **/ int CeedQFunctionGetKernelName(CeedQFunction qf, const char **kernel_name) { if (!qf->kernel_name) { char *kernel_name_copy; if (qf->user_source) { const char *kernel_name = strrchr(qf->user_source, ':') + 1; size_t kernel_name_len = strlen(kernel_name); CeedCall(CeedCalloc(kernel_name_len + 1, &kernel_name_copy)); memcpy(kernel_name_copy, kernel_name, kernel_name_len); } else { CeedCall(CeedCalloc(1, &kernel_name_copy)); } qf->kernel_name = kernel_name_copy; } *kernel_name = qf->kernel_name; return CEED_ERROR_SUCCESS; } /** @brief Get the source path string for a `CeedQFunction` @param[in] qf `CeedQFunction` @param[out] source_path Variable to store source path string @return An error code: 0 - success, otherwise - failure @ref Backend **/ int CeedQFunctionGetSourcePath(CeedQFunction qf, const char **source_path) { if (!qf->source_path && qf->user_source) { Ceed ceed; bool is_absolute_path; char *source_path_copy; const char *absolute_path; const char *kernel_name = strrchr(qf->user_source, ':') + 1; size_t kernel_name_len = strlen(kernel_name); CeedCall(CeedQFunctionGetCeed(qf, &ceed)); CeedCall(CeedCheckFilePath(ceed, qf->user_source, &is_absolute_path)); if (is_absolute_path) { absolute_path = (char *)qf->user_source; } else { CeedCall(CeedGetJitAbsolutePath(ceed, qf->user_source, &absolute_path)); } CeedCall(CeedDestroy(&ceed)); size_t source_len = strlen(absolute_path) - kernel_name_len - 1; CeedCall(CeedCalloc(source_len + 1, &source_path_copy)); memcpy(source_path_copy, absolute_path, source_len); qf->source_path = source_path_copy; if (!is_absolute_path) CeedCall(CeedFree(&absolute_path)); } *source_path = (char *)qf->source_path; return CEED_ERROR_SUCCESS; } /** @brief Initialize and load `CeedQFunction` source file into string buffer, including full text of local files in place of `#include "local.h"`. The `buffer` is set to `NULL` if there is no `CeedQFunction` source file. Note: This function may as well return a mutable buffer, but all current uses do not modify it. (This is just a downside of `const` semantics with output arguments instead of returns.) Note: Caller is responsible for freeing the string buffer with @ref CeedFree(). @param[in] qf `CeedQFunction` @param[out] source_buffer String buffer for source file contents @return An error code: 0 - success, otherwise - failure @ref Backend **/ int CeedQFunctionLoadSourceToBuffer(CeedQFunction qf, const char **source_buffer) { const char *source_path; CeedCall(CeedQFunctionGetSourcePath(qf, &source_path)); *source_buffer = NULL; if (source_path) { Ceed ceed; char *buffer = NULL; CeedCall(CeedQFunctionGetCeed(qf, &ceed)); CeedCall(CeedLoadSourceToBuffer(ceed, source_path, &buffer)); CeedCall(CeedDestroy(&ceed)); *source_buffer = buffer; } return CEED_ERROR_SUCCESS; } /** @brief Get the User Function for a `CeedQFunction` @param[in] qf `CeedQFunction` @param[out] f Variable to store user function @return An error code: 0 - success, otherwise - failure @ref Backend **/ int CeedQFunctionGetUserFunction(CeedQFunction qf, CeedQFunctionUser *f) { *f = qf->function; return CEED_ERROR_SUCCESS; } /** @brief Get global context for a `CeedQFunction`. Note: For `CeedQFunction` from the Fortran interface, this function will return the Fortran context `CeedQFunctionContext`. @param[in] qf CeedQFunction @param[out] ctx Variable to store CeedQFunctionContext @return An error code: 0 - success, otherwise - failure @ref Backend **/ int CeedQFunctionGetContext(CeedQFunction qf, CeedQFunctionContext *ctx) { *ctx = NULL; if (qf->ctx) CeedCall(CeedQFunctionContextReferenceCopy(qf->ctx, ctx)); return CEED_ERROR_SUCCESS; } /** @brief Get context data of a `CeedQFunction` @param[in] qf `CeedQFunction` @param[in] mem_type Memory type on which to access the data. If the backend uses a different memory type, this will perform a copy. @param[out] data Data on memory type mem_type @return An error code: 0 - success, otherwise - failure @ref Backend **/ int CeedQFunctionGetContextData(CeedQFunction qf, CeedMemType mem_type, void *data) { bool is_writable; CeedQFunctionContext ctx; CeedCall(CeedQFunctionGetContext(qf, &ctx)); if (ctx) { CeedCall(CeedQFunctionIsContextWritable(qf, &is_writable)); if (is_writable) { CeedCall(CeedQFunctionContextGetData(ctx, mem_type, data)); } else { CeedCall(CeedQFunctionContextGetDataRead(ctx, mem_type, data)); } } else { *(void **)data = NULL; } CeedCall(CeedQFunctionContextDestroy(&ctx)); return CEED_ERROR_SUCCESS; } /** @brief Restore context data of a `CeedQFunction` @param[in] qf `CeedQFunction` @param[in,out] data Data to restore @return An error code: 0 - success, otherwise - failure @ref Backend **/ int CeedQFunctionRestoreContextData(CeedQFunction qf, void *data) { bool is_writable; CeedQFunctionContext ctx; CeedCall(CeedQFunctionGetContext(qf, &ctx)); if (ctx) { CeedCall(CeedQFunctionIsContextWritable(qf, &is_writable)); if (is_writable) { CeedCall(CeedQFunctionContextRestoreData(ctx, data)); } else { CeedCall(CeedQFunctionContextRestoreDataRead(ctx, data)); } } CeedCall(CeedQFunctionContextDestroy(&ctx)); return CEED_ERROR_SUCCESS; } /** @brief Get true user context for a `CeedQFunction` Note: For all `CeedQFunction` this function will return the user `CeedQFunctionContext` and not interface context `CeedQFunctionContext`, if any such object exists. @param[in] qf `CeedQFunction` @param[out] ctx Variable to store `CeedQFunctionContext` @return An error code: 0 - success, otherwise - failure @ref Backend **/ int CeedQFunctionGetInnerContext(CeedQFunction qf, CeedQFunctionContext *ctx) { CeedQFunctionContext qf_ctx; CeedCall(CeedQFunctionGetContext(qf, &qf_ctx)); if (qf->is_fortran) { CeedFortranContext fortran_ctx = NULL; CeedCall(CeedQFunctionContextGetData(qf_ctx, CEED_MEM_HOST, &fortran_ctx)); *ctx = fortran_ctx->inner_ctx; CeedCall(CeedQFunctionContextRestoreData(qf_ctx, &fortran_ctx)); } else { *ctx = qf_ctx; } CeedCall(CeedQFunctionContextDestroy(&qf_ctx)); return CEED_ERROR_SUCCESS; } /** @brief Get inner context data of a `CeedQFunction` @param[in] qf `CeedQFunction` @param[in] mem_type Memory type on which to access the data. If the backend uses a different memory type, this will perform a copy. @param[out] data Data on memory type mem_type @return An error code: 0 - success, otherwise - failure @ref Backend **/ int CeedQFunctionGetInnerContextData(CeedQFunction qf, CeedMemType mem_type, void *data) { bool is_writable; CeedQFunctionContext ctx; CeedCall(CeedQFunctionGetInnerContext(qf, &ctx)); if (ctx) { CeedCall(CeedQFunctionIsContextWritable(qf, &is_writable)); if (is_writable) { CeedCall(CeedQFunctionContextGetData(ctx, mem_type, data)); } else { CeedCall(CeedQFunctionContextGetDataRead(ctx, mem_type, data)); } } else { *(void **)data = NULL; } return CEED_ERROR_SUCCESS; } /** @brief Restore inner context data of a `CeedQFunction` @param[in] qf `CeedQFunction` @param[in,out] data Data to restore @return An error code: 0 - success, otherwise - failure @ref Backend **/ int CeedQFunctionRestoreInnerContextData(CeedQFunction qf, void *data) { bool is_writable; CeedQFunctionContext ctx; CeedCall(CeedQFunctionGetInnerContext(qf, &ctx)); if (ctx) { CeedCall(CeedQFunctionIsContextWritable(qf, &is_writable)); if (is_writable) { CeedCall(CeedQFunctionContextRestoreData(ctx, data)); } else { CeedCall(CeedQFunctionContextRestoreDataRead(ctx, data)); } } *(void **)data = NULL; return CEED_ERROR_SUCCESS; } /** @brief Determine if `CeedQFunction` is identity @param[in] qf `CeedQFunction` @param[out] is_identity Variable to store identity status @return An error code: 0 - success, otherwise - failure @ref Backend **/ int CeedQFunctionIsIdentity(CeedQFunction qf, bool *is_identity) { *is_identity = qf->is_identity; return CEED_ERROR_SUCCESS; } /** @brief Determine if `CeedQFunctionContext` is writable @param[in] qf `CeedQFunction` @param[out] is_writable Variable to store context writeable status @return An error code: 0 - success, otherwise - failure @ref Backend **/ int CeedQFunctionIsContextWritable(CeedQFunction qf, bool *is_writable) { *is_writable = qf->is_context_writable; return CEED_ERROR_SUCCESS; } /** @brief Get backend data of a `CeedQFunction` @param[in] qf `CeedQFunction` @param[out] data Variable to store data @return An error code: 0 - success, otherwise - failure @ref Backend **/ int CeedQFunctionGetData(CeedQFunction qf, void *data) { *(void **)data = qf->data; return CEED_ERROR_SUCCESS; } /** @brief Set backend data of a `CeedQFunction` @param[in,out] qf `CeedQFunction` @param[in] data Data to set @return An error code: 0 - success, otherwise - failure @ref Backend **/ int CeedQFunctionSetData(CeedQFunction qf, void *data) { qf->data = data; return CEED_ERROR_SUCCESS; } /** @brief Get a boolean value indicating if the `CeedQFunction` is immutable @param[in] qf `CeedOperator` @param[out] is_immutable Variable to store immutability status @return An error code: 0 - success, otherwise - failure @ref Backend **/ int CeedQFunctionIsImmutable(CeedQFunction qf, bool *is_immutable) { *is_immutable = qf->is_immutable; return CEED_ERROR_SUCCESS; } /** @brief Set the immutable flag of a `CeedQFunction` to `true` @param[in,out] qf `CeedQFunction` @return An error code: 0 - success, otherwise - failure @ref Backend **/ int CeedQFunctionSetImmutable(CeedQFunction qf) { qf->is_immutable = true; return CEED_ERROR_SUCCESS; } /** @brief Increment the reference counter for a `CeedQFunction` @param[in,out] qf `CeedQFunction` to increment the reference counter @return An error code: 0 - success, otherwise - failure @ref Backend **/ int CeedQFunctionReference(CeedQFunction qf) { qf->ref_count++; return CEED_ERROR_SUCCESS; } /** @brief Estimate number of FLOPs per quadrature required to apply `CeedQFunction` @param[in] qf `CeedQFunction` to estimate FLOPs for @param[out] flops Address of variable to hold FLOPs estimate @ref Backend **/ int CeedQFunctionGetFlopsEstimate(CeedQFunction qf, CeedSize *flops) { *flops = qf->user_flop_estimate; return CEED_ERROR_SUCCESS; } /// @} /// ---------------------------------------------------------------------------- /// CeedQFunction Public API /// ---------------------------------------------------------------------------- /// @addtogroup CeedQFunctionUser /// @{ /** @brief Create a `CeedQFunction` for evaluating interior (volumetric) terms @param[in] ceed `Ceed` object used to create the `CeedQFunction` @param[in] vec_length Vector length. Caller must ensure that number of quadrature points is a multiple of `vec_length`. @param[in] f Function pointer to evaluate action at quadrature points. See `CeedQFunctionUser`. @param[in] source Absolute path to source of `CeedQFunctionUser`, "\abs_path\file.h:function_name". The entire source file must only contain constructs supported by all targeted backends (i.e. CUDA for `/gpu/cuda`, OpenCL/SYCL for `/gpu/sycl`, etc.). The entire contents of this file and all locally included files are used during JiT compilation for GPU backends. The header `ceed/types.h` is preferred over `ceed.h` or `ceed/ceed.h` for `CeedQFunction` source files. The macro `CEED_RUNNING_JIT_PASS` is set during JiT and can be used to guard include statements that JiT compilers cannot use, such as `math.h` or `std*.h`. All source files must be at the provided filepath at runtime for JiT to function. @param[out] qf Address of the variable where the newly created `CeedQFunction` will be stored @return An error code: 0 - success, otherwise - failure See \ref CeedQFunctionUser for details on the call-back function `f` arguments. @ref User **/ int CeedQFunctionCreateInterior(Ceed ceed, CeedInt vec_length, CeedQFunctionUser f, const char *source, CeedQFunction *qf) { char *user_source_copy; if (!ceed->QFunctionCreate) { Ceed delegate; CeedCall(CeedGetObjectDelegate(ceed, &delegate, "QFunction")); CeedCheck(delegate, ceed, CEED_ERROR_UNSUPPORTED, "Backend does not implement CeedQFunctionCreateInterior"); CeedCall(CeedQFunctionCreateInterior(delegate, vec_length, f, source, qf)); CeedCall(CeedDestroy(&delegate)); return CEED_ERROR_SUCCESS; } CeedCheck(!strlen(source) || strrchr(source, ':'), ceed, CEED_ERROR_INCOMPLETE, "Provided path to source does not include function name. Provided: \"%s\"\nRequired: \"\\abs_path\\file.h:function_name\"", source); CeedCall(CeedCalloc(1, qf)); CeedCall(CeedReferenceCopy(ceed, &(*qf)->ceed)); (*qf)->ref_count = 1; (*qf)->vec_length = vec_length; (*qf)->is_identity = false; (*qf)->is_context_writable = true; (*qf)->function = f; (*qf)->user_flop_estimate = -1; if (strlen(source)) { size_t user_source_len = strlen(source); CeedCall(CeedCalloc(user_source_len + 1, &user_source_copy)); memcpy(user_source_copy, source, user_source_len); (*qf)->user_source = user_source_copy; } CeedCall(CeedCalloc(CEED_FIELD_MAX, &(*qf)->input_fields)); CeedCall(CeedCalloc(CEED_FIELD_MAX, &(*qf)->output_fields)); CeedCall(ceed->QFunctionCreate(*qf)); return CEED_ERROR_SUCCESS; } /** @brief Create a `CeedQFunction` for evaluating interior (volumetric) terms by name @param[in] ceed `Ceed` object used to create the `CeedQFunction` @param[in] name Name of `CeedQFunction` to use from gallery @param[out] qf Address of the variable where the newly created `CeedQFunction` will be stored @return An error code: 0 - success, otherwise - failure @ref User **/ int CeedQFunctionCreateInteriorByName(Ceed ceed, const char *name, CeedQFunction *qf) { size_t match_len = 0, match_index = UINT_MAX; CeedCall(CeedQFunctionRegisterAll()); // Find matching backend CeedCheck(name, ceed, CEED_ERROR_INCOMPLETE, "No CeedQFunction name provided"); for (size_t i = 0; i < num_qfunctions; i++) { size_t n; const char *curr_name = gallery_qfunctions[i].name; for (n = 0; curr_name[n] && curr_name[n] == name[n]; n++) { } if (n > match_len) { match_len = n; match_index = i; } } CeedCheck(match_len > 0, ceed, CEED_ERROR_UNSUPPORTED, "No suitable gallery CeedQFunction"); // Create QFunction CeedCall(CeedQFunctionCreateInterior(ceed, gallery_qfunctions[match_index].vec_length, gallery_qfunctions[match_index].f, gallery_qfunctions[match_index].source, qf)); // QFunction specific setup CeedCall(gallery_qfunctions[match_index].init(ceed, name, *qf)); // Copy name CeedCall(CeedStringAllocCopy(name, (char **)&(*qf)->gallery_name)); (*qf)->is_gallery = true; return CEED_ERROR_SUCCESS; } /** @brief Create an identity `CeedQFunction`. Inputs are written into outputs in the order given. This is useful for `CeedOperator that can be represented with only the action of a `CeedElemRestriction` and `CeedBasis`, such as restriction and prolongation operators for p-multigrid. Backends may optimize `CeedOperator` with this `CeedQFunction` to avoid the copy of input data to output fields by using the same memory location for both. @param[in] ceed `Ceed` object used to create the `CeedQFunction` @param[in] size Size of the `CeedQFunction` fields @param[in] in_mode @ref CeedEvalMode for input to `CeedQFunction` @param[in] out_mode @ref CeedEvalMode for output to `CeedQFunction` @param[out] qf Address of the variable where the newly created `CeedQFunction` will be stored @return An error code: 0 - success, otherwise - failure @ref User **/ int CeedQFunctionCreateIdentity(Ceed ceed, CeedInt size, CeedEvalMode in_mode, CeedEvalMode out_mode, CeedQFunction *qf) { CeedQFunctionContext ctx; CeedContextFieldLabel size_label; CeedCall(CeedQFunctionCreateInteriorByName(ceed, "Identity", qf)); CeedCall(CeedQFunctionAddInput(*qf, "input", size, in_mode)); CeedCall(CeedQFunctionAddOutput(*qf, "output", size, out_mode)); (*qf)->is_identity = true; CeedCall(CeedQFunctionGetContext(*qf, &ctx)); CeedCall(CeedQFunctionContextGetFieldLabel(ctx, "size", &size_label)); CeedCall(CeedQFunctionContextSetInt32(ctx, size_label, &size)); CeedCall(CeedQFunctionContextDestroy(&ctx)); return CEED_ERROR_SUCCESS; } /** @brief Copy the pointer to a `CeedQFunction`. Both pointers should be destroyed with @ref CeedQFunctionDestroy(). Note: If the value of `*qf_copy` passed to this function is non-NULL, then it is assumed that `*qf_copy` is a pointer to a `CeedQFunction`. This `CeedQFunction` will be destroyed if `*qf_copy` is the only reference to this `CeedQFunction`. @param[in] qf `CeedQFunction` to copy reference to @param[out] qf_copy Variable to store copied reference @return An error code: 0 - success, otherwise - failure @ref User **/ int CeedQFunctionReferenceCopy(CeedQFunction qf, CeedQFunction *qf_copy) { CeedCall(CeedQFunctionReference(qf)); CeedCall(CeedQFunctionDestroy(qf_copy)); *qf_copy = qf; return CEED_ERROR_SUCCESS; } /** @brief Add a `CeedQFunction` input @param[in,out] qf `CeedQFunction` @param[in] field_name Name of `CeedQFunction` field @param[in] size Size of `CeedQFunction` field, (`num_comp * 1`) for @ref CEED_EVAL_NONE, (`num_comp * 1`) for @ref CEED_EVAL_INTERP for an \f$H^1\f$ space or (`num_comp * dim`) for an \f$H(\mathrm{div})\f$ or \f$H(\mathrm{curl})\f$ space, (`num_comp * dim`) for @ref CEED_EVAL_GRAD, (`num_comp * 1`) for @ref CEED_EVAL_DIV, and (`num_comp * curl_dim`) with `curl_dim = 1` if `dim < 3` otherwise `curl_dim = dim` for @ref CEED_EVAL_CURL. @param[in] eval_mode @ref CEED_EVAL_NONE to use values directly, @ref CEED_EVAL_INTERP to use interpolated values, @ref CEED_EVAL_GRAD to use gradients, @ref CEED_EVAL_DIV to use divergence, @ref CEED_EVAL_CURL to use curl Note: In the user `CeedQFunctionUser`, the `in` argument list the fields in the order given by the calls to `CeedQFunctionAddInput`. @return An error code: 0 - success, otherwise - failure @ref User **/ int CeedQFunctionAddInput(CeedQFunction qf, const char *field_name, CeedInt size, CeedEvalMode eval_mode) { bool is_immutable; CeedCall(CeedQFunctionIsImmutable(qf, &is_immutable)); CeedCheck(!is_immutable, CeedQFunctionReturnCeed(qf), CEED_ERROR_MAJOR, "QFunction cannot be changed after set as immutable"); CeedCheck(eval_mode != CEED_EVAL_WEIGHT || size == 1, CeedQFunctionReturnCeed(qf), CEED_ERROR_DIMENSION, "CEED_EVAL_WEIGHT should have size 1"); for (CeedInt i = 0; i < qf->num_input_fields; i++) { CeedCheck(strcmp(field_name, qf->input_fields[i]->field_name), CeedQFunctionReturnCeed(qf), CEED_ERROR_MINOR, "CeedQFunction field names must be unique. Duplicate name: %s", field_name); } for (CeedInt i = 0; i < qf->num_output_fields; i++) { CeedCheck(strcmp(field_name, qf->output_fields[i]->field_name), CeedQFunctionReturnCeed(qf), CEED_ERROR_MINOR, "CeedQFunction field names must be unique. Duplicate name: %s", field_name); } CeedCall(CeedQFunctionFieldSet(&qf->input_fields[qf->num_input_fields], field_name, size, eval_mode)); qf->num_input_fields++; return CEED_ERROR_SUCCESS; } /** @brief Add a `CeedQFunction` output @param[in,out] qf `CeedQFunction` @param[in] field_name Name of `CeedQFunction` field @param[in] size Size of `CeedQFunction` field, (`num_comp * 1`) for @ref CEED_EVAL_NONE, (`num_comp * 1`) for @ref CEED_EVAL_INTERP for an \f$H^1\f$ space or (`num_comp * dim`) for an \f$H(\mathrm{div})\f$ or \f$H(\mathrm{curl})\f$ space, (`num_comp * dim`) for @ref CEED_EVAL_GRAD, (`num_comp * 1`) for @ref CEED_EVAL_DIV, and (`num_comp * curl_dim`) with `curl_dim = 1` if `dim < 3` otherwise `curl_dim = dim` for @ref CEED_EVAL_CURL. @param[in] eval_mode @ref CEED_EVAL_NONE to use values directly, @ref CEED_EVAL_INTERP to use interpolated values, @ref CEED_EVAL_GRAD to use gradients, @ref CEED_EVAL_DIV to use divergence, @ref CEED_EVAL_CURL to use curl. Note: In the user `CeedQFunctionUser`, the `out` argument list the fields in the order given by the calls to `CeedQFunctionAddOutput`. @return An error code: 0 - success, otherwise - failure @ref User **/ int CeedQFunctionAddOutput(CeedQFunction qf, const char *field_name, CeedInt size, CeedEvalMode eval_mode) { bool is_immutable; CeedCall(CeedQFunctionIsImmutable(qf, &is_immutable)); CeedCheck(!is_immutable, CeedQFunctionReturnCeed(qf), CEED_ERROR_MAJOR, "CeedQFunction cannot be changed after set as immutable"); CeedCheck(eval_mode != CEED_EVAL_WEIGHT, CeedQFunctionReturnCeed(qf), CEED_ERROR_DIMENSION, "Cannot create CeedQFunction output with CEED_EVAL_WEIGHT"); for (CeedInt i = 0; i < qf->num_input_fields; i++) { CeedCheck(strcmp(field_name, qf->input_fields[i]->field_name), CeedQFunctionReturnCeed(qf), CEED_ERROR_MINOR, "CeedQFunction field names must be unique"); } for (CeedInt i = 0; i < qf->num_output_fields; i++) { CeedCheck(strcmp(field_name, qf->output_fields[i]->field_name), CeedQFunctionReturnCeed(qf), CEED_ERROR_MINOR, "CeedQFunction field names must be unique"); } CeedCall(CeedQFunctionFieldSet(&qf->output_fields[qf->num_output_fields], field_name, size, eval_mode)); qf->num_output_fields++; return CEED_ERROR_SUCCESS; } /** @brief Get the `CeedQFunctionField` of a `CeedQFunction` Note: Calling this function asserts that setup is complete and sets the `CeedQFunction` as immutable. @param[in] qf `CeedQFunction` @param[out] num_input_fields Variable to store number of input fields @param[out] input_fields Variable to store input fields @param[out] num_output_fields Variable to store number of output fields @param[out] output_fields Variable to store output fields @return An error code: 0 - success, otherwise - failure @ref Advanced **/ int CeedQFunctionGetFields(CeedQFunction qf, CeedInt *num_input_fields, CeedQFunctionField **input_fields, CeedInt *num_output_fields, CeedQFunctionField **output_fields) { CeedCall(CeedQFunctionSetImmutable(qf)); if (num_input_fields) *num_input_fields = qf->num_input_fields; if (input_fields) *input_fields = qf->input_fields; if (num_output_fields) *num_output_fields = qf->num_output_fields; if (output_fields) *output_fields = qf->output_fields; return CEED_ERROR_SUCCESS; } /** @brief Get the name of a `CeedQFunctionField` @param[in] qf_field `CeedQFunctionField` @param[out] field_name Variable to store the field name @return An error code: 0 - success, otherwise - failure @ref Advanced **/ int CeedQFunctionFieldGetName(CeedQFunctionField qf_field, const char **field_name) { *field_name = qf_field->field_name; return CEED_ERROR_SUCCESS; } /** @brief Get the number of components of a `CeedQFunctionField` @param[in] qf_field `CeedQFunctionField` @param[out] size Variable to store the size of the field @return An error code: 0 - success, otherwise - failure @ref Advanced **/ int CeedQFunctionFieldGetSize(CeedQFunctionField qf_field, CeedInt *size) { *size = qf_field->size; return CEED_ERROR_SUCCESS; } /** @brief Get the @ref CeedEvalMode of a `CeedQFunctionField` @param[in] qf_field `CeedQFunctionField` @param[out] eval_mode Variable to store the field evaluation mode @return An error code: 0 - success, otherwise - failure @ref Advanced **/ int CeedQFunctionFieldGetEvalMode(CeedQFunctionField qf_field, CeedEvalMode *eval_mode) { *eval_mode = qf_field->eval_mode; return CEED_ERROR_SUCCESS; } /** @brief Get the data of a `CeedQFunctionField`. Any arguments set as `NULL` are ignored. @param[in] qf_field `CeedQFunctionField` @param[out] field_name Variable to store the field name @param[out] size Variable to store the size of the field @param[out] eval_mode Variable to store the field evaluation mode @return An error code: 0 - success, otherwise - failure @ref Advanced **/ int CeedQFunctionFieldGetData(CeedQFunctionField qf_field, const char **field_name, CeedInt *size, CeedEvalMode *eval_mode) { if (field_name) CeedCall(CeedQFunctionFieldGetName(qf_field, field_name)); if (size) CeedCall(CeedQFunctionFieldGetSize(qf_field, size)); if (eval_mode) CeedCall(CeedQFunctionFieldGetEvalMode(qf_field, eval_mode)); return CEED_ERROR_SUCCESS; } /** @brief Set global context for a `CeedQFunction` @param[in,out] qf `CeedQFunction` @param[in] ctx Context data to set @return An error code: 0 - success, otherwise - failure @ref User **/ int CeedQFunctionSetContext(CeedQFunction qf, CeedQFunctionContext ctx) { CeedCall(CeedQFunctionContextDestroy(&qf->ctx)); qf->ctx = ctx; if (ctx) CeedCall(CeedQFunctionContextReference(ctx)); return CEED_ERROR_SUCCESS; } /** @brief Set writability of `CeedQFunctionContext` when calling the `CeedQFunctionUser`. The default value is `is_writable == true`. Setting `is_writable == true` indicates the `CeedQFunctionUser` writes into the `CeedQFunctionContext` and requires memory synchronization after calling @ref CeedQFunctionApply(). Setting 'is_writable == false' asserts that `CeedQFunctionUser` does not modify the `CeedQFunctionContext`. Violating this assertion may lead to inconsistent data. Setting `is_writable == false` may offer a performance improvement on GPU backends. @param[in,out] qf `CeedQFunction` @param[in] is_writable Boolean flag for writability status @return An error code: 0 - success, otherwise - failure @ref User **/ int CeedQFunctionSetContextWritable(CeedQFunction qf, bool is_writable) { qf->is_context_writable = is_writable; return CEED_ERROR_SUCCESS; } /** @brief Set estimated number of FLOPs per quadrature required to apply `CeedQFunction` @param[in] qf `CeedQFunction` to estimate FLOPs for @param[out] flops FLOPs per quadrature point estimate @ref Backend **/ int CeedQFunctionSetUserFlopsEstimate(CeedQFunction qf, CeedSize flops) { CeedCheck(flops >= 0, CeedQFunctionReturnCeed(qf), CEED_ERROR_INCOMPATIBLE, "Must set non-negative FLOPs estimate"); qf->user_flop_estimate = flops; return CEED_ERROR_SUCCESS; } /** @brief View a `CeedQFunction` @param[in] qf `CeedQFunction` to view @param[in] stream Stream to write; typically `stdout` or a file @return Error code: 0 - success, otherwise - failure @ref User **/ int CeedQFunctionView(CeedQFunction qf, FILE *stream) { const char *name; CeedCall(CeedQFunctionGetName(qf, &name)); fprintf(stream, "%sCeedQFunction - %s\n", qf->is_gallery ? "Gallery " : "User ", name); fprintf(stream, " %" CeedInt_FMT " input field%s:\n", qf->num_input_fields, qf->num_input_fields > 1 ? "s" : ""); for (CeedInt i = 0; i < qf->num_input_fields; i++) { CeedCall(CeedQFunctionFieldView(qf->input_fields[i], i, 1, stream)); } fprintf(stream, " %" CeedInt_FMT " output field%s:\n", qf->num_output_fields, qf->num_output_fields > 1 ? "s" : ""); for (CeedInt i = 0; i < qf->num_output_fields; i++) { CeedCall(CeedQFunctionFieldView(qf->output_fields[i], i, 0, stream)); } return CEED_ERROR_SUCCESS; } /** @brief Get the `Ceed` associated with a `CeedQFunction` @param[in] qf `CeedQFunction` @param[out] ceed Variable to store`Ceed` @return An error code: 0 - success, otherwise - failure @ref Advanced **/ int CeedQFunctionGetCeed(CeedQFunction qf, Ceed *ceed) { *ceed = NULL; CeedCall(CeedReferenceCopy(CeedQFunctionReturnCeed(qf), ceed)); return CEED_ERROR_SUCCESS; } /** @brief Return the `Ceed` associated with a `CeedQFunction` @param[in] qf `CeedQFunction` @return `Ceed` associated with the `qf` @ref Advanced **/ Ceed CeedQFunctionReturnCeed(CeedQFunction qf) { return qf->ceed; } /** @brief Apply the action of a `CeedQFunction` Note: Calling this function asserts that setup is complete and sets the `CeedQFunction` as immutable. @param[in] qf `CeedQFunction` @param[in] Q Number of quadrature points @param[in] u Array of input `CeedVector` @param[out] v Array of output `CeedVector` @return An error code: 0 - success, otherwise - failure @ref User **/ int CeedQFunctionApply(CeedQFunction qf, CeedInt Q, CeedVector *u, CeedVector *v) { CeedInt vec_length; CeedCheck(qf->Apply, CeedQFunctionReturnCeed(qf), CEED_ERROR_UNSUPPORTED, "Backend does not support CeedQFunctionApply"); CeedCall(CeedQFunctionGetVectorLength(qf, &vec_length)); CeedCheck(Q % vec_length == 0, CeedQFunctionReturnCeed(qf), CEED_ERROR_DIMENSION, "Number of quadrature points %" CeedInt_FMT " must be a multiple of %" CeedInt_FMT, Q, qf->vec_length); CeedCall(CeedQFunctionSetImmutable(qf)); CeedCall(qf->Apply(qf, Q, u, v)); return CEED_ERROR_SUCCESS; } /** @brief Destroy a `CeedQFunction` @param[in,out] qf `CeedQFunction` to destroy @return An error code: 0 - success, otherwise - failure @ref User **/ int CeedQFunctionDestroy(CeedQFunction *qf) { if (!*qf || --(*qf)->ref_count > 0) { *qf = NULL; return CEED_ERROR_SUCCESS; } // Backend destroy if ((*qf)->Destroy) { CeedCall((*qf)->Destroy(*qf)); } // Free fields for (CeedInt i = 0; i < (*qf)->num_input_fields; i++) { CeedCall(CeedFree(&(*(*qf)->input_fields[i]).field_name)); CeedCall(CeedFree(&(*qf)->input_fields[i])); } for (CeedInt i = 0; i < (*qf)->num_output_fields; i++) { CeedCall(CeedFree(&(*(*qf)->output_fields[i]).field_name)); CeedCall(CeedFree(&(*qf)->output_fields[i])); } CeedCall(CeedFree(&(*qf)->input_fields)); CeedCall(CeedFree(&(*qf)->output_fields)); // User context data object CeedCall(CeedQFunctionContextDestroy(&(*qf)->ctx)); CeedCall(CeedFree(&(*qf)->user_source)); CeedCall(CeedFree(&(*qf)->source_path)); CeedCall(CeedFree(&(*qf)->gallery_name)); CeedCall(CeedFree(&(*qf)->kernel_name)); CeedCall(CeedDestroy(&(*qf)->ceed)); CeedCall(CeedFree(qf)); return CEED_ERROR_SUCCESS; } /// @}