Dune Core Modules (2.8.0)
Various helper classes and functions. More...
Modules | |
| Utilities for type-erasure | |
| Helper classes for implementing type-erased interfaces. | |
Classes | |
| class | Dune::Functions::PolymorphicType< Interface > |
| Base class with polymorphic type boiler plate code. More... | |
| class | Dune::Functions::PolymorphicSmallObject< Base, bufferSize > |
| A wrapper providing small object optimization with polymorphic types. More... | |
| class | Dune::Functions::ReservedDeque< T, n > |
| A double-ended queue (deque) class with statically reserved memory. More... | |
| struct | Dune::Functions::UniformNodeVisitor< SimpleNodeVisitorImp, leafOnly > |
| Mixin for visitors that should apply the same action on all nodes. More... | |
| class | Dune::Functions::TreeData< T, ND, LO > |
| Container allowing to attach data to each node of a tree. More... | |
| struct | Dune::Functions::HasStaticSize< T > |
| Check if type is a statically sized container. More... | |
| struct | Dune::Functions::StaticSize< T > |
| Obtain size of statically sized container. More... | |
| struct | Dune::Functions::LastType< T > |
| Get last entry of type list. More... | |
| struct | Dune::Functions::RotateTuple< T > |
| Rotate type list by one, such that last entry is moved to first position. More... | |
Typedefs | |
| template<class T , class... Args> | |
| using | Dune::Functions::enableIfConstructible = typename std::enable_if< std::is_constructible< T, Args... >::value, int >::type |
| Helper to constrain forwarding constructors. More... | |
| template<template< class... > class T, class ArgTuple > | |
| using | Dune::Functions::ExpandTuple = typename Imp::ExpandTupleHelper< T, ArgTuple >::Type |
| Expand tuple arguments as template arguments. More... | |
| template<template< class... > class F, class... Tuples> | |
| using | Dune::Functions::TransformTuple = typename Imp::TransformTupleHelper< F, Tuples... >::Type |
| Transform tuple types argument using type-functor. More... | |
Functions | |
| template<class F , class ArgTuple , class I , I... i> | |
| decltype(auto) | Dune::applyPartial (F &&f, ArgTuple &&args, std::integer_sequence< I, i... >) |
| Apply function with arguments from a given tuple. More... | |
| template<class F , class... Args> | |
| static constexpr auto | Dune::Functions::Concept::isCallable () |
| Check if f is callable with given argument list. | |
| template<class F , class... Args> | |
| static constexpr auto | Dune::Functions::Concept::isCallable (F &&f, Args &&... args) |
| Check if f is callable with given argument list. | |
| template<class C , class I , class F , typename std::enable_if< Dune::models< Imp::Concept::HasDynamicIndexAccess< I >, C >(), int >::type = 0> | |
| auto | Dune::Functions::hybridIndexAccess (C &&c, const I &i, F &&f) -> decltype(f(c[i])) |
| Provide operator[] index-access for containers. More... | |
| template<class Result , class C , class MultiIndex > | |
| Result | Dune::Functions::hybridMultiIndexAccess (C &&c, const MultiIndex &index) |
| Provide multi-index access by chaining operator[]. More... | |
| template<class C , class MultiIndex , class IsFinal > | |
| constexpr decltype(auto) | Dune::Functions::resolveDynamicMultiIndex (C &&c, const MultiIndex &multiIndex, const IsFinal &isFinal) |
| Provide multi-index access by chaining operator[]. More... | |
| template<class C , class MultiIndex > | |
| constexpr decltype(auto) | Dune::Functions::resolveDynamicMultiIndex (C &&c, const MultiIndex &multiIndex) |
| Provide multi-index access by chaining operator[]. More... | |
| template<class C , class MultiIndex > | |
| constexpr decltype(auto) | Dune::Functions::resolveStaticMultiIndex (C &&c, const MultiIndex &multiIndex) |
| Provide multi-index access by chaining operator[]. More... | |
| template<std::size_t begin_t, std::size_t end_t, class F , class... Args> | |
| void | Dune::Functions::staticFindInRange (F &&f, Args &&... args) |
| Static find loop. More... | |
| template<std::size_t end, class F , class size_type , class... Args> | |
| auto | Dune::Functions::forwardAsStaticIndex (const size_type &i, F &&f, Args &&... args) -> decltype(f(Dune::Indices::_0, std::forward< Args >(args)...)) |
| Transform dynamic index to static index_constant. More... | |
| template<class F , class... T> | |
| auto | Dune::Functions::transformTuple (F &&f, const std::tuple< T... > &tuple) -> decltype(Imp::transformTupleHelper(std::forward< F >(f), tuple, std::index_sequence_for< T... >{})) |
| Transform tuple value using a functor. More... | |
| template<class F , class... T1, class... T2> | |
| auto | Dune::Functions::transformTuple (F &&f, const std::tuple< T1... > &tuple1, const std::tuple< T2... > &tuple2) -> decltype(Imp::transformTupleHelper(std::forward< F >(f), tuple1, tuple2, std::index_sequence_for< T1... >{})) |
| Transform tuple value using a binary functor. More... | |
| template<class Expression > | |
| auto | Dune::Functions::callableCheck (Expression f) |
| Create a predicate for checking validity of expressions. More... | |
| template<class Check > | |
| auto | Dune::Functions::negatePredicate (Check check) |
| Negate given predicate. More... | |
Detailed Description
Various helper classes and functions.
Typedef Documentation
◆ enableIfConstructible
| using Dune::Functions::enableIfConstructible = typedef typename std::enable_if< std::is_constructible<T, Args...>::value, int>::type |
Helper to constrain forwarding constructors.
Helper typedef to remove constructor with forwarding reference from overload set for type is not constructible from argument list. This is useful to avoid failng forwarding constructors for base classes or members.
◆ ExpandTuple
| using Dune::Functions::ExpandTuple = typedef typename Imp::ExpandTupleHelper<T, ArgTuple>::Type |
Expand tuple arguments as template arguments.
This template alias refers to T<Args...> if ArgTuple is a std::tuple<Args...>.
- Template Parameters
-
T A variadic template ArgTuple A tuple of types
◆ TransformTuple
| using Dune::Functions::TransformTuple = typedef typename Imp::TransformTupleHelper<F, Tuples...>::Type |
Transform tuple types argument using type-functor.
This is a template alias for a tuple whose i-th type is given by F<T1i,...,TMi> where T1i,...,TMi are the i-th types of the 1,...,M-th tuple of the given tuple list Tuples. Currently only M=1,2 are supported.
- Template Parameters
-
F A template alias mapping 1,...,sizeof...(ArgTuple) types to a new one Tuples A list of tuples
Function Documentation
◆ applyPartial()
| decltype(auto) Dune::applyPartial | ( | F && | f, |
| ArgTuple && | args, | ||
| std::integer_sequence< I, i... > | |||
| ) |
Apply function with arguments from a given tuple.
- Parameters
-
f A callable object args Tuple containing the arguments indices Indices to arguments in tuple as std::integer_sequence
This will call the function with arguments generated by unpacking those entries of the tuple that show up given integer_sequence.
Referenced by Dune::Functions::BasisFactory::composite().
◆ callableCheck()
| auto Dune::Functions::callableCheck | ( | Expression | f | ) |
Create a predicate for checking validity of expressions.
- Parameters
-
f A function involving the expression to check.
This returns a function object that allows to check if the expression encoded in f is valid for the given arguments. To be precise it checks if f can be called using the given arguments. This can be used inthe following way: To generate a check if the expression x(a,b) is valid for some a and b use:
Notice that the given function f is stored by value.
References Dune::Functions::Concept::isCallable().
Referenced by Dune::Functions::resolveDynamicMultiIndex().
◆ forwardAsStaticIndex()
| auto Dune::Functions::forwardAsStaticIndex | ( | const size_type & | i, |
| F && | f, | ||
| Args &&... | args | ||
| ) | -> decltype(f(Dune::Indices::_0, std::forward<Args>(args)...)) |
Transform dynamic index to static index_constant.
This will call the given function with index_constant where i is the dynamically provided index.
To achieve this the conditon i==ii is checked subsequently for al static indices ii in the range 0,...,(end-1). In order to be able to compile this we require for all ii in this range that f(index_constant<ii>()) is well-formed and that the result type of it can be converted to the result type of f(index_constant<0>()). If i is not in this range, the returned value is f(index_constant<n-1>())
- Parameters
-
i Dynamic index f Function to call (e.g., a generic lambda) args Additional arguments for f
- Returns
- f(index_constant<i>(), args...)
◆ hybridIndexAccess()
| auto Dune::Functions::hybridIndexAccess | ( | C && | c, |
| const I & | i, | ||
| F && | f | ||
| ) | -> decltype(f(c[i])) |
Provide operator[] index-access for containers.
This is the overload for types providing a operator[] for dynamic std::size_t arguments.
- Parameters
-
c Container to access i The index to use for accessing the container f A functor to call with the result of operator[]
◆ hybridMultiIndexAccess()
| Result Dune::Functions::hybridMultiIndexAccess | ( | C && | c, |
| const MultiIndex & | index | ||
| ) |
Provide multi-index access by chaining operator[].
This provides access to a nested container by given multi-index. Internally this is resolved by recusive operator[]-calls with static or dynamic indices. Because this recursion must be terminated using a compile-time criterion, the result type must explicitly be provided. The recursion will terminate once the result can be converted to this result type.
- Template Parameters
-
Result Type of result
- Parameters
-
c Container to access index Multi-index
◆ negatePredicate()
| auto Dune::Functions::negatePredicate | ( | Check | check | ) |
Negate given predicate.
- Parameters
-
f A predicate function to negate
This returns a function havin the same parameters as f, but negating the result. Negation here means that std::true_type is converted to std::false_type are vice verse, while other return values are converted to bool values and then the negated value is returned as bool, too.
Notice that the given function f is stored by value.
References Dune::overload().
Referenced by Dune::Functions::resolveDynamicMultiIndex().
◆ resolveDynamicMultiIndex() [1/2]
|
constexpr |
Provide multi-index access by chaining operator[].
This provides access to a nested container by given dynamically sized multi-index. Internally this is resolved by recusive operator[]-calls with static or dynamic indices. Because this recursion must be terminated, a predicate is used to determine if a type is considered final for the multi-index resolution. This version terminates the recursion on values that neither have a static nore a dynamic operator[].
- Parameters
-
c Container to access index Multi-index
References Dune::Indices::_0, Dune::Functions::callableCheck(), Dune::Functions::negatePredicate(), and Dune::Functions::resolveDynamicMultiIndex().
Referenced by Dune::Functions::resolveDynamicMultiIndex().
◆ resolveDynamicMultiIndex() [2/2]
|
constexpr |
Provide multi-index access by chaining operator[].
This provides access to a nested container by given dynamically sized multi-index. Internally this is resolved by recusive operator[]-calls with static or dynamic indices. Because this recursion must be terminated, a predicate is used to determine if a type is considered final for the multi-index resolution. Hence multi-index resolution is terminated for values where the criterion matches. In order to do this statically the predicate has to return its result as std::true_type or std::false_type.
If the entries of the multi-index are exhausted, additional [0] entries are used until the termination criterion is satisfied.
- Parameters
-
c Container to access index Multi-index isFinal A predicate function checking if recursion should be terminated.
References Dune::Functions::resolveDynamicMultiIndex().
◆ resolveStaticMultiIndex()
|
constexpr |
Provide multi-index access by chaining operator[].
This provides access to a nested container by given statically sized multi-index. Internally this is resolved by recusive operator[]-calls with static or dynamic indices. Since the multi-index must have compile-time known size it is possible, that values resolved by different multi-indices have a different size.
- Parameters
-
c Container to access index Multi-index
References Dune::Functions::resolveStaticMultiIndex().
Referenced by Dune::Functions::resolveStaticMultiIndex().
◆ staticFindInRange()
| void Dune::Functions::staticFindInRange | ( | F && | f, |
| Args &&... | args | ||
| ) |
Static find loop.
Run static for-loop from 'begin' to 'end-1' with functor. The functor is called with Dune::index_constant<i> as first argument. All other arguments of this method are forwarded to the functor. If the functor returns true the loop is terminated.
- Todo:
- Should this be just the StaticForLoop?
◆ transformTuple() [1/2]
| auto Dune::Functions::transformTuple | ( | F && | f, |
| const std::tuple< T... > & | tuple | ||
| ) | -> decltype(Imp::transformTupleHelper(std::forward<F>(f), tuple, std::index_sequence_for<T...>{})) |
Transform tuple value using a functor.
This will apply the given functor to all values in given tuple and return the results in a new tuple.
- Parameters
-
F A functor defined for all tuple entries tuple The tuple to transform
◆ transformTuple() [2/2]
| auto Dune::Functions::transformTuple | ( | F && | f, |
| const std::tuple< T1... > & | tuple1, | ||
| const std::tuple< T2... > & | tuple2 | ||
| ) | -> decltype(Imp::transformTupleHelper(std::forward<F>(f), tuple1, tuple2, std::index_sequence_for<T1...>{})) |
Transform tuple value using a binary functor.
This will apply the given functor to the each corresponding pair of values in the given tuples and return the results in a new tuple.
- Parameters
-
F A functor defined for all tuple entries tuple1 The tuple containing values for the first parameter tuple2 The tuple containing values for the second parameter
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