dune-istl 3.0-git
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#include <dune/istl/bvector.hh>
Public Types | |
enum | { blocklevel = B::blocklevel+1 } |
increment block level counter More... | |
typedef B::field_type | field_type |
export the type representing the field | |
typedef B | block_type |
export the type representing the components | |
typedef A | allocator_type |
export the allocator type | |
typedef A::size_type | size_type |
The type for the index access. | |
typedef block_vector_unmanaged< B, A >::Iterator | Iterator |
make iterators available as types | |
typedef block_vector_unmanaged< B, A >::ConstIterator | ConstIterator |
make iterators available as types | |
typedef B | value_type |
for STL compatibility | |
typedef B & | reference |
Type used for references. | |
typedef const B & | const_reference |
Type used for const references. | |
typedef B | member_type |
export the type representing the components | |
typedef RealIterator< B > | iterator |
iterator type for sequential access | |
typedef RealIterator< const B > | const_iterator |
iterator class for sequential access | |
Public Member Functions | |
BlockVectorWindow () | |
makes empty array | |
BlockVectorWindow (B *_p, size_type _n) | |
make array from given pointer and size | |
BlockVectorWindow (const BlockVectorWindow &a) | |
copy constructor, this has reference semantics! | |
BlockVectorWindow (const block_vector_unmanaged< B, A > &_a) | |
construct from base class object with reference semantics! | |
BlockVectorWindow & | operator= (const BlockVectorWindow &a) |
assignment | |
BlockVectorWindow & | operator= (const block_vector_unmanaged< B, A > &a) |
assign from base class object | |
BlockVectorWindow & | operator= (const field_type &k) |
assign from scalar | |
void | set (size_type _n, B *_p) |
set size and pointer | |
void | setsize (size_type _n) |
set size only | |
void | setptr (B *_p) |
set pointer only | |
B * | getptr () |
get pointer | |
size_type | getsize () |
get size | |
block_vector_unmanaged & | operator+= (const block_vector_unmanaged &y) |
vector space addition | |
block_vector_unmanaged & | operator-= (const block_vector_unmanaged &y) |
vector space subtraction | |
block_vector_unmanaged & | operator*= (const field_type &k) |
vector space multiplication with scalar | |
block_vector_unmanaged & | operator/= (const field_type &k) |
vector space division by scalar | |
block_vector_unmanaged & | axpy (const field_type &a, const block_vector_unmanaged &y) |
vector space axpy operation | |
template<class OtherB , class OtherA > | |
PromotionTraits< field_type, typenameOtherB::field_type >::PromotedType | operator* (const block_vector_unmanaged< OtherB, OtherA > &y) const |
indefinite vector dot product ![]() | |
template<class OtherB , class OtherA > | |
PromotionTraits< field_type, typenameOtherB::field_type >::PromotedType | dot (const block_vector_unmanaged< OtherB, OtherA > &y) const |
vector dot product ![]() | |
FieldTraits< field_type >::real_type | one_norm () const |
one norm (sum over absolute values of entries) | |
FieldTraits< field_type >::real_type | one_norm_real () const |
simplified one norm (uses Manhattan norm for complex values) | |
FieldTraits< field_type >::real_type | two_norm () const |
two norm sqrt(sum over squared values of entries) | |
FieldTraits< field_type >::real_type | two_norm2 () const |
Square of the two-norm (the sum over the squared values of the entries) | |
template<typename ft = field_type, typename std::enable_if<!has_nan< ft >::value, int >::type = 0> | |
FieldTraits< ft >::real_type | infinity_norm () const |
infinity norm (maximum of absolute values of entries) | |
template<typename ft = field_type, typename std::enable_if< has_nan< ft >::value, int >::type = 0> | |
FieldTraits< ft >::real_type | infinity_norm () const |
infinity norm (maximum of absolute values of entries) | |
template<typename ft = field_type, typename std::enable_if<!has_nan< ft >::value, int >::type = 0> | |
FieldTraits< ft >::real_type | infinity_norm_real () const |
simplified infinity norm (uses Manhattan norm for complex values) | |
template<typename ft = field_type, typename std::enable_if< has_nan< ft >::value, int >::type = 0> | |
FieldTraits< ft >::real_type | infinity_norm_real () const |
simplified infinity norm (uses Manhattan norm for complex values) | |
size_type | N () const |
number of blocks in the vector (are of size 1 here) | |
size_type | dim () const |
dimension of the vector space | |
B & | operator[] (size_type i) |
random access to blocks | |
const B & | operator[] (size_type i) const |
same for read only access | |
iterator | begin () |
begin iterator | |
const_iterator | begin () const |
begin const_iterator | |
iterator | end () |
end iterator | |
const_iterator | end () const |
end const_iterator | |
iterator | beforeEnd () |
const_iterator | beforeEnd () const |
iterator | beforeBegin () |
const_iterator | beforeBegin () const |
iterator | find (size_type i) |
random access returning iterator (end if not contained) | |
const_iterator | find (size_type i) const |
random access returning iterator (end if not contained) | |
size_type | size () const |
number of blocks in the array (are of size 1 here) | |
Protected Attributes | |
size_type | n |
B * | p |
BlockVectorWindow adds window manipulation functions to the block_vector_unmanaged template.
This class has no memory management. It assumes that the storage for the entries of the vector is maintained outside of this class.
But you can copy objects of this class and of the base class with reference semantics.
Assignment copies the data, if the format is incompatible with
the argument an exception is thrown in debug mode.
Error checking: no error checking is provided normally. Setting the compile time switch DUNE_ISTL_WITH_CHECKING enables error checking.
typedef A Dune::BlockVectorWindow< B, A >::allocator_type |
export the allocator type
typedef B Dune::BlockVectorWindow< B, A >::block_type |
export the type representing the components
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inherited |
iterator class for sequential access
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inherited |
Type used for const references.
typedef block_vector_unmanaged<B,A>::ConstIterator Dune::BlockVectorWindow< B, A >::ConstIterator |
make iterators available as types
typedef B::field_type Dune::BlockVectorWindow< B, A >::field_type |
export the type representing the field
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inherited |
iterator type for sequential access
typedef block_vector_unmanaged<B,A>::Iterator Dune::BlockVectorWindow< B, A >::Iterator |
make iterators available as types
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inherited |
export the type representing the components
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inherited |
Type used for references.
typedef A::size_type Dune::BlockVectorWindow< B, A >::size_type |
The type for the index access.
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inherited |
for STL compatibility
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inline |
makes empty array
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inline |
make array from given pointer and size
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inline |
copy constructor, this has reference semantics!
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inline |
construct from base class object with reference semantics!
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inlineinherited |
vector space axpy operation
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inlineinherited |
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inlineinherited |
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inlineinherited |
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inlineinherited |
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inlineinherited |
begin iterator
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inlineinherited |
begin const_iterator
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inlineinherited |
dimension of the vector space
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inlineinherited |
vector dot product
http://www.mcs.anl.gov/petsc/petsc-current/docs/manualpages/Vec/VecDot.html
y | other (compatible) vector |
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inlineinherited |
end iterator
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inlineinherited |
end const_iterator
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inlineinherited |
random access returning iterator (end if not contained)
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inlineinherited |
random access returning iterator (end if not contained)
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inline |
get pointer
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inline |
get size
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inlineinherited |
infinity norm (maximum of absolute values of entries)
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inlineinherited |
infinity norm (maximum of absolute values of entries)
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inlineinherited |
simplified infinity norm (uses Manhattan norm for complex values)
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inlineinherited |
simplified infinity norm (uses Manhattan norm for complex values)
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inlineinherited |
number of blocks in the vector (are of size 1 here)
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inlineinherited |
one norm (sum over absolute values of entries)
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inlineinherited |
simplified one norm (uses Manhattan norm for complex values)
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inlineinherited |
indefinite vector dot product
http://www.mcs.anl.gov/petsc/petsc-current/docs/manualpages/Vec/VecTDot.html
y | other (compatible) vector |
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inlineinherited |
vector space multiplication with scalar
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inlineinherited |
vector space addition
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inlineinherited |
vector space subtraction
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inlineinherited |
vector space division by scalar
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inline |
assign from base class object
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inline |
assignment
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inline |
assign from scalar
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inlineinherited |
random access to blocks
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inlineinherited |
same for read only access
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inline |
set size and pointer
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inline |
set pointer only
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inline |
set size only
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inlineinherited |
number of blocks in the array (are of size 1 here)
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inlineinherited |
two norm sqrt(sum over squared values of entries)
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inlineinherited |
Square of the two-norm (the sum over the squared values of the entries)
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protectedinherited |
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protectedinherited |