Dune Core Modules (2.5.2)

foundation classes More...

Modules

 Allocators
 Implementations of the STL allocator concept.
 
 Utilities
 Collection of helper classes, type traits, etc.
 
 Numbers
 Class implementing different number representations and helper functions.
 
 Debug output
 
 Dense Matrix and Vector Template Library
 Type traits to retrieve the field and the real type of classes.
 
 Exception handling
 
 Iterator facades
 Iterator facades for writing stl conformant iterators.
 
 Parallel Communication
 Abstractions for paralle computing.
 

Files

file  alignment.hh
 This file implements a template class to determine alignment requirements of types at compile time.
 
file  function.hh
 Simple base class templates for functions.
 
file  gcd.hh
 Statically compute the greatest common divisor of two integers.
 
file  indent.hh
 Utility class for handling nested indentation in output.
 
file  ios_state.hh
 Utility class for storing and resetting stream attributes.
 
file  lcm.hh
 Statically compute the least common multiple of two integers.
 
file  sllist.hh
 Implements a singly linked list together with the necessary iterators.
 
file  timer.hh
 A simple timing class.
 

Classes

struct  Dune::AlignmentOf< T >
 Calculates the alignment requirement of a type. More...
 
class  Dune::ArrayList< T, N, A >
 A dynamically growing random access list. More...
 
class  Dune::ArrayListIterator< T, N, A >
 A random access iterator for the Dune::ArrayList class. More...
 
class  Dune::ConstArrayListIterator< T, N, A >
 A constant random access iterator for the Dune::ArrayList class. More...
 
class  Dune::EmptySet< TA >
 An empty set. More...
 
class  Dune::AllSet< TA >
 A set containing everything. More...
 
class  Dune::EnumItem< TA, item >
 A set consisting only of one item. More...
 
class  Dune::EnumRange< TA, from, end >
 A set representing a range including the borders. More...
 
class  Dune::NegateSet< S >
 The negation of a set. An item is contained in the set if and only if it is not contained in the negated set. More...
 
class  Dune::Combine< TI1, TI2, TA >
 A set combining two other sets. More...
 
class  Dune::Function< Domain, Range >
 Base class template for function classes. More...
 
class  Dune::VirtualFunction< DomainType, RangeType >
 Virtual base class template for function classes. More...
 
struct  Dune::Gcd< a, b >
 Calculator of the greatest common divisor. More...
 
class  Dune::Indent
 Utility class for handling nested indentation in output. More...
 
class  Dune::ios_base_all_saver
 Utility class for storing and resetting stream attributes. More...
 
struct  Dune::Lcm< m, n >
 Calculate the least common multiple of two numbers. More...
 
class  Dune::ParameterTree
 Hierarchical structure of string parameters. More...
 
class  Dune::ParameterTreeParser
 Parsers to set up a ParameterTree from various input sources. More...
 
struct  Dune::StaticPower< m, p >
 Calculates m^p at compile time. More...
 
struct  Dune::StaticPower< m, 0 >
 end of recursion via specialization More...
 
struct  Dune::Power< p >
 Compute power for a run-time mantissa and a compile-time integer exponent. More...
 
struct  Dune::PromotionTraits< T1, T2 >
 Compute type of the result of an arithmetic operation involving two different number types. More...
 
class  Dune::SLListIterator< T, A >
 A mutable iterator for the SLList. More...
 
class  Dune::SLListConstIterator< T, A >
 A constant iterator for the SLList. More...
 
class  Dune::SLListModifyIterator< T, A >
 A mutable iterator for the SLList. More...
 
class  Dune::SLList< T, A >
 A single linked list. More...
 
class  Dune::TimerError
 Exception thrown by the Timer class More...
 
class  Dune::Timer
 A simple stop watch. More...
 
struct  Dune::Empty
 Just an empty class. More...
 
struct  Dune::IsInteroperable< T1, T2 >
 Checks whether two types are interoperable. More...
 
struct  Dune::EnableIfInterOperable< T1, T2, Type >
 Enable typedef if two types are interoperable. More...
 
struct  Dune::AlwaysFalse< T >
 template which always yields a false value More...
 
struct  Dune::AlwaysTrue< T >
 template which always yields a true value More...
 
struct  Dune::is_indexable< T, I >
 
struct  Dune::is_range< T, typename >
 
struct  Dune::IsTuple< T >
 Check if T is a std::tuple<...> More...
 
struct  Dune::IsTupleOrDerived< T >
 Check if T derived from a std::tuple<...> More...
 
struct  Dune::IsIntegralConstant< T >
 Check if T is an std::integral_constant<I, i> More...
 
struct  Dune::SizeOf< T >
 Compute size of variadic type list. More...
 

Macros

#define DUNE_ASSERT_BOUNDS(cond)
 If DUNE_CHECK_BOUNDS is defined: check if condition cond holds; otherwise, do nothing. More...
 
#define DUNE_DEPRECATED
 Mark some entity as deprecated. More...
 
#define DUNE_DEPRECATED_MSG(text)   DUNE_DEPRECATED
 Mark some entity as deprecated. More...
 
#define DUNE_NO_DEPRECATED_BEGIN   ...
 Ignore deprecation warnings (start) More...
 
#define DUNE_NO_DEPRECATED_END   ...
 Ignore deprecation warnings (end) More...
 

Typedefs

template<std::size_t i>
using Dune::index_constant = std::integral_constant< std::size_t, i >
 An index constant with value i. More...
 
typedef std::ios_base Dune::ios_base_all_saver::state_type
 Export type of object we save the state for.
 
typedef A::size_type Dune::SLList< T, A >::size_type
 The size type.
 
typedef T Dune::SLList< T, A >::MemberType
 The type we store.
 
typedef A::template rebind< Element >::other Dune::SLList< T, A >::Allocator
 The allocator to use.
 
typedef SLListIterator< T, A > Dune::SLList< T, A >::iterator
 The mutable iterator of the list.
 
typedef SLListConstIterator< T, A > Dune::SLList< T, A >::const_iterator
 The constant iterator of the list.
 
typedef SLListModifyIterator< T, A > Dune::SLList< T, A >::ModifyIterator
 The type of the iterator capable of deletion and insertion.
 
template<class Type >
using Dune::field_t = typename FieldTraits< Type >::field_type
 Convenient access to FieldTraits<Type>::field_type.
 
template<class Type >
using Dune::real_t = typename FieldTraits< Type >::real_type
 Convenient access to FieldTraits<Type>::real_type.
 

Enumerations

enum  
 power stores m^p
 
enum  
 m^0 = 1
 

Functions

template<typename T , std::size_t n>
std::array< T, n > Dune::fill_array (const T &t)
 Create an array and fill it with copies of the provided value. More...
 
template<class A , class B >
auto Dune::dot (const A &a, const B &b) -> typename std::enable_if<!IsVector< A >::value &&!std::is_same< typename FieldTraits< A >::field_type, typename FieldTraits< A >::real_type > ::value, decltype(conj(a) *b)>::type
 computes the dot product for fundamental data types according to Petsc's VectDot function: dot(a,b) := std::conj(a)*b More...
 
 Dune::Indent::Indent (const std::string &basic_indent_=" ", unsigned level_=0)
 setup without parent More...
 
 Dune::Indent::Indent (unsigned level_)
 setup without parent and basic_indentation of two spaces
 
 Dune::Indent::Indent (const Indent *parent_, const std::string &basic_indent_=" ", unsigned level_=1)
 setup with parent More...
 
 Dune::Indent::Indent (const Indent *parent_, unsigned level_)
 setup with parent
 
Indent Dune::Indent::operator+ (const std::string &newindent) const
 create new indentation object with this one as parent
 
Indent Dune::Indent::operator+ (unsigned morelevel) const
 create a copy of this indetation object with raised level
 
IndentDune::Indent::operator++ ()
 raise indentation level
 
IndentDune::Indent::operator-- ()
 lower indentation level
 
std::ostream & Dune::operator<< (std::ostream &s, const Indent &indent)
 write indentation to a stream
 
 Dune::ios_base_all_saver::ios_base_all_saver (state_type &ios_)
 Constructor that stores the currently used flags. More...
 
 Dune::ios_base_all_saver::~ios_base_all_saver ()
 Destructor that restores the flags stored by the constructor.
 
void Dune::ios_base_all_saver::restore ()
 Restore flags now. More...
 
 Dune::SLList< T, A >::SLList ()
 Constructor.
 
template<typename T1 , typename A1 >
 Dune::SLList< T, A >::SLList (const SLList< T1, A1 > &other)
 Copy constructor with type conversion.
 
 Dune::SLList< T, A >::SLList (const SLList< T, A > &other)
 Copy constructor.
 
 Dune::SLList< T, A >::~SLList ()
 Destructor. More...
 
SLList< T, A > & Dune::SLList< T, A >::operator= (const SLList< T, A > &other)
 Assignment operator.
 
void Dune::SLList< T, A >::push_back (const MemberType &item)
 Add a new entry to the end of the list. More...
 
void Dune::SLList< T, A >::push_front (const MemberType &item)
 Add a new entry to the beginning of the list. More...
 
void Dune::SLList< T, A >::pop_front ()
 Remove the first item in the list.
 
void Dune::SLList< T, A >::clear ()
 Remove all elements from the list.
 
iterator Dune::SLList< T, A >::begin ()
 Get an iterator pointing to the first element in the list. More...
 
const_iterator Dune::SLList< T, A >::begin () const
 Get an iterator pointing to the first element in the list. More...
 
ModifyIterator Dune::SLList< T, A >::beginModify ()
 Get an iterator capable of deleting and inserting elements. More...
 
ModifyIterator Dune::SLList< T, A >::endModify ()
 Get an iterator capable of deleting and inserting elements. More...
 
iterator Dune::SLList< T, A >::end ()
 Get an iterator pointing to the end of the list. More...
 
const_iterator Dune::SLList< T, A >::end () const
 Get an iterator pointing to the end of the list. More...
 
bool Dune::SLList< T, A >::empty () const
 Check whether the list is empty. More...
 
int Dune::SLList< T, A >::size () const
 Get the number of elements the list contains.
 
T & Dune::SLListIterator< T, A >::dereference () const
 Dereferencing function for the iterator facade. More...
 
bool Dune::SLListIterator< T, A >::equals (const SLListConstIterator< T, A > &other) const
 Equality test for the iterator facade. More...
 
bool Dune::SLListIterator< T, A >::equals (const SLListIterator< T, A > &other) const
 Equality test for the iterator facade. More...
 
bool Dune::SLListIterator< T, A >::equals (const SLListModifyIterator< T, A > &other) const
 Equality test for the iterator facade. More...
 
void Dune::SLListIterator< T, A >::increment ()
 Increment function for the iterator facade.
 
void Dune::SLListIterator< T, A >::insertAfter (const T &v) const
 Insert an element in the underlying list after the current position. More...
 
void Dune::SLListIterator< T, A >::deleteNext () const
 Delete the entry after the current position. More...
 
const T & Dune::SLListConstIterator< T, A >::dereference () const
 Dereferencing function for the facade. More...
 
bool Dune::SLListConstIterator< T, A >::equals (const SLListConstIterator< T, A > &other) const
 Equality test for the iterator facade. More...
 
void Dune::SLListConstIterator< T, A >::increment ()
 Increment function for the iterator facade.
 
T & Dune::SLListModifyIterator< T, A >::dereference () const
 Dereferencing function for the iterator facade. More...
 
bool Dune::SLListModifyIterator< T, A >::equals (const SLListConstIterator< T, A > &other) const
 Test whether another iterator is equal. More...
 
bool Dune::SLListModifyIterator< T, A >::equals (const SLListIterator< T, A > &other) const
 Test whether another iterator is equal. More...
 
bool Dune::SLListModifyIterator< T, A >::equals (const SLListModifyIterator< T, A > &other) const
 Test whether another iterator is equal. More...
 
void Dune::SLListModifyIterator< T, A >::increment ()
 Increment function for the iterator facade.
 
void Dune::SLListModifyIterator< T, A >::insert (const T &v)
 Insert an element at the current position. More...
 
void Dune::SLListModifyIterator< T, A >::remove ()
 Delete the entry at the current position. More...
 
template<typename Stream , typename... Ts>
Stream & Dune::operator<< (Stream &stream, const std::tuple< Ts... > &t)
 Print a std::tuple.
 
template<typename Stream , typename... Ts>
Stream & Dune::operator>> (Stream &stream, std::tuple< Ts... > &t)
 Read a std::tuple.
 
template<typename Stream , typename T , std::size_t N>
Stream & Dune::operator<< (Stream &stream, const std::array< T, N > &a)
 Print a std::array.
 
template<typename T >
struct Dune::DUNE_DEPRECATED_MSG ("Use <type_traits> instead!") ConstantVolatileTraits
 Determines whether a type is const or volatile and provides the unqualified types. More...
 
template<typename T >
struct Dune::DUNE_DEPRECATED_MSG ("Use std::is_volatile instead!") IsVolatile
 Tests whether a type is volatile. More...
 
template<typename T >
struct Dune::DUNE_DEPRECATED_MSG ("Use std::is_const instead!") IsConst
 Tests whether a type is constant. More...
 
template<class From , class To >
struct Dune::DUNE_DEPRECATED_MSG ("Use std::is_convertible/std::is_same instead!") Conversion
 Checks whether a type is convertible to another. More...
 
template<class Base , class Derived >
struct Dune::DUNE_DEPRECATED_MSG ("Use std::is_base_of instead!") IsBaseOf
 Checks whether a type is derived from another. More...
 
 Dune::ArrayList< T, N, A >::ArrayList ()
 Constructs an Array list with one chunk.
 
void Dune::ArrayList< T, N, A >::clear ()
 Delete all entries from the list.
 
size_type Dune::ArrayList< T, N, A >::size () const
 Get the number of elements in the list. More...
 
void Dune::ArrayList< T, N, A >::push_back (const_reference entry)
 Append an entry to the list. More...
 
reference Dune::ArrayList< T, N, A >::operator[] (size_type i)
 Get the element at specific position. More...
 
const_reference Dune::ArrayList< T, N, A >::operator[] (size_type i) const
 Get the element at specific position. More...
 
iterator Dune::ArrayList< T, N, A >::begin ()
 Get an iterator that is positioned at the first element. More...
 
const_iterator Dune::ArrayList< T, N, A >::begin () const
 Get a random access iterator that is positioned at the first element. More...
 
iterator Dune::ArrayList< T, N, A >::end ()
 Get a random access iterator positioned after the last element.
 
const_iterator Dune::ArrayList< T, N, A >::end () const
 Get a random access iterator positioned after the last element.
 
void Dune::ArrayList< T, N, A >::purge ()
 Purge the list. More...
 
void Dune::ArrayListIterator< T, N, A >::advance (difference_type n)
 
void Dune::ConstArrayListIterator< T, N, A >::advance (difference_type n)
 
bool Dune::ArrayListIterator< T, N, A >::equals (const ArrayListIterator< MemberType, N, A > &other) const
 Comares two iterators. More...
 
bool Dune::ArrayListIterator< T, N, A >::equals (const ConstArrayListIterator< MemberType, N, A > &other) const
 Comares two iterators. More...
 
bool Dune::ConstArrayListIterator< T, N, A >::equals (const ConstArrayListIterator< MemberType, N, A > &other) const
 Comares to iterators. More...
 
void Dune::ArrayListIterator< T, N, A >::increment ()
 Increment the iterator.
 
void Dune::ConstArrayListIterator< T, N, A >::increment ()
 Increment the iterator.
 
void Dune::ArrayListIterator< T, N, A >::decrement ()
 decrement the iterator.
 
void Dune::ConstArrayListIterator< T, N, A >::decrement ()
 decrement the iterator.
 
reference Dune::ArrayListIterator< T, N, A >::elementAt (size_type i) const
 Get the value of the list at an arbitrary position. More...
 
const_reference Dune::ConstArrayListIterator< T, N, A >::elementAt (size_type i) const
 Get the value of the list at an arbitrary position. More...
 
reference Dune::ArrayListIterator< T, N, A >::dereference () const
 Access the element at the current position. More...
 
const_reference Dune::ConstArrayListIterator< T, N, A >::dereference () const
 Access the element at the current position. More...
 
difference_type Dune::ArrayListIterator< T, N, A >::distanceTo (const ArrayListIterator< T, N, A > &other) const
 
difference_type Dune::ConstArrayListIterator< T, N, A >::distanceTo (const ConstArrayListIterator< T, N, A > &other) const
 
ArrayListIterator< T, N, A > & Dune::ArrayListIterator< T, N, A >::operator= (const ArrayListIterator< T, N, A > &other)
 
void Dune::ArrayListIterator< T, N, A >::eraseToHere ()
 Erase all entries before the current position and the one at the current position. More...
 
static bool Dune::EmptySet< TA >::contains (const Type &attribute)
 Always returns false.
 
static bool Dune::AllSet< TA >::contains (const Type &attribute)
 Always returns false.
 
static bool Dune::EnumItem< TA, item >::contains (const Type &attribute)
 Tests whether an item is in the set. More...
 

Variables

constexpr index_constant< 0 > Dune::Indices::_0 = {}
 Compile time index with value 0.
 
constexpr index_constant< 1 > Dune::Indices::_1 = {}
 Compile time index with value 1.
 
constexpr index_constant< 2 > Dune::Indices::_2 = {}
 Compile time index with value 2.
 
constexpr index_constant< 3 > Dune::Indices::_3 = {}
 Compile time index with value 3.
 
constexpr index_constant< 4 > Dune::Indices::_4 = {}
 Compile time index with value 4.
 
constexpr index_constant< 5 > Dune::Indices::_5 = {}
 Compile time index with value 5.
 
constexpr index_constant< 6 > Dune::Indices::_6 = {}
 Compile time index with value 6.
 
constexpr index_constant< 7 > Dune::Indices::_7 = {}
 Compile time index with value 7.
 
constexpr index_constant< 8 > Dune::Indices::_8 = {}
 Compile time index with value 8.
 
constexpr index_constant< 9 > Dune::Indices::_9 = {}
 Compile time index with value 9.
 
constexpr index_constant< 10 > Dune::Indices::_10 = {}
 Compile time index with value 10.
 
constexpr index_constant< 11 > Dune::Indices::_11 = {}
 Compile time index with value 11.
 
constexpr index_constant< 12 > Dune::Indices::_12 = {}
 Compile time index with value 12.
 
constexpr index_constant< 13 > Dune::Indices::_13 = {}
 Compile time index with value 13.
 
constexpr index_constant< 14 > Dune::Indices::_14 = {}
 Compile time index with value 14.
 
constexpr index_constant< 15 > Dune::Indices::_15 = {}
 Compile time index with value 15.
 
constexpr index_constant< 16 > Dune::Indices::_16 = {}
 Compile time index with value 16.
 
constexpr index_constant< 17 > Dune::Indices::_17 = {}
 Compile time index with value 17.
 
constexpr index_constant< 18 > Dune::Indices::_18 = {}
 Compile time index with value 18.
 
constexpr index_constant< 19 > Dune::Indices::_19 = {}
 Compile time index with value 19.
 
static const long Dune::Lcm< m, n >::value = (m/Gcd<m,n>::value)*n
 The least common multiple of the template parameters m and n.
 
Element * Dune::SLList< T, A >::Element::next_
 The next element in the list.
 
MemberType Dune::SLList< T, A >::Element::item_
 The element we hold.
 

Detailed Description

foundation classes

Macro Definition Documentation

◆ DUNE_ASSERT_BOUNDS

#define DUNE_ASSERT_BOUNDS (   cond)
Value:
do { \
if (!(cond)) \
DUNE_THROW(Dune::RangeError, "Index out of bounds."); \
} while (false)
Default exception class for range errors.
Definition: exceptions.hh:252

If DUNE_CHECK_BOUNDS is defined: check if condition cond holds; otherwise, do nothing.

Meant to be used for conditions that assure writes and reads do not occur outside of memory limits or pre-defined patterns and related conditions.

◆ DUNE_DEPRECATED

#define DUNE_DEPRECATED

Mark some entity as deprecated.

Definition of the DUNE_DEPRECATED macro for the case that config.h is not available.

This is a preprocessor define which can be used to mark functions, typedefs, enums and other stuff deprecated. If something is marked deprecated, users are advised to migrate to the new interface, since it will probably be removed in the next release of Dune.

DUNE_DEPRECATED currently works with g++ and clang++. For other compilers it will be defined empty. This way the user will not get any deprecation warning, but at least his code still compiles (well, until the next Dune release, that is).

Here are some examples how to mark different stuff deprecated:

  • Classes
    class DUNE_DEPRECATED Class {}; // 1)
    class Class {} DUNE_DEPRECATED; // 2)
    #define DUNE_DEPRECATED
    Mark some entity as deprecated.
    Definition: deprecated.hh:84
    Both forms do not work properly with g++-4.1: no deprecation warning will be given, although the code still compiles. 1) should be preferred over 2) since 2) does not work with clang++-1.1 (again, no warning given but code still compiles, works with clang++-3.1)
  • Template classes
    template<class T>
    class DUNE_DEPRECATED Class {}; // 1)
    template<class T>
    class Class {} DUNE_DEPRECATED; // 2)
    This works works with g++ >=4.3 only; g++-4.1 and clang++ compile the code without warning in both cases. Furthermore, the warning is only triggered when copying an object of that template class, neither making a typedef nor simply creating such an object emit the warning. It is thus recommended that some essential class member be marked deprecated as well, if possible.
  • Member constants
    template<typename T> struct Class {
    static const int c0 DUNE_DEPRECATED = 0;
    static const int DUNE_DEPRECATED c1 = 1;
    };
    Works with g++-4.1, g++ >=4.3 and clang++3.1. No warning but clean compile with clang++-1.1.
  • Member enumerators
    template<typename T> struct Class {
    enum enumeration { enumerator = 0 };
    };
    No form of deprecation is known that does not trigger an error on most compilers.
  • Member functions
    template<typename T> struct Class {
    void frob() DUNE_DEPRECATED {}
    }; // 1)
    template<typename T> struct Class {
    void DUNE_DEPRECATED frob() {}
    }; // 2)
    template<typename T> struct Class {
    DUNE_DEPRECATED void frob() {}
    }; // 3)
    With g++ only 2) emits a warning for templated member functions.

◆ DUNE_DEPRECATED_MSG

#define DUNE_DEPRECATED_MSG (   text)    DUNE_DEPRECATED

Mark some entity as deprecated.

This is a preprocessor define which can be used to mark functions, typedefs, enums and other stuff deprecated and to also specify a hint what replaces the given functionality. If something is marked deprecated, users are advised to migrate to the new interface, since it will probably be removed in the next release of Dune.

DUNE_DEPRECATED_MSG currently works only for compilers which support the attribute attribute((deprecated("message")). For other compilers it will be defined empty. This way the user will not get any deprecation warning, but at least his code still compiles (well, until the next Dune release, that is).

Here are some examples how to mark different stuff deprecated:

  • Classes
    class DUNE_DEPRECATED_MSG("In the future, please use 'Glass'") Class {}; // 1)
    class Class {} DUNE_DEPRECATED_MSG("In the future, please use 'Glass'"); // 2)
    #define DUNE_DEPRECATED_MSG(text)
    Mark some entity as deprecated.
    Definition: deprecated.hh:169
    For both forms, deprecation warnings and the additional hint "In the future, please use 'Glass'" will be printed on compilers which support it (e.g. G++ >= 4.5.0, clang++ >= 1.1). For compilers which support deprecating but do not take an additional hint (e.g. G++ < 4.5.0), only the deprecation warning is printed, and finally compilers which do not support deprecation of code won't print anything, but the code will still compile. 1) should be preferred over 2) since 2) does not work with clang++-1.1 (again, no warning will be given but code still compiles)
  • Template classes
    template<class T>
    class DUNE_DEPRECATED_MSG("In the future, please use 'Glass'") Class {}; // 1)
    template<class T>
    class Class {} DUNE_DEPRECATED_MSG("In the future, please use 'Glass'"); // 2)
    This works works with g++ >= 4.5, clang++ until at least version 1.1 will compile the code without warning in both cases. Furthermore, the warning is only triggered when copying an object of that template class, neither making a typedef nor simply creating such an object emit the warning. It is thus recommended that some essential class member be marked deprecated as well, if possible.
  • Member constants
    template<typename T> struct Class {
    static const int c0 DUNE_DEPRECATED_MSG("c2 is the new hype") = 0;
    static const int DUNE_DEPRECATED_MSG("c2 is the new hype") c1 = 1;
    };
    Works without printing the hint on g++-4.1, g++-4.3, g++-4.4 and fully on g++ >= 4.5. Works for clang++-3.1. No warning but clean compile with clang++-1.1.
  • Member enumerators
    template<typename T> struct Class {
    enum enumeration { enumerator = 0 };
    };
    No form of deprecation is known that does not trigger an error on most compilers.
  • Member functions
    template<typename T> struct Class {
    void frob() DUNE_DEPRECATED_MSG("use frog") {}
    }; // 1)
    template<typename T> struct Class {
    void DUNE_DEPRECATED_MSG("use frog") frob() {}
    }; // 2)
    template<typename T> struct Class {
    DUNE_DEPRECATED_MSG("use frog") void frob() {}
    }; // 3)
    With g++ only 2) emits a warning for templated member functions.

◆ DUNE_NO_DEPRECATED_BEGIN

#define DUNE_NO_DEPRECATED_BEGIN   ...

Ignore deprecation warnings (start)

This macro can be used together with DUNE_NO_DEPRECATED_END to mark a block in which deprecation warnings are ignored. This can be useful for implementations of deprecated methods that call other deprecated methods or for testing deprecated methods in the testsuite.

some_deprecated_function();
another_deprecated_function();
#define DUNE_NO_DEPRECATED_END
Ignore deprecation warnings (end)
Definition: deprecated.hh:198
#define DUNE_NO_DEPRECATED_BEGIN
Ignore deprecation warnings (start)
Definition: deprecated.hh:192
Warning
This macro must always be used together with DUNE_NO_DEPRECATED_END

◆ DUNE_NO_DEPRECATED_END

#define DUNE_NO_DEPRECATED_END   ...

Ignore deprecation warnings (end)

Warning
This macro must always be used together with DUNE_NO_DEPRECATED_BEGIN

Typedef Documentation

◆ index_constant

template<std::size_t i>
using Dune::index_constant = typedef std::integral_constant<std::size_t, i>

An index constant with value i.

An index constant is a simple type alias for an integral_constant. Its main advantages are clarity (it is easier to see that code uses it as an index) and the fact that the integral type is fixed, reducing verbosity and avoiding the problem of maybe trying to overload / specialize using a different integral type.

Function Documentation

◆ advance() [1/2]

template<class T , int N, class A >
void Dune::ArrayListIterator< T, N, A >::advance ( difference_type  n)
inline
Todo:
Please doc me!

◆ advance() [2/2]

template<class T , int N, class A >
void Dune::ConstArrayListIterator< T, N, A >::advance ( difference_type  n)
inline
Todo:
Please doc me!

◆ begin() [1/4]

template<class T , int N, class A >
ArrayListIterator< T, N, A > Dune::ArrayList< T, N, A >::begin

Get an iterator that is positioned at the first element.

Returns
The iterator.

◆ begin() [2/4]

template<typename T , class A >
SLListIterator< T, A > Dune::SLList< T, A >::begin
inline

Get an iterator pointing to the first element in the list.

Returns
An iterator pointing to the first element or the end if the list is empty.

Referenced by Dune::CollectiveIterator< T, A >::CollectiveIterator(), and Dune::IndicesSyncer< T >::sync().

◆ begin() [3/4]

template<class T , int N, class A >
ConstArrayListIterator< T, N, A > Dune::ArrayList< T, N, A >::begin

Get a random access iterator that is positioned at the first element.

Returns
The iterator.

◆ begin() [4/4]

template<typename T , class A >
SLListConstIterator< T, A > Dune::SLList< T, A >::begin
inline

Get an iterator pointing to the first element in the list.

Returns
An iterator pointing to the first element or the end if the list is empty.

◆ beginModify()

template<typename T , class A >
SLListModifyIterator< T, A > Dune::SLList< T, A >::beginModify
inline

Get an iterator capable of deleting and inserting elements.

Returns
Modifying iterator positioned at the beginning of the list.

Referenced by Dune::IndicesSyncer< T >::Iterators::reset().

◆ contains()

template<typename TA , int i>
bool Dune::EnumItem< TA, i >::contains ( const Type attribute)
inlinestatic

Tests whether an item is in the set.

Returns
True if item==Type.

◆ deleteNext()

template<typename T , class A >
void Dune::SLListIterator< T, A >::deleteNext ( ) const
inline

Delete the entry after the current position.

Warning
This will invalidate all iterators positioned at the delete position! Use with care!

◆ dereference() [1/5]

template<class T , int N, class A >
ArrayListIterator< T, N, A >::reference Dune::ArrayListIterator< T, N, A >::dereference
inline

Access the element at the current position.

Returns
The element at the current position.

References Dune::ArrayListIterator< T, N, A >::elementAt().

◆ dereference() [2/5]

template<class T , int N, class A >
ConstArrayListIterator< T, N, A >::const_reference Dune::ConstArrayListIterator< T, N, A >::dereference
inline

Access the element at the current position.

Returns
The element at the current position.

References Dune::ConstArrayListIterator< T, N, A >::elementAt().

◆ dereference() [3/5]

template<typename T , class A >
T& Dune::SLListIterator< T, A >::dereference ( ) const
inline

Dereferencing function for the iterator facade.

Returns
A reference to the element at the current position.

◆ dereference() [4/5]

template<class T , class A >
const T& Dune::SLListConstIterator< T, A >::dereference ( ) const
inline

Dereferencing function for the facade.

Returns
A reference to the element at the current position.

◆ dereference() [5/5]

template<typename T , class A >
T& Dune::SLListModifyIterator< T, A >::dereference ( ) const
inline

Dereferencing function for the iterator facade.

Returns
A reference to the element at the current position.

◆ distanceTo() [1/2]

template<class T , int N, class A >
ArrayListIterator< T, N, A >::difference_type Dune::ArrayListIterator< T, N, A >::distanceTo ( const ArrayListIterator< T, N, A > &  other) const
inline
Todo:
Please doc me!

◆ distanceTo() [2/2]

template<class T , int N, class A >
ConstArrayListIterator< T, N, A >::difference_type Dune::ConstArrayListIterator< T, N, A >::distanceTo ( const ConstArrayListIterator< T, N, A > &  other) const
inline
Todo:
Please doc me!

◆ dot()

template<class A , class B >
auto Dune::dot ( const A &  a,
const B &  b 
) -> typename std::enable_if<!IsVector<A>::value && !std::is_same<typename FieldTraits<A>::field_type,typename FieldTraits<A>::real_type> ::value, decltype(conj(a)*b)>::type

computes the dot product for fundamental data types according to Petsc's VectDot function: dot(a,b) := std::conj(a)*b

computes the dot product for various dune vector types according to Petsc's VectDot function: dot(a,b) := std::conj(a)*b

See also
http://www.mcs.anl.gov/petsc/petsc-current/docs/manualpages/Vec/VecDot.html#VecDot
Parameters
a
b
Returns
conj(a)*b

Specialization for real first arguments which replaces conj(a) by a.

See also
http://www.mcs.anl.gov/petsc/petsc-current/docs/manualpages/Vec/VecTDot.html#VecTDot
Parameters
a
b
Returns
a*b (which is the same as conj(a)*b in this case)

Specialization for real first arguments which replaces conj(a) by a.

See also
http://www.mcs.anl.gov/petsc/petsc-current/docs/manualpages/Vec/VecTDot.html#VecTDot
Parameters
a
b
Returns
dot(a,b)

Referenced by Dune::DenseVector< V >::dot(), Dune::ParameterTree::hasKey(), Dune::ParameterTree::hasSub(), Dune::ParameterTree::operator[](), and Dune::ParameterTree::sub().

◆ DUNE_DEPRECATED_MSG() [1/5]

template<typename T >
struct Dune::DUNE_DEPRECATED_MSG ( "Use <type_traits> instead!"  )

Determines whether a type is const or volatile and provides the unqualified types.

True if T has a volatile specifier.

True if T has a const qualifier.

The unqualified type.

The const type.

The const volatile type.

◆ DUNE_DEPRECATED_MSG() [2/5]

template<class Base , class Derived >
struct Dune::DUNE_DEPRECATED_MSG ( "Use std::is_base_of instead!"  )

Checks whether a type is derived from another.

Template Parameters
Basethe potential base class you want to test for
Derivedtype you want to test

True if Base is a base class of Derived.

◆ DUNE_DEPRECATED_MSG() [3/5]

template<typename T >
struct Dune::DUNE_DEPRECATED_MSG ( "Use std::is_const instead!"  )

Tests whether a type is constant.

True if The type is constant.

◆ DUNE_DEPRECATED_MSG() [4/5]

template<class From , class To >
struct Dune::DUNE_DEPRECATED_MSG ( "Use std::is_convertible/std::is_same instead!"  )

Checks whether a type is convertible to another.

Template Parameters
Fromtype you want to convert
Totype you want to obtain

True if the conversion exists.

Whether the conversion exists in both ways.

True if To and From are the same type.

◆ DUNE_DEPRECATED_MSG() [5/5]

template<typename T >
struct Dune::DUNE_DEPRECATED_MSG ( "Use std::is_volatile instead!"  )

Tests whether a type is volatile.

True if The type is volatile.

◆ elementAt() [1/2]

template<class T , int N, class A >
ArrayListIterator< T, N, A >::reference Dune::ArrayListIterator< T, N, A >::elementAt ( size_type  i) const
inline

Get the value of the list at an arbitrary position.

Returns
The value at that position.

Referenced by Dune::ArrayListIterator< T, N, A >::dereference().

◆ elementAt() [2/2]

template<class T , int N, class A >
ConstArrayListIterator< T, N, A >::const_reference Dune::ConstArrayListIterator< T, N, A >::elementAt ( size_type  i) const
inline

Get the value of the list at an arbitrary position.

Returns
The value at that position.

Referenced by Dune::ConstArrayListIterator< T, N, A >::dereference().

◆ empty()

template<typename T , class A >
bool Dune::SLList< T, A >::empty
inline

Check whether the list is empty.

Returns
True if the list is empty;

◆ end() [1/2]

template<typename T , class A >
SLListIterator< T, A > Dune::SLList< T, A >::end
inline

Get an iterator pointing to the end of the list.

Returns
An iterator pointing to the end.

Referenced by Dune::CollectiveIterator< T, A >::CollectiveIterator(), and Dune::IndicesSyncer< T >::sync().

◆ end() [2/2]

template<typename T , class A >
SLListConstIterator< T, A > Dune::SLList< T, A >::end
inline

Get an iterator pointing to the end of the list.

Returns
An iterator pointing to the end.

◆ endModify()

template<typename T , class A >
SLListModifyIterator< T, A > Dune::SLList< T, A >::endModify
inline

Get an iterator capable of deleting and inserting elements.

Returns
Modifying iterator positioned after the end of the list.

◆ equals() [1/10]

template<class T , int N, class A >
bool Dune::ArrayListIterator< T, N, A >::equals ( const ArrayListIterator< MemberType, N, A > &  other) const
inline

Comares two iterators.

Returns
True if the iterators are for the same list and at the position.

◆ equals() [2/10]

template<class T , int N, class A >
bool Dune::ArrayListIterator< T, N, A >::equals ( const ConstArrayListIterator< MemberType, N, A > &  other) const
inline

Comares two iterators.

Returns
True if the iterators are for the same list and at the position.

◆ equals() [3/10]

template<class T , int N, class A >
bool Dune::ConstArrayListIterator< T, N, A >::equals ( const ConstArrayListIterator< MemberType, N, A > &  other) const
inline

Comares to iterators.

Returns
true if the iterators are for the same list and at the position.

◆ equals() [4/10]

template<typename T , class A >
bool Dune::SLListIterator< T, A >::equals ( const SLListConstIterator< T, A > &  other) const
inline

Equality test for the iterator facade.

Parameters
otherThe other iterator to check.
Returns
true If the other iterator is at the same position.

◆ equals() [5/10]

template<class T , class A >
bool Dune::SLListConstIterator< T, A >::equals ( const SLListConstIterator< T, A > &  other) const
inline

Equality test for the iterator facade.

Parameters
otherThe other iterator to check.
Returns
true If the other iterator is at the same position.

◆ equals() [6/10]

template<typename T , class A >
bool Dune::SLListModifyIterator< T, A >::equals ( const SLListConstIterator< T, A > &  other) const
inline

Test whether another iterator is equal.

Returns
true if the other iterator is at the same position as this one.

◆ equals() [7/10]

template<typename T , class A >
bool Dune::SLListIterator< T, A >::equals ( const SLListIterator< T, A > &  other) const
inline

Equality test for the iterator facade.

Parameters
otherThe other iterator to check.
Returns
true If the other iterator is at the same position.

◆ equals() [8/10]

template<typename T , class A >
bool Dune::SLListModifyIterator< T, A >::equals ( const SLListIterator< T, A > &  other) const
inline

Test whether another iterator is equal.

Returns
true if the other iterator is at the same position as this one.

◆ equals() [9/10]

template<typename T , class A >
bool Dune::SLListIterator< T, A >::equals ( const SLListModifyIterator< T, A > &  other) const
inline

Equality test for the iterator facade.

Parameters
otherThe other iterator to check.
Returns
true If the other iterator is at the same position.

◆ equals() [10/10]

template<typename T , class A >
bool Dune::SLListModifyIterator< T, A >::equals ( const SLListModifyIterator< T, A > &  other) const
inline

Test whether another iterator is equal.

Returns
true if the other iterator is at the same position as this one.

◆ eraseToHere()

template<class T , int N, class A >
void Dune::ArrayListIterator< T, N, A >::eraseToHere
inline

Erase all entries before the current position and the one at the current position.

Afterwards the iterator will be positioned at the next unerased entry or the end if the list is empty. This does not invalidate any iterators positioned after the current position but those positioned at previous ones.

Returns
An iterator to the first position after the deleted ones or to the end if the list is empty.

◆ fill_array()

template<typename T , std::size_t n>
std::array<T,n> Dune::fill_array ( const T &  t)

Create an array and fill it with copies of the provided value.

Note
This method is Dune-specific and not part of any C++ standard.

◆ Indent() [1/2]

Dune::Indent::Indent ( const Indent parent_,
const std::string &  basic_indent_ = "  ",
unsigned  level_ = 1 
)
inline

setup with parent

Note
Initial indentation level is 1 by default for this constructor.

◆ Indent() [2/2]

Dune::Indent::Indent ( const std::string &  basic_indent_ = "  ",
unsigned  level_ = 0 
)
inline

setup without parent

Note
Initial indentation level is 0 by default for this constructor.

Referenced by Dune::Indent::operator+().

◆ insert()

template<typename T , class A >
void Dune::SLListModifyIterator< T, A >::insert ( const T &  v)
inline

Insert an element at the current position.

Starting from the element at the current position all elements will be shifted by one position to the back. The iterator will point to the same element as before after the insertion, i.e the number of increments to reach the same position from a begin iterator increases by one. This means the inserted element is the one before the one the iterator points to.

Parameters
vThe value to insert.

◆ insertAfter()

template<typename T , class A >
void Dune::SLListIterator< T, A >::insertAfter ( const T &  v) const
inline

Insert an element in the underlying list after the current position.

Parameters
vThe value to insert.

◆ ios_base_all_saver()

Dune::ios_base_all_saver::ios_base_all_saver ( state_type ios_)

Constructor that stores the currently used flags.

Parameters
ios_The ios_base object whose flags are to be saved and restored. Any stream object should work here.
Note
A reference to the ios_base object is store in this object. Thus the ios_base object must remain valid until the destructor of this object has been called.

◆ operator=()

template<class T , int N, class A >
ArrayListIterator< T, N, A > & Dune::ArrayListIterator< T, N, A >::operator= ( const ArrayListIterator< T, N, A > &  other)
inline
Todo:
Please doc me!

◆ operator[]() [1/2]

template<class T , int N, class A >
ArrayList< T, N, A >::reference Dune::ArrayList< T, N, A >::operator[] ( size_type  i)
inline

Get the element at specific position.

Parameters
iThe index of the position.
Returns
The element at that position.

References Dune::Hybrid::elementAt().

◆ operator[]() [2/2]

template<class T , int N, class A >
ArrayList< T, N, A >::const_reference Dune::ArrayList< T, N, A >::operator[] ( size_type  i) const
inline

Get the element at specific position.

Parameters
iThe index of the position.
Returns
The element at that position.

References Dune::Hybrid::elementAt().

◆ purge()

template<class T , int N, class A >
void Dune::ArrayList< T, N, A >::purge
inline

Purge the list.

If there are empty chunks at the front all nonempty chunks will be moved towards the front and the capacity increases.

◆ push_back() [1/2]

template<typename T , class A >
void Dune::SLList< T, A >::push_back ( const MemberType item)
inline

Add a new entry to the end of the list.

Parameters
itemThe item to add.

Referenced by Dune::IndicesSyncer< T >::sync().

◆ push_back() [2/2]

template<class T , int N, class A >
void Dune::ArrayList< T, N, A >::push_back ( const_reference  entry)
inline

Append an entry to the list.

Parameters
entryThe new entry.

◆ push_front()

template<typename T , class A >
void Dune::SLList< T, A >::push_front ( const MemberType item)
inline

Add a new entry to the beginning of the list.

Parameters
itemThe item to add.

◆ remove()

template<typename T , class A >
void Dune::SLListModifyIterator< T, A >::remove ( )
inline

Delete the entry at the current position.

The iterator will be positioned at the next position after the deletion

Warning
This will invalidate all iterators positioned at the delete position! Use with care!

◆ restore()

void Dune::ios_base_all_saver::restore ( )

Restore flags now.

The flags will also be restored at destruction time even if this method was used.

Referenced by Dune::ios_base_all_saver::~ios_base_all_saver().

◆ size()

template<class T , int N, class A >
size_t Dune::ArrayList< T, N, A >::size
inline

Get the number of elements in the list.

Returns
The number of elements.

◆ ~SLList()

template<typename T , class A >
Dune::SLList< T, A >::~SLList

Destructor.

Deallocates all elements in the list.

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