19df49d7eSJed Brown // Copyright (c) 2017, Lawrence Livermore National Security, LLC. Produced at 29df49d7eSJed Brown // the Lawrence Livermore National Laboratory. LLNL-CODE-734707. All Rights 39df49d7eSJed Brown // reserved. See files LICENSE and NOTICE for details. 49df49d7eSJed Brown // 59df49d7eSJed Brown // This file is part of CEED, a collection of benchmarks, miniapps, software 69df49d7eSJed Brown // libraries and APIs for efficient high-order finite element and spectral 79df49d7eSJed Brown // element discretizations for exascale applications. For more information and 89df49d7eSJed Brown // source code availability see http://github.com/ceed. 99df49d7eSJed Brown // 109df49d7eSJed Brown // The CEED research is supported by the Exascale Computing Project 17-SC-20-SC, 119df49d7eSJed Brown // a collaborative effort of two U.S. Department of Energy organizations (Office 129df49d7eSJed Brown // of Science and the National Nuclear Security Administration) responsible for 139df49d7eSJed Brown // the planning and preparation of a capable exascale ecosystem, including 149df49d7eSJed Brown // software, applications, hardware, advanced system engineering and early 159df49d7eSJed Brown // testbed platforms, in support of the nation's exascale computing imperative 169df49d7eSJed Brown 179df49d7eSJed Brown //! # libCEED Rust Interface 189df49d7eSJed Brown //! 199df49d7eSJed Brown //! This is the documentation for the high level libCEED Rust interface. 209df49d7eSJed Brown //! See the full libCEED user manual [here](https://libceed.readthedocs.io). 219df49d7eSJed Brown //! 229df49d7eSJed Brown //! libCEED is a low-level API for for the efficient high-order discretization methods 239df49d7eSJed Brown //! developed by the ECP co-design Center for Efficient Exascale Discretizations (CEED). 249df49d7eSJed Brown //! While our focus is on high-order finite elements, the approach is mostly algebraic 259df49d7eSJed Brown //! and thus applicable to other discretizations in factored form. 269df49d7eSJed Brown //! 279df49d7eSJed Brown //! ## Usage 289df49d7eSJed Brown //! 299df49d7eSJed Brown //! To call libCEED from a Rust package, the following `Cargo.toml` can be used. 309df49d7eSJed Brown //! ```toml 319df49d7eSJed Brown //! [dependencies] 329df49d7eSJed Brown //! libceed = { git = "https://github.com/CEED/libCEED", branch = "main" } 339df49d7eSJed Brown //! ``` 349df49d7eSJed Brown //! 359df49d7eSJed Brown //! Supported features: 369df49d7eSJed Brown //! * `static` (default): link to static libceed.a 379df49d7eSJed Brown //! * `system`: use libceed from a system directory (otherwise, install from source) 389df49d7eSJed Brown //! 399df49d7eSJed Brown //! ``` 409df49d7eSJed Brown //! extern crate libceed; 419df49d7eSJed Brown //! 429df49d7eSJed Brown //! fn main() { 439df49d7eSJed Brown //! let ceed = libceed::Ceed::init("/cpu/self/ref"); 449df49d7eSJed Brown //! let xc = ceed.vector_from_slice(&[0., 0.5, 1.0]).unwrap(); 459df49d7eSJed Brown //! let xs = xc.view(); 469df49d7eSJed Brown //! assert_eq!(xs[..], [0., 0.5, 1.0]); 479df49d7eSJed Brown //! } 489df49d7eSJed Brown //! ``` 499df49d7eSJed Brown //! 509df49d7eSJed Brown //! ## Examples 519df49d7eSJed Brown //! 529df49d7eSJed Brown //! Examples of libCEED can be found in the libCEED GitHub repository under the 539df49d7eSJed Brown //! `examples/rust` folder. 549df49d7eSJed Brown //! 559df49d7eSJed Brown //! ## Development 569df49d7eSJed Brown //! 579df49d7eSJed Brown //! To develop libCEED, use `cargo build` in the `rust/` directory to install a 589df49d7eSJed Brown //! local copy and build the bindings. If you need custom flags for the C 599df49d7eSJed Brown //! project, we recommend using `make configure` to cache arguments. If you 609df49d7eSJed Brown //! disable the `static` feature, then you'll need to set `LD_LIBRARY_PATH` for 619df49d7eSJed Brown //! doctests to be able to find it. You can do this in `$CEED_DIR/lib` and set 629df49d7eSJed Brown //! `PKG_CONFIG_PATH`. 639df49d7eSJed Brown //! 649df49d7eSJed Brown //! Note: the `LD_LIBRARY_PATH` workarounds will become unnecessary if [this 659df49d7eSJed Brown //! issue](https://github.com/rust-lang/cargo/issues/1592) is resolved -- it's 669df49d7eSJed Brown //! currently closed, but the problem still exists. 679df49d7eSJed Brown 689df49d7eSJed Brown // ----------------------------------------------------------------------------- 699df49d7eSJed Brown // Exceptions 709df49d7eSJed Brown // ----------------------------------------------------------------------------- 719df49d7eSJed Brown #![allow(non_snake_case)] 729df49d7eSJed Brown 739df49d7eSJed Brown // ----------------------------------------------------------------------------- 749df49d7eSJed Brown // Crate prelude 759df49d7eSJed Brown // ----------------------------------------------------------------------------- 769df49d7eSJed Brown use crate::prelude::*; 779df49d7eSJed Brown use std::sync::Once; 789df49d7eSJed Brown 799df49d7eSJed Brown pub mod prelude { 809df49d7eSJed Brown pub use crate::{ 819df49d7eSJed Brown basis::{self, Basis, BasisOpt}, 829df49d7eSJed Brown elem_restriction::{self, ElemRestriction, ElemRestrictionOpt}, 839df49d7eSJed Brown operator::{self, CompositeOperator, Operator}, 849df49d7eSJed Brown qfunction::{ 859df49d7eSJed Brown self, QFunction, QFunctionByName, QFunctionInputs, QFunctionOpt, QFunctionOutputs, 869df49d7eSJed Brown }, 879df49d7eSJed Brown vector::{self, Vector, VectorOpt}, 889df49d7eSJed Brown ElemTopology, EvalMode, MemType, NormType, QuadMode, TransposeMode, CEED_STRIDES_BACKEND, 899df49d7eSJed Brown MAX_QFUNCTION_FIELDS, 909df49d7eSJed Brown }; 91*630ad4c9Sjeremylt pub(crate) use libceed_sys::bind_ceed; 929df49d7eSJed Brown pub(crate) use std::convert::TryFrom; 939df49d7eSJed Brown pub(crate) use std::ffi::CString; 949df49d7eSJed Brown pub(crate) use std::fmt; 959df49d7eSJed Brown } 969df49d7eSJed Brown 979df49d7eSJed Brown // ----------------------------------------------------------------------------- 989df49d7eSJed Brown // Modules 999df49d7eSJed Brown // ----------------------------------------------------------------------------- 1009df49d7eSJed Brown pub mod basis; 1019df49d7eSJed Brown pub mod elem_restriction; 1029df49d7eSJed Brown pub mod operator; 1039df49d7eSJed Brown pub mod qfunction; 1049df49d7eSJed Brown pub mod vector; 1059df49d7eSJed Brown 1069df49d7eSJed Brown // ----------------------------------------------------------------------------- 1079df49d7eSJed Brown // Constants for library 1089df49d7eSJed Brown // ----------------------------------------------------------------------------- 1099df49d7eSJed Brown const MAX_BUFFER_LENGTH: u64 = 4096; 1109df49d7eSJed Brown pub const MAX_QFUNCTION_FIELDS: usize = 16; 1119df49d7eSJed Brown pub const CEED_STRIDES_BACKEND: [i32; 3] = [0; 3]; 1129df49d7eSJed Brown 1139df49d7eSJed Brown // ----------------------------------------------------------------------------- 1149df49d7eSJed Brown // Enums for libCEED 1159df49d7eSJed Brown // ----------------------------------------------------------------------------- 1169df49d7eSJed Brown #[derive(Clone, Copy, PartialEq, Eq)] 1179df49d7eSJed Brown /// Many Ceed interfaces take or return pointers to memory. This enum is used to 1189df49d7eSJed Brown /// specify where the memory being provided or requested must reside. 1199df49d7eSJed Brown pub enum MemType { 1209df49d7eSJed Brown Host = bind_ceed::CeedMemType_CEED_MEM_HOST as isize, 1219df49d7eSJed Brown Device = bind_ceed::CeedMemType_CEED_MEM_DEVICE as isize, 1229df49d7eSJed Brown } 1239df49d7eSJed Brown 1249df49d7eSJed Brown #[derive(Clone, Copy, PartialEq, Eq)] 1259df49d7eSJed Brown // OwnPointer will not be used by user but is included for internal use 1269df49d7eSJed Brown #[allow(dead_code)] 1279df49d7eSJed Brown /// Conveys ownership status of arrays passed to Ceed interfaces. 1289df49d7eSJed Brown pub(crate) enum CopyMode { 1299df49d7eSJed Brown CopyValues = bind_ceed::CeedCopyMode_CEED_COPY_VALUES as isize, 1309df49d7eSJed Brown UsePointer = bind_ceed::CeedCopyMode_CEED_USE_POINTER as isize, 1319df49d7eSJed Brown OwnPointer = bind_ceed::CeedCopyMode_CEED_OWN_POINTER as isize, 1329df49d7eSJed Brown } 1339df49d7eSJed Brown 1349df49d7eSJed Brown #[derive(Clone, Copy, PartialEq, Eq)] 1359df49d7eSJed Brown /// Denotes type of vector norm to be computed 1369df49d7eSJed Brown pub enum NormType { 1379df49d7eSJed Brown One = bind_ceed::CeedNormType_CEED_NORM_1 as isize, 1389df49d7eSJed Brown Two = bind_ceed::CeedNormType_CEED_NORM_2 as isize, 1399df49d7eSJed Brown Max = bind_ceed::CeedNormType_CEED_NORM_MAX as isize, 1409df49d7eSJed Brown } 1419df49d7eSJed Brown 1429df49d7eSJed Brown #[derive(Clone, Copy, PartialEq, Eq)] 1439df49d7eSJed Brown /// Denotes whether a linear transformation or its transpose should be applied 1449df49d7eSJed Brown pub enum TransposeMode { 1459df49d7eSJed Brown NoTranspose = bind_ceed::CeedTransposeMode_CEED_NOTRANSPOSE as isize, 1469df49d7eSJed Brown Transpose = bind_ceed::CeedTransposeMode_CEED_TRANSPOSE as isize, 1479df49d7eSJed Brown } 1489df49d7eSJed Brown 1499df49d7eSJed Brown #[derive(Clone, Copy, PartialEq, Eq)] 1509df49d7eSJed Brown /// Type of quadrature; also used for location of nodes 1519df49d7eSJed Brown pub enum QuadMode { 1529df49d7eSJed Brown Gauss = bind_ceed::CeedQuadMode_CEED_GAUSS as isize, 1539df49d7eSJed Brown GaussLobatto = bind_ceed::CeedQuadMode_CEED_GAUSS_LOBATTO as isize, 1549df49d7eSJed Brown } 1559df49d7eSJed Brown 1569df49d7eSJed Brown #[derive(Clone, Copy, PartialEq, Eq)] 1579df49d7eSJed Brown /// Type of basis shape to create non-tensor H1 element basis 1589df49d7eSJed Brown pub enum ElemTopology { 1599df49d7eSJed Brown Line = bind_ceed::CeedElemTopology_CEED_LINE as isize, 1609df49d7eSJed Brown Triangle = bind_ceed::CeedElemTopology_CEED_TRIANGLE as isize, 1619df49d7eSJed Brown Quad = bind_ceed::CeedElemTopology_CEED_QUAD as isize, 1629df49d7eSJed Brown Tet = bind_ceed::CeedElemTopology_CEED_TET as isize, 1639df49d7eSJed Brown Pyramid = bind_ceed::CeedElemTopology_CEED_PYRAMID as isize, 1649df49d7eSJed Brown Prism = bind_ceed::CeedElemTopology_CEED_PRISM as isize, 1659df49d7eSJed Brown Hex = bind_ceed::CeedElemTopology_CEED_HEX as isize, 1669df49d7eSJed Brown } 1679df49d7eSJed Brown 1689df49d7eSJed Brown #[derive(Clone, Copy, PartialEq, Eq)] 1699df49d7eSJed Brown /// Basis evaluation mode 1709df49d7eSJed Brown pub enum EvalMode { 1719df49d7eSJed Brown None = bind_ceed::CeedEvalMode_CEED_EVAL_NONE as isize, 1729df49d7eSJed Brown Interp = bind_ceed::CeedEvalMode_CEED_EVAL_INTERP as isize, 1739df49d7eSJed Brown Grad = bind_ceed::CeedEvalMode_CEED_EVAL_GRAD as isize, 1749df49d7eSJed Brown Div = bind_ceed::CeedEvalMode_CEED_EVAL_DIV as isize, 1759df49d7eSJed Brown Curl = bind_ceed::CeedEvalMode_CEED_EVAL_CURL as isize, 1769df49d7eSJed Brown Weight = bind_ceed::CeedEvalMode_CEED_EVAL_WEIGHT as isize, 1779df49d7eSJed Brown } 1789df49d7eSJed Brown 1799df49d7eSJed Brown // ----------------------------------------------------------------------------- 1809df49d7eSJed Brown // Ceed error 1819df49d7eSJed Brown // ----------------------------------------------------------------------------- 1829df49d7eSJed Brown type Result<T> = std::result::Result<T, CeedError>; 1839df49d7eSJed Brown 1849df49d7eSJed Brown #[derive(Debug)] 1859df49d7eSJed Brown pub struct CeedError { 1869df49d7eSJed Brown pub message: String, 1879df49d7eSJed Brown } 1889df49d7eSJed Brown 1899df49d7eSJed Brown impl fmt::Display for CeedError { 1909df49d7eSJed Brown fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result { 1919df49d7eSJed Brown write!(f, "{}", self.message) 1929df49d7eSJed Brown } 1939df49d7eSJed Brown } 1949df49d7eSJed Brown 1959df49d7eSJed Brown // ----------------------------------------------------------------------------- 1969df49d7eSJed Brown // Ceed error handler 1979df49d7eSJed Brown // ----------------------------------------------------------------------------- 1989df49d7eSJed Brown pub enum CeedErrorHandler { 1999df49d7eSJed Brown ErrorAbort, 2009df49d7eSJed Brown ErrorExit, 2019df49d7eSJed Brown ErrorReturn, 2029df49d7eSJed Brown ErrorStore, 2039df49d7eSJed Brown } 2049df49d7eSJed Brown 2059df49d7eSJed Brown // ----------------------------------------------------------------------------- 2069df49d7eSJed Brown // Ceed context wrapper 2079df49d7eSJed Brown // ----------------------------------------------------------------------------- 2089df49d7eSJed Brown /// A Ceed is a library context representing control of a logical hardware 2099df49d7eSJed Brown /// resource. 2109df49d7eSJed Brown #[derive(Debug)] 2119df49d7eSJed Brown pub struct Ceed { 2129df49d7eSJed Brown ptr: bind_ceed::Ceed, 2139df49d7eSJed Brown } 2149df49d7eSJed Brown 2159df49d7eSJed Brown // ----------------------------------------------------------------------------- 2169df49d7eSJed Brown // Destructor 2179df49d7eSJed Brown // ----------------------------------------------------------------------------- 2189df49d7eSJed Brown impl Drop for Ceed { 2199df49d7eSJed Brown fn drop(&mut self) { 2209df49d7eSJed Brown unsafe { 2219df49d7eSJed Brown bind_ceed::CeedDestroy(&mut self.ptr); 2229df49d7eSJed Brown } 2239df49d7eSJed Brown } 2249df49d7eSJed Brown } 2259df49d7eSJed Brown 2269df49d7eSJed Brown // ----------------------------------------------------------------------------- 2279df49d7eSJed Brown // Display 2289df49d7eSJed Brown // ----------------------------------------------------------------------------- 2299df49d7eSJed Brown impl fmt::Display for Ceed { 2309df49d7eSJed Brown /// View a Ceed 2319df49d7eSJed Brown /// 2329df49d7eSJed Brown /// ``` 2339df49d7eSJed Brown /// let ceed = libceed::Ceed::init("/cpu/self/ref/serial"); 2349df49d7eSJed Brown /// println!("{}", ceed); 2359df49d7eSJed Brown /// ``` 2369df49d7eSJed Brown fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result { 2379df49d7eSJed Brown let mut ptr = std::ptr::null_mut(); 2389df49d7eSJed Brown let mut sizeloc = crate::MAX_BUFFER_LENGTH; 2399df49d7eSJed Brown let cstring = unsafe { 2409df49d7eSJed Brown let file = bind_ceed::open_memstream(&mut ptr, &mut sizeloc); 2419df49d7eSJed Brown bind_ceed::CeedView(self.ptr, file); 2429df49d7eSJed Brown bind_ceed::fclose(file); 2439df49d7eSJed Brown CString::from_raw(ptr) 2449df49d7eSJed Brown }; 2459df49d7eSJed Brown cstring.to_string_lossy().fmt(f) 2469df49d7eSJed Brown } 2479df49d7eSJed Brown } 2489df49d7eSJed Brown 2499df49d7eSJed Brown static REGISTER: Once = Once::new(); 2509df49d7eSJed Brown 2519df49d7eSJed Brown // ----------------------------------------------------------------------------- 2529df49d7eSJed Brown // Object constructors 2539df49d7eSJed Brown // ----------------------------------------------------------------------------- 2549df49d7eSJed Brown impl Ceed { 2559df49d7eSJed Brown /// Returns a Ceed context initialized with the specified resource 2569df49d7eSJed Brown /// 2579df49d7eSJed Brown /// # arguments 2589df49d7eSJed Brown /// 2599df49d7eSJed Brown /// * `resource` - Resource to use, e.g., "/cpu/self" 2609df49d7eSJed Brown /// 2619df49d7eSJed Brown /// ``` 2629df49d7eSJed Brown /// let ceed = libceed::Ceed::init("/cpu/self/ref/serial"); 2639df49d7eSJed Brown /// ``` 2649df49d7eSJed Brown pub fn init(resource: &str) -> Self { 2659df49d7eSJed Brown Ceed::init_with_error_handler(resource, CeedErrorHandler::ErrorStore) 2669df49d7eSJed Brown } 2679df49d7eSJed Brown 2689df49d7eSJed Brown /// Returns a Ceed context initialized with the specified resource 2699df49d7eSJed Brown /// 2709df49d7eSJed Brown /// # arguments 2719df49d7eSJed Brown /// 2729df49d7eSJed Brown /// * `resource` - Resource to use, e.g., "/cpu/self" 2739df49d7eSJed Brown /// 2749df49d7eSJed Brown /// ``` 2759df49d7eSJed Brown /// let ceed = libceed::Ceed::init_with_error_handler( 2769df49d7eSJed Brown /// "/cpu/self/ref/serial", 2779df49d7eSJed Brown /// libceed::CeedErrorHandler::ErrorAbort, 2789df49d7eSJed Brown /// ); 2799df49d7eSJed Brown /// ``` 2809df49d7eSJed Brown pub fn init_with_error_handler(resource: &str, handler: CeedErrorHandler) -> Self { 2819df49d7eSJed Brown REGISTER.call_once(|| unsafe { 2829df49d7eSJed Brown bind_ceed::CeedRegisterAll(); 2839df49d7eSJed Brown bind_ceed::CeedQFunctionRegisterAll(); 2849df49d7eSJed Brown }); 2859df49d7eSJed Brown 2869df49d7eSJed Brown // Convert to C string 2879df49d7eSJed Brown let c_resource = CString::new(resource).expect("CString::new failed"); 2889df49d7eSJed Brown 2899df49d7eSJed Brown // Get error handler pointer 2909df49d7eSJed Brown let eh = match handler { 2919df49d7eSJed Brown CeedErrorHandler::ErrorAbort => bind_ceed::CeedErrorAbort, 2929df49d7eSJed Brown CeedErrorHandler::ErrorExit => bind_ceed::CeedErrorExit, 2939df49d7eSJed Brown CeedErrorHandler::ErrorReturn => bind_ceed::CeedErrorReturn, 2949df49d7eSJed Brown CeedErrorHandler::ErrorStore => bind_ceed::CeedErrorStore, 2959df49d7eSJed Brown }; 2969df49d7eSJed Brown 2979df49d7eSJed Brown // Call to libCEED 2989df49d7eSJed Brown let mut ptr = std::ptr::null_mut(); 2999df49d7eSJed Brown let mut ierr = unsafe { bind_ceed::CeedInit(c_resource.as_ptr() as *const i8, &mut ptr) }; 3009df49d7eSJed Brown if ierr != 0 { 3019df49d7eSJed Brown panic!("Error initializing backend resource: {}", resource) 3029df49d7eSJed Brown } 3039df49d7eSJed Brown ierr = unsafe { bind_ceed::CeedSetErrorHandler(ptr, Some(eh)) }; 3049df49d7eSJed Brown let ceed = Ceed { ptr }; 3059df49d7eSJed Brown ceed.check_error(ierr).unwrap(); 3069df49d7eSJed Brown ceed 3079df49d7eSJed Brown } 3089df49d7eSJed Brown 3099df49d7eSJed Brown /// Default initializer for testing 3109df49d7eSJed Brown #[doc(hidden)] 3119df49d7eSJed Brown pub fn default_init() -> Self { 3129df49d7eSJed Brown // Convert to C string 3139df49d7eSJed Brown let resource = "/cpu/self/ref/serial"; 3149df49d7eSJed Brown crate::Ceed::init(resource) 3159df49d7eSJed Brown } 3169df49d7eSJed Brown 3179df49d7eSJed Brown /// Internal error checker 3189df49d7eSJed Brown #[doc(hidden)] 3199df49d7eSJed Brown fn check_error(&self, ierr: i32) -> Result<i32> { 3209df49d7eSJed Brown // Return early if code is clean 3219df49d7eSJed Brown if ierr == bind_ceed::CeedErrorType_CEED_ERROR_SUCCESS { 3229df49d7eSJed Brown return Ok(ierr); 3239df49d7eSJed Brown } 3249df49d7eSJed Brown // Retrieve error message 3259df49d7eSJed Brown let mut ptr: *const std::os::raw::c_char = std::ptr::null_mut(); 3269df49d7eSJed Brown let c_str = unsafe { 3279df49d7eSJed Brown bind_ceed::CeedGetErrorMessage(self.ptr, &mut ptr); 3289df49d7eSJed Brown std::ffi::CStr::from_ptr(ptr) 3299df49d7eSJed Brown }; 3309df49d7eSJed Brown let message = c_str.to_string_lossy().to_string(); 3319df49d7eSJed Brown // Panic if negative code, otherwise return error 3329df49d7eSJed Brown if ierr < bind_ceed::CeedErrorType_CEED_ERROR_SUCCESS { 3339df49d7eSJed Brown panic!("{}", message); 3349df49d7eSJed Brown } 3359df49d7eSJed Brown Err(CeedError { message }) 3369df49d7eSJed Brown } 3379df49d7eSJed Brown 3389df49d7eSJed Brown /// Returns full resource name for a Ceed context 3399df49d7eSJed Brown /// 3409df49d7eSJed Brown /// ``` 3419df49d7eSJed Brown /// let ceed = libceed::Ceed::init("/cpu/self/ref/serial"); 3429df49d7eSJed Brown /// let resource = ceed.resource(); 3439df49d7eSJed Brown /// 3449df49d7eSJed Brown /// assert_eq!(resource, "/cpu/self/ref/serial".to_string()) 3459df49d7eSJed Brown /// ``` 3469df49d7eSJed Brown pub fn resource(&self) -> String { 3479df49d7eSJed Brown let mut ptr: *const std::os::raw::c_char = std::ptr::null_mut(); 3489df49d7eSJed Brown let c_str = unsafe { 3499df49d7eSJed Brown bind_ceed::CeedGetResource(self.ptr, &mut ptr); 3509df49d7eSJed Brown std::ffi::CStr::from_ptr(ptr) 3519df49d7eSJed Brown }; 3529df49d7eSJed Brown c_str.to_string_lossy().to_string() 3539df49d7eSJed Brown } 3549df49d7eSJed Brown 3559df49d7eSJed Brown /// Returns a CeedVector of the specified length (does not allocate memory) 3569df49d7eSJed Brown /// 3579df49d7eSJed Brown /// # arguments 3589df49d7eSJed Brown /// 3599df49d7eSJed Brown /// * `n` - Length of vector 3609df49d7eSJed Brown /// 3619df49d7eSJed Brown /// ``` 3629df49d7eSJed Brown /// # use libceed::prelude::*; 3639df49d7eSJed Brown /// # let ceed = libceed::Ceed::default_init(); 3649df49d7eSJed Brown /// let vec = ceed.vector(10).unwrap(); 3659df49d7eSJed Brown /// ``` 3669df49d7eSJed Brown pub fn vector(&self, n: usize) -> Result<Vector> { 3679df49d7eSJed Brown Vector::create(self, n) 3689df49d7eSJed Brown } 3699df49d7eSJed Brown 3709df49d7eSJed Brown /// Create a Vector initialized with the data (copied) from a slice 3719df49d7eSJed Brown /// 3729df49d7eSJed Brown /// # arguments 3739df49d7eSJed Brown /// 3749df49d7eSJed Brown /// * `slice` - Slice containing data 3759df49d7eSJed Brown /// 3769df49d7eSJed Brown /// ``` 3779df49d7eSJed Brown /// # use libceed::prelude::*; 3789df49d7eSJed Brown /// # let ceed = libceed::Ceed::default_init(); 3799df49d7eSJed Brown /// let vec = ceed.vector_from_slice(&[1., 2., 3.]).unwrap(); 3809df49d7eSJed Brown /// assert_eq!(vec.length(), 3); 3819df49d7eSJed Brown /// ``` 3829df49d7eSJed Brown pub fn vector_from_slice(&self, slice: &[f64]) -> Result<Vector> { 3839df49d7eSJed Brown Vector::from_slice(self, slice) 3849df49d7eSJed Brown } 3859df49d7eSJed Brown 3869df49d7eSJed Brown /// Returns a ElemRestriction 3879df49d7eSJed Brown /// 3889df49d7eSJed Brown /// # arguments 3899df49d7eSJed Brown /// 3909df49d7eSJed Brown /// * `nelem` - Number of elements described in the offsets array 3919df49d7eSJed Brown /// * `elemsize` - Size (number of "nodes") per element 3929df49d7eSJed Brown /// * `ncomp` - Number of field components per interpolation node (1 3939df49d7eSJed Brown /// for scalar fields) 3949df49d7eSJed Brown /// * `compstride` - Stride between components for the same Lvector "node". 3959df49d7eSJed Brown /// Data for node `i`, component `j`, element `k` can be 3969df49d7eSJed Brown /// found in the Lvector at index 3979df49d7eSJed Brown /// `offsets[i + k*elemsize] + j*compstride`. 3989df49d7eSJed Brown /// * `lsize` - The size of the Lvector. This vector may be larger 3999df49d7eSJed Brown /// than the elements and fields given by this 4009df49d7eSJed Brown /// restriction. 4019df49d7eSJed Brown /// * `mtype` - Memory type of the offsets array, see CeedMemType 4029df49d7eSJed Brown /// * `offsets` - Array of shape `[nelem, elemsize]`. Row `i` holds the 4039df49d7eSJed Brown /// ordered list of the offsets (into the input CeedVector) 4049df49d7eSJed Brown /// for the unknowns corresponding to element `i`, where 4059df49d7eSJed Brown /// `0 <= i < nelem`. All offsets must be in the range 4069df49d7eSJed Brown /// `[0, lsize - 1]`. 4079df49d7eSJed Brown /// 4089df49d7eSJed Brown /// ``` 4099df49d7eSJed Brown /// # use libceed::prelude::*; 4109df49d7eSJed Brown /// # let ceed = libceed::Ceed::default_init(); 4119df49d7eSJed Brown /// let nelem = 3; 4129df49d7eSJed Brown /// let mut ind: Vec<i32> = vec![0; 2 * nelem]; 4139df49d7eSJed Brown /// for i in 0..nelem { 4149df49d7eSJed Brown /// ind[2 * i + 0] = i as i32; 4159df49d7eSJed Brown /// ind[2 * i + 1] = (i + 1) as i32; 4169df49d7eSJed Brown /// } 4179df49d7eSJed Brown /// let r = ceed 4189df49d7eSJed Brown /// .elem_restriction(nelem, 2, 1, 1, nelem + 1, MemType::Host, &ind) 4199df49d7eSJed Brown /// .unwrap(); 4209df49d7eSJed Brown /// ``` 4219df49d7eSJed Brown pub fn elem_restriction( 4229df49d7eSJed Brown &self, 4239df49d7eSJed Brown nelem: usize, 4249df49d7eSJed Brown elemsize: usize, 4259df49d7eSJed Brown ncomp: usize, 4269df49d7eSJed Brown compstride: usize, 4279df49d7eSJed Brown lsize: usize, 4289df49d7eSJed Brown mtype: MemType, 4299df49d7eSJed Brown offsets: &[i32], 4309df49d7eSJed Brown ) -> Result<ElemRestriction> { 4319df49d7eSJed Brown ElemRestriction::create( 4329df49d7eSJed Brown self, nelem, elemsize, ncomp, compstride, lsize, mtype, offsets, 4339df49d7eSJed Brown ) 4349df49d7eSJed Brown } 4359df49d7eSJed Brown 4369df49d7eSJed Brown /// Returns a ElemRestriction 4379df49d7eSJed Brown /// 4389df49d7eSJed Brown /// # arguments 4399df49d7eSJed Brown /// 4409df49d7eSJed Brown /// * `nelem` - Number of elements described in the offsets array 4419df49d7eSJed Brown /// * `elemsize` - Size (number of "nodes") per element 4429df49d7eSJed Brown /// * `ncomp` - Number of field components per interpolation node (1 4439df49d7eSJed Brown /// for scalar fields) 4449df49d7eSJed Brown /// * `compstride` - Stride between components for the same Lvector "node". 4459df49d7eSJed Brown /// Data for node `i`, component `j`, element `k` can be 4469df49d7eSJed Brown /// found in the Lvector at index 4479df49d7eSJed Brown /// `offsets[i + k*elemsize] + j*compstride`. 4489df49d7eSJed Brown /// * `lsize` - The size of the Lvector. This vector may be larger 4499df49d7eSJed Brown /// than the elements and fields given by this restriction. 4509df49d7eSJed Brown /// * `strides` - Array for strides between `[nodes, components, elements]`. 4519df49d7eSJed Brown /// Data for node `i`, component `j`, element `k` can be 4529df49d7eSJed Brown /// found in the Lvector at index 4539df49d7eSJed Brown /// `i*strides[0] + j*strides[1] + k*strides[2]`. 4549df49d7eSJed Brown /// CEED_STRIDES_BACKEND may be used with vectors created 4559df49d7eSJed Brown /// by a Ceed backend. 4569df49d7eSJed Brown /// 4579df49d7eSJed Brown /// ``` 4589df49d7eSJed Brown /// # use libceed::prelude::*; 4599df49d7eSJed Brown /// # let ceed = libceed::Ceed::default_init(); 4609df49d7eSJed Brown /// let nelem = 3; 4619df49d7eSJed Brown /// let strides: [i32; 3] = [1, 2, 2]; 4629df49d7eSJed Brown /// let r = ceed 4639df49d7eSJed Brown /// .strided_elem_restriction(nelem, 2, 1, nelem * 2, strides) 4649df49d7eSJed Brown /// .unwrap(); 4659df49d7eSJed Brown /// ``` 4669df49d7eSJed Brown pub fn strided_elem_restriction( 4679df49d7eSJed Brown &self, 4689df49d7eSJed Brown nelem: usize, 4699df49d7eSJed Brown elemsize: usize, 4709df49d7eSJed Brown ncomp: usize, 4719df49d7eSJed Brown lsize: usize, 4729df49d7eSJed Brown strides: [i32; 3], 4739df49d7eSJed Brown ) -> Result<ElemRestriction> { 4749df49d7eSJed Brown ElemRestriction::create_strided(self, nelem, elemsize, ncomp, lsize, strides) 4759df49d7eSJed Brown } 4769df49d7eSJed Brown 4779df49d7eSJed Brown /// Returns a tensor-product basis 4789df49d7eSJed Brown /// 4799df49d7eSJed Brown /// # arguments 4809df49d7eSJed Brown /// 4819df49d7eSJed Brown /// * `dim` - Topological dimension of element 4829df49d7eSJed Brown /// * `ncomp` - Number of field components (1 for scalar fields) 4839df49d7eSJed Brown /// * `P1d` - Number of Gauss-Lobatto nodes in one dimension. The 4849df49d7eSJed Brown /// polynomial degree of the resulting `Q_k` element is 4859df49d7eSJed Brown /// `k=P-1`. 4869df49d7eSJed Brown /// * `Q1d` - Number of quadrature points in one dimension 4879df49d7eSJed Brown /// * `interp1d` - Row-major `(Q1d * P1d)` matrix expressing the values of 4889df49d7eSJed Brown /// nodal basis functions at quadrature points 4899df49d7eSJed Brown /// * `grad1d` - Row-major `(Q1d * P1d)` matrix expressing derivatives of 4909df49d7eSJed Brown /// nodal basis functions at quadrature points 4919df49d7eSJed Brown /// * `qref1d` - Array of length `Q1d` holding the locations of quadrature 4929df49d7eSJed Brown /// points on the 1D reference element `[-1, 1]` 4939df49d7eSJed Brown /// * `qweight1d` - Array of length `Q1d` holding the quadrature weights on 4949df49d7eSJed Brown /// the reference element 4959df49d7eSJed Brown /// 4969df49d7eSJed Brown /// ``` 4979df49d7eSJed Brown /// # use libceed::prelude::*; 4989df49d7eSJed Brown /// # let ceed = libceed::Ceed::default_init(); 4999df49d7eSJed Brown /// let interp1d = [ 0.62994317, 0.47255875, -0.14950343, 0.04700152, 5009df49d7eSJed Brown /// -0.07069480, 0.97297619, 0.13253993, -0.03482132, 5019df49d7eSJed Brown /// -0.03482132, 0.13253993, 0.97297619, -0.07069480, 5029df49d7eSJed Brown /// 0.04700152, -0.14950343, 0.47255875, 0.62994317]; 5039df49d7eSJed Brown /// let grad1d = [-2.34183742, 2.78794489, -0.63510411, 0.18899664, 5049df49d7eSJed Brown /// -0.51670214, -0.48795249, 1.33790510, -0.33325047, 5059df49d7eSJed Brown // 0.33325047, -1.33790510, 0.48795249, 0.51670214, 5069df49d7eSJed Brown /// -0.18899664, 0.63510411, -2.78794489, 2.34183742]; 5079df49d7eSJed Brown /// let qref1d = [-0.86113631, -0.33998104, 0.33998104, 0.86113631]; 5089df49d7eSJed Brown /// let qweight1d = [ 0.34785485, 0.65214515, 0.65214515, 0.34785485]; 5099df49d7eSJed Brown /// let b = ceed. 5109df49d7eSJed Brown /// basis_tensor_H1(2, 1, 4, 4, &interp1d, &grad1d, &qref1d, &qweight1d).unwrap(); 5119df49d7eSJed Brown /// ``` 5129df49d7eSJed Brown pub fn basis_tensor_H1( 5139df49d7eSJed Brown &self, 5149df49d7eSJed Brown dim: usize, 5159df49d7eSJed Brown ncomp: usize, 5169df49d7eSJed Brown P1d: usize, 5179df49d7eSJed Brown Q1d: usize, 5189df49d7eSJed Brown interp1d: &[f64], 5199df49d7eSJed Brown grad1d: &[f64], 5209df49d7eSJed Brown qref1d: &[f64], 5219df49d7eSJed Brown qweight1d: &[f64], 5229df49d7eSJed Brown ) -> Result<Basis> { 5239df49d7eSJed Brown Basis::create_tensor_H1( 5249df49d7eSJed Brown self, dim, ncomp, P1d, Q1d, interp1d, grad1d, qref1d, qweight1d, 5259df49d7eSJed Brown ) 5269df49d7eSJed Brown } 5279df49d7eSJed Brown 5289df49d7eSJed Brown /// Returns a tensor-product Lagrange basis 5299df49d7eSJed Brown /// 5309df49d7eSJed Brown /// # arguments 5319df49d7eSJed Brown /// 5329df49d7eSJed Brown /// * `dim` - Topological dimension of element 5339df49d7eSJed Brown /// * `ncomp` - Number of field components (1 for scalar fields) 5349df49d7eSJed Brown /// * `P` - Number of Gauss-Lobatto nodes in one dimension. The 5359df49d7eSJed Brown /// polynomial degree of the resulting `Q_k` element is `k=P-1`. 5369df49d7eSJed Brown /// * `Q` - Number of quadrature points in one dimension 5379df49d7eSJed Brown /// * `qmode` - Distribution of the `Q` quadrature points (affects order of 5389df49d7eSJed Brown /// accuracy for the quadrature) 5399df49d7eSJed Brown /// 5409df49d7eSJed Brown /// ``` 5419df49d7eSJed Brown /// # use libceed::prelude::*; 5429df49d7eSJed Brown /// # let ceed = libceed::Ceed::default_init(); 5439df49d7eSJed Brown /// let b = ceed 5449df49d7eSJed Brown /// .basis_tensor_H1_Lagrange(2, 1, 3, 4, QuadMode::Gauss) 5459df49d7eSJed Brown /// .unwrap(); 5469df49d7eSJed Brown /// ``` 5479df49d7eSJed Brown pub fn basis_tensor_H1_Lagrange( 5489df49d7eSJed Brown &self, 5499df49d7eSJed Brown dim: usize, 5509df49d7eSJed Brown ncomp: usize, 5519df49d7eSJed Brown P: usize, 5529df49d7eSJed Brown Q: usize, 5539df49d7eSJed Brown qmode: QuadMode, 5549df49d7eSJed Brown ) -> Result<Basis> { 5559df49d7eSJed Brown Basis::create_tensor_H1_Lagrange(self, dim, ncomp, P, Q, qmode) 5569df49d7eSJed Brown } 5579df49d7eSJed Brown 5589df49d7eSJed Brown /// Returns a tensor-product basis 5599df49d7eSJed Brown /// 5609df49d7eSJed Brown /// # arguments 5619df49d7eSJed Brown /// 5629df49d7eSJed Brown /// * `topo` - Topology of element, e.g. hypercube, simplex, ect 5639df49d7eSJed Brown /// * `ncomp` - Number of field components (1 for scalar fields) 5649df49d7eSJed Brown /// * `nnodes` - Total number of nodes 5659df49d7eSJed Brown /// * `nqpts` - Total number of quadrature points 5669df49d7eSJed Brown /// * `interp` - Row-major `(nqpts * nnodes)` matrix expressing the values of 5679df49d7eSJed Brown /// nodal basis functions at quadrature points 5689df49d7eSJed Brown /// * `grad` - Row-major `(nqpts * dim * nnodes)` matrix expressing 5699df49d7eSJed Brown /// derivatives of nodal basis functions at quadrature points 5709df49d7eSJed Brown /// * `qref` - Array of length `nqpts` holding the locations of quadrature 5719df49d7eSJed Brown /// points on the reference element `[-1, 1]` 5729df49d7eSJed Brown /// * `qweight` - Array of length `nqpts` holding the quadrature weights on 5739df49d7eSJed Brown /// the reference element 5749df49d7eSJed Brown /// 5759df49d7eSJed Brown /// ``` 5769df49d7eSJed Brown /// # use libceed::prelude::*; 5779df49d7eSJed Brown /// # let ceed = libceed::Ceed::default_init(); 5789df49d7eSJed Brown /// let interp = [ 5799df49d7eSJed Brown /// 0.12000000, 5809df49d7eSJed Brown /// 0.48000000, 5819df49d7eSJed Brown /// -0.12000000, 5829df49d7eSJed Brown /// 0.48000000, 5839df49d7eSJed Brown /// 0.16000000, 5849df49d7eSJed Brown /// -0.12000000, 5859df49d7eSJed Brown /// -0.12000000, 5869df49d7eSJed Brown /// 0.48000000, 5879df49d7eSJed Brown /// 0.12000000, 5889df49d7eSJed Brown /// 0.16000000, 5899df49d7eSJed Brown /// 0.48000000, 5909df49d7eSJed Brown /// -0.12000000, 5919df49d7eSJed Brown /// -0.11111111, 5929df49d7eSJed Brown /// 0.44444444, 5939df49d7eSJed Brown /// -0.11111111, 5949df49d7eSJed Brown /// 0.44444444, 5959df49d7eSJed Brown /// 0.44444444, 5969df49d7eSJed Brown /// -0.11111111, 5979df49d7eSJed Brown /// -0.12000000, 5989df49d7eSJed Brown /// 0.16000000, 5999df49d7eSJed Brown /// -0.12000000, 6009df49d7eSJed Brown /// 0.48000000, 6019df49d7eSJed Brown /// 0.48000000, 6029df49d7eSJed Brown /// 0.12000000, 6039df49d7eSJed Brown /// ]; 6049df49d7eSJed Brown /// let grad = [ 6059df49d7eSJed Brown /// -1.40000000, 6069df49d7eSJed Brown /// 1.60000000, 6079df49d7eSJed Brown /// -0.20000000, 6089df49d7eSJed Brown /// -0.80000000, 6099df49d7eSJed Brown /// 0.80000000, 6109df49d7eSJed Brown /// 0.00000000, 6119df49d7eSJed Brown /// 0.20000000, 6129df49d7eSJed Brown /// -1.60000000, 6139df49d7eSJed Brown /// 1.40000000, 6149df49d7eSJed Brown /// -0.80000000, 6159df49d7eSJed Brown /// 0.80000000, 6169df49d7eSJed Brown /// 0.00000000, 6179df49d7eSJed Brown /// -0.33333333, 6189df49d7eSJed Brown /// 0.00000000, 6199df49d7eSJed Brown /// 0.33333333, 6209df49d7eSJed Brown /// -1.33333333, 6219df49d7eSJed Brown /// 1.33333333, 6229df49d7eSJed Brown /// 0.00000000, 6239df49d7eSJed Brown /// 0.20000000, 6249df49d7eSJed Brown /// 0.00000000, 6259df49d7eSJed Brown /// -0.20000000, 6269df49d7eSJed Brown /// -2.40000000, 6279df49d7eSJed Brown /// 2.40000000, 6289df49d7eSJed Brown /// 0.00000000, 6299df49d7eSJed Brown /// -1.40000000, 6309df49d7eSJed Brown /// -0.80000000, 6319df49d7eSJed Brown /// 0.00000000, 6329df49d7eSJed Brown /// 1.60000000, 6339df49d7eSJed Brown /// 0.80000000, 6349df49d7eSJed Brown /// -0.20000000, 6359df49d7eSJed Brown /// 0.20000000, 6369df49d7eSJed Brown /// -2.40000000, 6379df49d7eSJed Brown /// 0.00000000, 6389df49d7eSJed Brown /// 0.00000000, 6399df49d7eSJed Brown /// 2.40000000, 6409df49d7eSJed Brown /// -0.20000000, 6419df49d7eSJed Brown /// -0.33333333, 6429df49d7eSJed Brown /// -1.33333333, 6439df49d7eSJed Brown /// 0.00000000, 6449df49d7eSJed Brown /// 0.00000000, 6459df49d7eSJed Brown /// 1.33333333, 6469df49d7eSJed Brown /// 0.33333333, 6479df49d7eSJed Brown /// 0.20000000, 6489df49d7eSJed Brown /// -0.80000000, 6499df49d7eSJed Brown /// 0.00000000, 6509df49d7eSJed Brown /// -1.60000000, 6519df49d7eSJed Brown /// 0.80000000, 6529df49d7eSJed Brown /// 1.40000000, 6539df49d7eSJed Brown /// ]; 6549df49d7eSJed Brown /// let qref = [ 6559df49d7eSJed Brown /// 0.20000000, 0.60000000, 0.33333333, 0.20000000, 0.20000000, 0.20000000, 0.33333333, 6569df49d7eSJed Brown /// 0.60000000, 6579df49d7eSJed Brown /// ]; 6589df49d7eSJed Brown /// let qweight = [0.26041667, 0.26041667, -0.28125000, 0.26041667]; 6599df49d7eSJed Brown /// let b = ceed 6609df49d7eSJed Brown /// .basis_H1( 6619df49d7eSJed Brown /// ElemTopology::Triangle, 6629df49d7eSJed Brown /// 1, 6639df49d7eSJed Brown /// 6, 6649df49d7eSJed Brown /// 4, 6659df49d7eSJed Brown /// &interp, 6669df49d7eSJed Brown /// &grad, 6679df49d7eSJed Brown /// &qref, 6689df49d7eSJed Brown /// &qweight, 6699df49d7eSJed Brown /// ) 6709df49d7eSJed Brown /// .unwrap(); 6719df49d7eSJed Brown /// ``` 6729df49d7eSJed Brown pub fn basis_H1( 6739df49d7eSJed Brown &self, 6749df49d7eSJed Brown topo: ElemTopology, 6759df49d7eSJed Brown ncomp: usize, 6769df49d7eSJed Brown nnodes: usize, 6779df49d7eSJed Brown nqpts: usize, 6789df49d7eSJed Brown interp: &[f64], 6799df49d7eSJed Brown grad: &[f64], 6809df49d7eSJed Brown qref: &[f64], 6819df49d7eSJed Brown qweight: &[f64], 6829df49d7eSJed Brown ) -> Result<Basis> { 6839df49d7eSJed Brown Basis::create_H1( 6849df49d7eSJed Brown self, topo, ncomp, nnodes, nqpts, interp, grad, qref, qweight, 6859df49d7eSJed Brown ) 6869df49d7eSJed Brown } 6879df49d7eSJed Brown 6889df49d7eSJed Brown /// Returns a CeedQFunction for evaluating interior (volumetric) terms 6899df49d7eSJed Brown /// 6909df49d7eSJed Brown /// # arguments 6919df49d7eSJed Brown /// 6929df49d7eSJed Brown /// * `vlength` - Vector length. Caller must ensure that number of 6939df49d7eSJed Brown /// quadrature points is a multiple of vlength. 6949df49d7eSJed Brown /// * `f` - Boxed closure to evaluate action at quadrature points. 6959df49d7eSJed Brown /// 6969df49d7eSJed Brown /// ``` 6979df49d7eSJed Brown /// # use libceed::prelude::*; 6989df49d7eSJed Brown /// # let ceed = libceed::Ceed::default_init(); 6999df49d7eSJed Brown /// let mut user_f = |[u, weights, ..]: QFunctionInputs, [v, ..]: QFunctionOutputs| { 7009df49d7eSJed Brown /// // Iterate over quadrature points 7019df49d7eSJed Brown /// v.iter_mut() 7029df49d7eSJed Brown /// .zip(u.iter().zip(weights.iter())) 7039df49d7eSJed Brown /// .for_each(|(v, (u, w))| *v = u * w); 7049df49d7eSJed Brown /// 7059df49d7eSJed Brown /// // Return clean error code 7069df49d7eSJed Brown /// 0 7079df49d7eSJed Brown /// }; 7089df49d7eSJed Brown /// 7099df49d7eSJed Brown /// let qf = ceed.q_function_interior(1, Box::new(user_f)).unwrap(); 7109df49d7eSJed Brown /// ``` 7119df49d7eSJed Brown pub fn q_function_interior( 7129df49d7eSJed Brown &self, 7139df49d7eSJed Brown vlength: usize, 7149df49d7eSJed Brown f: Box<qfunction::QFunctionUserClosure>, 7159df49d7eSJed Brown ) -> Result<QFunction> { 7169df49d7eSJed Brown QFunction::create(self, vlength, f) 7179df49d7eSJed Brown } 7189df49d7eSJed Brown 7199df49d7eSJed Brown /// Returns a CeedQFunction for evaluating interior (volumetric) terms 7209df49d7eSJed Brown /// created by name 7219df49d7eSJed Brown /// 7229df49d7eSJed Brown /// ``` 7239df49d7eSJed Brown /// # use libceed::prelude::*; 7249df49d7eSJed Brown /// # let ceed = libceed::Ceed::default_init(); 7259df49d7eSJed Brown /// let qf = ceed.q_function_interior_by_name("Mass1DBuild").unwrap(); 7269df49d7eSJed Brown /// ``` 7279df49d7eSJed Brown pub fn q_function_interior_by_name(&self, name: &str) -> Result<QFunctionByName> { 7289df49d7eSJed Brown QFunctionByName::create(self, name) 7299df49d7eSJed Brown } 7309df49d7eSJed Brown 7319df49d7eSJed Brown /// Returns a Operator and associate a QFunction. A Basis and 7329df49d7eSJed Brown /// ElemRestriction can be associated with QFunction fields with 7339df49d7eSJed Brown /// set_field(). 7349df49d7eSJed Brown /// 7359df49d7eSJed Brown /// * `qf` - QFunction defining the action of the operator at quadrature 7369df49d7eSJed Brown /// points 7379df49d7eSJed Brown /// * `dqf` - QFunction defining the action of the Jacobian of the qf (or 7389df49d7eSJed Brown /// qfunction_none) 7399df49d7eSJed Brown /// * `dqfT` - QFunction defining the action of the transpose of the 7409df49d7eSJed Brown /// Jacobian of the qf (or qfunction_none) 7419df49d7eSJed Brown /// 7429df49d7eSJed Brown /// ``` 7439df49d7eSJed Brown /// # use libceed::prelude::*; 7449df49d7eSJed Brown /// # let ceed = libceed::Ceed::default_init(); 7459df49d7eSJed Brown /// let qf = ceed.q_function_interior_by_name("Mass1DBuild").unwrap(); 7469df49d7eSJed Brown /// let op = ceed 7479df49d7eSJed Brown /// .operator(&qf, QFunctionOpt::None, QFunctionOpt::None) 7489df49d7eSJed Brown /// .unwrap(); 7499df49d7eSJed Brown /// ``` 7509df49d7eSJed Brown pub fn operator<'b>( 7519df49d7eSJed Brown &self, 7529df49d7eSJed Brown qf: impl Into<QFunctionOpt<'b>>, 7539df49d7eSJed Brown dqf: impl Into<QFunctionOpt<'b>>, 7549df49d7eSJed Brown dqfT: impl Into<QFunctionOpt<'b>>, 7559df49d7eSJed Brown ) -> Result<Operator> { 7569df49d7eSJed Brown Operator::create(self, qf, dqf, dqfT) 7579df49d7eSJed Brown } 7589df49d7eSJed Brown 7599df49d7eSJed Brown /// Returns an Operator that composes the action of several Operators 7609df49d7eSJed Brown /// 7619df49d7eSJed Brown /// ``` 7629df49d7eSJed Brown /// # use libceed::prelude::*; 7639df49d7eSJed Brown /// # let ceed = libceed::Ceed::default_init(); 7649df49d7eSJed Brown /// let op = ceed.composite_operator().unwrap(); 7659df49d7eSJed Brown /// ``` 7669df49d7eSJed Brown pub fn composite_operator(&self) -> Result<CompositeOperator> { 7679df49d7eSJed Brown CompositeOperator::create(self) 7689df49d7eSJed Brown } 7699df49d7eSJed Brown } 7709df49d7eSJed Brown 7719df49d7eSJed Brown // ----------------------------------------------------------------------------- 7729df49d7eSJed Brown // Tests 7739df49d7eSJed Brown // ----------------------------------------------------------------------------- 7749df49d7eSJed Brown #[cfg(test)] 7759df49d7eSJed Brown mod tests { 7769df49d7eSJed Brown use super::*; 7779df49d7eSJed Brown 7789df49d7eSJed Brown fn ceed_t501() -> Result<i32> { 7799df49d7eSJed Brown let resource = "/cpu/self/ref/blocked"; 7809df49d7eSJed Brown let ceed = Ceed::init(resource); 7819df49d7eSJed Brown let nelem = 4; 7829df49d7eSJed Brown let p = 3; 7839df49d7eSJed Brown let q = 4; 7849df49d7eSJed Brown let ndofs = p * nelem - nelem + 1; 7859df49d7eSJed Brown 7869df49d7eSJed Brown // Vectors 7879df49d7eSJed Brown let x = ceed.vector_from_slice(&[-1., -0.5, 0.0, 0.5, 1.0])?; 7889df49d7eSJed Brown let mut qdata = ceed.vector(nelem * q)?; 7899df49d7eSJed Brown qdata.set_value(0.0)?; 7909df49d7eSJed Brown let mut u = ceed.vector(ndofs)?; 7919df49d7eSJed Brown u.set_value(1.0)?; 7929df49d7eSJed Brown let mut v = ceed.vector(ndofs)?; 7939df49d7eSJed Brown v.set_value(0.0)?; 7949df49d7eSJed Brown 7959df49d7eSJed Brown // Restrictions 7969df49d7eSJed Brown let mut indx: Vec<i32> = vec![0; 2 * nelem]; 7979df49d7eSJed Brown for i in 0..nelem { 7989df49d7eSJed Brown indx[2 * i + 0] = i as i32; 7999df49d7eSJed Brown indx[2 * i + 1] = (i + 1) as i32; 8009df49d7eSJed Brown } 8019df49d7eSJed Brown let rx = ceed.elem_restriction(nelem, 2, 1, 1, nelem + 1, MemType::Host, &indx)?; 8029df49d7eSJed Brown let mut indu: Vec<i32> = vec![0; p * nelem]; 8039df49d7eSJed Brown for i in 0..nelem { 8049df49d7eSJed Brown indu[p * i + 0] = i as i32; 8059df49d7eSJed Brown indu[p * i + 1] = (i + 1) as i32; 8069df49d7eSJed Brown indu[p * i + 2] = (i + 2) as i32; 8079df49d7eSJed Brown } 8089df49d7eSJed Brown let ru = ceed.elem_restriction(nelem, 3, 1, 1, ndofs, MemType::Host, &indu)?; 8099df49d7eSJed Brown let strides: [i32; 3] = [1, q as i32, q as i32]; 8109df49d7eSJed Brown let rq = ceed.strided_elem_restriction(nelem, q, 1, q * nelem, strides)?; 8119df49d7eSJed Brown 8129df49d7eSJed Brown // Bases 8139df49d7eSJed Brown let bx = ceed.basis_tensor_H1_Lagrange(1, 1, 2, q, QuadMode::Gauss)?; 8149df49d7eSJed Brown let bu = ceed.basis_tensor_H1_Lagrange(1, 1, p, q, QuadMode::Gauss)?; 8159df49d7eSJed Brown 8169df49d7eSJed Brown // Build quadrature data 8179df49d7eSJed Brown let qf_build = ceed.q_function_interior_by_name("Mass1DBuild")?; 8189df49d7eSJed Brown ceed.operator(&qf_build, QFunctionOpt::None, QFunctionOpt::None)? 8199df49d7eSJed Brown .field("dx", &rx, &bx, VectorOpt::Active)? 8209df49d7eSJed Brown .field("weights", ElemRestrictionOpt::None, &bx, VectorOpt::None)? 8219df49d7eSJed Brown .field("qdata", &rq, BasisOpt::Collocated, VectorOpt::Active)? 8229df49d7eSJed Brown .apply(&x, &mut qdata)?; 8239df49d7eSJed Brown 8249df49d7eSJed Brown // Mass operator 8259df49d7eSJed Brown let qf_mass = ceed.q_function_interior_by_name("MassApply")?; 8269df49d7eSJed Brown let op_mass = ceed 8279df49d7eSJed Brown .operator(&qf_mass, QFunctionOpt::None, QFunctionOpt::None)? 8289df49d7eSJed Brown .field("u", &ru, &bu, VectorOpt::Active)? 8299df49d7eSJed Brown .field("qdata", &rq, BasisOpt::Collocated, &qdata)? 8309df49d7eSJed Brown .field("v", &ru, &bu, VectorOpt::Active)?; 8319df49d7eSJed Brown 8329df49d7eSJed Brown v.set_value(0.0)?; 8339df49d7eSJed Brown op_mass.apply(&u, &mut v)?; 8349df49d7eSJed Brown 8359df49d7eSJed Brown // Check 8369df49d7eSJed Brown let sum: f64 = v.view().iter().sum(); 8379df49d7eSJed Brown assert!( 8389df49d7eSJed Brown (sum - 2.0).abs() < 1e-15, 8399df49d7eSJed Brown "Incorrect interval length computed" 8409df49d7eSJed Brown ); 8419df49d7eSJed Brown Ok(0) 8429df49d7eSJed Brown } 8439df49d7eSJed Brown 8449df49d7eSJed Brown #[test] 8459df49d7eSJed Brown fn test_ceed_t501() { 8469df49d7eSJed Brown assert!(ceed_t501().is_ok()); 8479df49d7eSJed Brown } 8489df49d7eSJed Brown } 8499df49d7eSJed Brown 8509df49d7eSJed Brown // ----------------------------------------------------------------------------- 851