Namespace hdf5::dataspace
¶
Dataspace related classes and functions¶
Dataspace
¶
-
class hdf5::dataspace::Dataspace¶
dataspace base class
Subclassed by hdf5::dataspace::Scalar, hdf5::dataspace::Simple
Public Functions
-
virtual ~Dataspace()¶
destructor
Has to be virtual due to inheritance
-
Dataspace()¶
default constructor
The default constructor will leave the dataspace as an invalid HDF5 object. Default construction is however necessary for using a Dataspace with certain C++ STL containers.
See also
-
Dataspace(ObjectHandle &&handle)¶
constructor
Constructs a dataspace object from an rvalue reference to an HDF5 handle. The class will take full ownership of the handle.
- Parameters
handle – rvalue reference to the handle
-
virtual hssize_t size() const¶
number of elements in the dataspace
- Throws
std::runtime_error – in case of a failure
-
inline explicit operator hid_t() const¶
allows explicit conversion to hid_t
This function is mainly used by
static_cast
for explicit conversion tohid_t
.Dataspace space(); hid_t id = static_cast<hid_t>(space);
-
bool is_valid() const¶
check validity of the dataspace
Returns true if the dataspace is a valid HDF5 object. This member function should return true in most cases. However, in cases that the dataspace was
default constructed
or the close() method was called before
See also
- Throws
std::runtime_error – in case of a failure
- Returns
true if valid, false if invalid
Public Members
-
SelectionManager selection¶
access to selection manager
This public member provides access to the selection manager of the dataspace. See the SelectionManager documentation for interface details.
See also
-
virtual ~Dataspace()¶
Scalar
¶
Simple
¶
-
class hdf5::dataspace::Simple : public hdf5::dataspace::Dataspace¶
simple multidimensional dataspace
Public Functions
-
Simple()¶
default constructor
-
Simple(const Dataspace &space)¶
constructor
Construct a simple dataspace from a reference to its base instance. If space does not refer to a simple dataspace an exception will be thrown.
- Throws
std::runtime_error – in case of a failure
- Parameters
space – reference to a dataspace instance
-
Simple(const Dimensions ¤t, const Dimensions &maximum = hdf5::Dimensions())¶
constructor
If the maximum dimensions is not provided it will be set to the current number of elements along each dimension.
See also
- Throws
std::runtime_error – in case of a failure
- Parameters
current – current number of elements along each dimension
maximum – maximum number of elements along each dimension
-
size_t rank() const¶
get number of dimensions
- Throws
std::runtime_error – in case of a failure
-
void dimensions(const Dimensions ¤t, const Dimensions &maximum = Dimensions())¶
set number of elements along each dimension
- Throws
std::runtime_error – in case of a failure
-
Dimensions current_dimensions() const¶
get current dimensions
- Throws
std::runtime_error – in case of a failure
-
Dimensions maximum_dimensions() const¶
get maximum dimensions
- Throws
std::runtime_error – in case of a failure
Public Static Attributes
-
static const hsize_t unlimited¶
dimension value for unlimited number of elements
-
Simple()¶
Selection related classes and functions¶
Selection
and SelectionList
¶
-
class hdf5::dataspace::Selection¶
selection base class
Subclassed by hdf5::dataspace::Hyperslab, hdf5::dataspace::Points
Public Types
Public Functions
-
Selection() = default¶
default constructor
Use the compiler provided default implementation.
-
Selection(const Selection&) = default¶
copy constructor
Use the compiler provided default implementation.
-
virtual ~Selection()¶
destructor
The destructor has to be virtual to inherit from this class.
-
virtual void apply(const Dataspace &space, SelectionOperation ops) const = 0¶
apply a selection onto a dataspace
The current selection will be applied to dataspace
space
using the operator determined byops
.- Throws
std::runtime_error – in case of a failure
- Parameters
space – reference to the dataspace onto which to apply the selection
ops – operator for the selection
-
virtual Dimensions dimensions() const = 0¶
get current dimensions
Get a number of elements along each dimension a selection spans this is particularly useful in the case of a Hyperslab
- Throws
std::runtime_error – in case of a failure
- Returns
the selection dimentsions
-
virtual size_t size() const = 0¶
get the selection size
Get the total number of elements adressed by an individual selection
- Throws
std::runtime_error – in case of a failure
- Returns
the selection type enumerator
-
virtual SelectionType type() const = 0¶
get the selection type
Get the type of the selection
- Returns
the selection type enumerator
-
Selection() = default¶
-
using hdf5::dataspace::SelectionList = std::list<OperationWithSelection>¶
-
Dataspace hdf5::dataspace::operator||(const Dataspace &space, const SelectionList &selections)¶
Hyperslab
¶
-
class hdf5::dataspace::Hyperslab : public hdf5::dataspace::Selection¶
hyperslab selection class
Hyperslabs represent complex multidimensional selections within an HDF5 dataset. The number of dimensions for every hyperslab is determined during construction and cannot be altered once it has been fixed.
Todo:
we may have to add a function to check if all the Dimension instances have the same size. However, this might be an expensive procedure and we should take performance considerations into account here.
Public Functions
-
Hyperslab()¶
default constructor
The default constructor is present to allow Hyperslabs in STL containers. It must be noted that any attempt to change an internal value will result in a std::runtime_error exception. The rank of a default constructed Hyperslab would be 0. As a Hyperslab of rank 0 would not make any sense one could use this to identify a default constructed Hyperslab.
- Post
all internal buffers remain unallocated
-
~Hyperslab() override¶
destructor
-
Hyperslab(const Hyperslab&) = default¶
copy constructor
Use compiler generated default implementation here
-
Hyperslab(size_t rank)¶
constructor
Construct a Hyperslab selection of a given rank.
- Parameters
rank – the number of dimensions
- Post
all start values are set to 0
- Post
all stride values are set to 1
- Post
all count values are set to 0
- Post
all block values are set to 0
-
Hyperslab(const Dimensions &offset, const Dimensions &block, const Dimensions &count, const Dimensions &stride)¶
constructor
This constructor exposes the full capabilities of a hyperslab. All parameters can be adjusted.
- Parameters
offset – the offset from which to start the selection
block – the size of a single block in the selection
count – the number of blocks along each dimensions
stride – the stride along each dimension between the blocks
-
Hyperslab(const Dimensions &offset, const Dimensions &block)¶
constructor
Construct a hyperslab which constists of a single block starting at a particular offset.
- Parameters
offset – the start offset of the block
block – the size of the single block
-
Hyperslab(const Dimensions &offset, const Dimensions &count, const Dimensions &stride)¶
constructor
Construct a hyperslab which consists of
count
blocks of size 1 along each dimension separated bystride
elements.- Parameters
offset – starting offset of the selection
count – number of blocks along each dimensions
stride – the stride between the blocks along each dimension
-
size_t rank() const noexcept¶
get rank
- Returns
number of dimensions in the selection
-
void offset(size_t index, size_t value)¶
set start value for a dimension
Set the start value of the hyperslab for a particular dimension determined by
index
tovalue
. This method throws an exception if the dimensionindex
exceeds the rank of the hyperslab.- Throws
std::runtime_error – in case of a failure
- Parameters
index – dimension index
value – new start value
-
void offset(const Dimensions &values)¶
set all start values
Set the start values for all dimensions of the hyperslab. If the size of
values
exceeds the rank of the hyperslab an exception will be thrown.- Throws
std::runtime_error – in case of a failure
- Parameters
values – new start values for the hyperslab
-
const Dimensions &offset() const¶
get start values
- Throws
std::runtime_error – if the Hyperslab is default constructed
- Returns
const reference to the start values of the hyperslab
-
void stride(size_t index, size_t value)¶
set stride value for an individual dimension
- Throws
std::runtime_error – in case of a failure
- Parameters
index – dimension index for which to set the stride
value – new stride value
-
void stride(const Dimensions &values)¶
set all stride values for the Hyperslab
- Throws
std::runtime_error – in case of a failure
- Parameters
values – new stride values for the Hyperslab
-
const Dimensions &stride() const¶
get stride values for the Hyperslab
- Throws
std::runtime_error – in case of a failure
- Returns
const reference to the stride values
-
void count(size_t index, size_t value)¶
set count value for a particular dimension
- Throws
std::runtime_error – in case of a failure
- Parameters
index – dimension index
value – new count value for this dimension
-
void count(const Dimensions &values)¶
set all count values
- Throws
std::runtime_error – in case of a failure
- Parameters
values – reference to the new count values
-
const Dimensions &count() const¶
get count values
Return a const reference to the count values of the Hypeslab. The values cannot be changed via this reference.
- Throws
std::runtime_error – in case of a failure
- Returns
reference to count values
-
void block(size_t index, size_t value)¶
set block size for dimension
- Throws
std::runtime_error – in case of a failure
- Parameters
index – dimension index
value – the new block size for this dimension
-
void block(const Dimensions &values)¶
set all block values
Set all block values for the hyperslab selection.
- Throws
std::runtime_error – in case of a failure
- Parameters
values – reference to the new block values
-
const Dimensions &block() const¶
get block values
Get a const reference to the block values of the hyperslab.
- Throws
std::runtime_error – in case of a failure
- Returns
const reference to the block values
-
virtual void apply(const Dataspace &space, SelectionOperation ops) const override¶
apply a selection onto a dataspace
The current selection will be applied to dataspace
space
using the operator determined byops
.- Throws
std::runtime_error – in case of a failure
- Parameters
space – reference to the dataspace onto which to apply the selection
ops – operator for the selection
-
virtual Dimensions dimensions() const override¶
get current dimensions
Get a number of elements along each dimension a selection spans this is particularly useful in the case of a Hyperslab
- Throws
std::runtime_error – in case of a failure
- Returns
the selection dimentsions
-
virtual size_t size() const override¶
get the selection size
Get the total number of elements adressed by an individual selection
- Throws
std::runtime_error – in case of a failure
- Returns
the selection type enumerator
-
virtual SelectionType type() const override¶
get the selection type
Get the type of the selection
- Returns
the selection type enumerator
Points
¶
-
class hdf5::dataspace::Points : public hdf5::dataspace::Selection¶
point selection implementation
Public Functions
-
Points() = default¶
default constructor
We use the compiler provided default implementation.
-
~Points() override = default¶
destructor
Use the compiler provided default implementation.
-
explicit Points(size_t rank)¶
constructor
Create a new point selection or a given rank
- Parameters
rank – the number of dimensions of the selection
-
explicit Points(const std::vector<std::vector<hsize_t>> &coord_set)¶
constructor
Create a point selection from a set of selection coordinates. The number of dimensions of the first coordinates determines the rank of the selection.
- Parameters
coord_set – set of selection coordinates
-
size_t rank() const¶
get the number of dimensions
- Returns
number of dimensions of the selection.
-
size_t points() const¶
get the number of points in the selection
- Returns
number of points as unsigned integer
-
void add(const std::vector<hsize_t> &coords)¶
add a new point to the selection
- Parameters
coords – index coordinates of the point
- Throws
runtime_error – in the case of a failure
-
void add_set(const std::vector<std::vector<hsize_t>> &coord_set)¶
add point set to the selection
- Parameters
coord_set – coordinate set
- Throws
runtime_error – in the case of a failure
-
virtual void apply(const Dataspace &space, SelectionOperation ops) const override¶
apply the selection to a dataspace
- Parameters
space – reference to the dataspace onto which the selection should be applied
ops – opertion used to apply the selection
-
virtual size_t size() const override¶
get the selection size
Get the total number of elements adressed by an individual selection
- Throws
std::runtime_error – in case of a failure
- Returns
the selection type enumerator
-
virtual SelectionType type() const override¶
get the selection type
Get the type of the selection
- Returns
the selection type enumerator
-
Points() = default¶
SelectionManager
¶
-
class hdf5::dataspace::SelectionManager¶
interface for selection management
The
SelectionManager
provides an interface to access the selections made on aDataspace
. It stores a reference to the dataspace it belongs to and applies or removes selections on this dataspace.Public Functions
-
SelectionManager() = delete¶
not default constructible
-
SelectionManager(Dataspace &space)¶
constructor
- Parameters
space – reference to the dataspace the manager instance belongs to
-
SelectionManager(const SelectionManager&) = default¶
copy constructor
Use the default implementation here
-
void operator()(SelectionOperation ops, const Selection &selection) const¶
apply a selection
- Throws
std::runtime_error – in case of a failure
- Parameters
ops – selection operator
selection – reference to the selection to apply
-
size_t size() const¶
return the number of elements in the current selection
This value may differ from the number of elements stored in a dataspace.
- Throws
std::runtime_error – in case of a failure
-
SelectionType type() const¶
get the type of the current selection
-
void all() const¶
select everything
-
void none() const¶
select nothing
-
SelectionManager() = delete¶
View
¶
-
class hdf5::dataspace::View¶
guard object for selections
The View class applies selections on a dataspace. Since a copy of the original dataspace is created the former one remains unchanged.
Public Functions
-
View() = default¶
default constructor
Need this for STL container compatibility. Can rely on default implementation provided by the compiler.
-
View(const View&) = default¶
copy constructor
Need this for STL container compatibility. Use the default implementation provided by the compiler.
-
explicit View(const Dataspace &space)¶
constructor
This constructor applies now selection but selects all elements in the dataspace.
- Throws
std::runtime_error – in the case of a failure
- Parameters
space – reference to the original dataspace
-
View(const Dataspace &space, const SelectionList &selections)¶
constructor
Creates a copy of the dataspace and applies all selections provieed by th selection list to this copy.
- Throws
std::runtime_error – in case of a failure
- Parameters
space – reference to the original dataspace
selections – reference to the list of selections to apply
-
View(const Dataspace &space, const Hyperslab &selection)¶
constructor
Creates a copy of the dataspace and applies a single hyperslab on it. This is a conveniance constructor in the case that we need only a single hyperslab.
- Throws
std::runtime_error – in case of a failure
- Parameters
space – reference to the original dataspace
selection – reference to the original hyperslab
-
void operator()(const SelectionList &selections) const¶
apply a new set of selections
Calling this operator will erase all current selections and replace them by the new set of selections provided by the
selections
argument.- Throws
std::runtime_error –
-
void operator()(const Hyperslab &slab) const¶
set a single hyperslab
This is a mere convienance function for situations where a single Hyperslab should be selected. This even might be the most common case at all.
- Throws
std::runtime_error – in case of a failure
- Parameters
slab – reference to the hyperslab
-
size_t size() const¶
get number of elements in the view
-
View() = default¶
DataspaceHolder
¶
-
class hdf5::dataspace::DataspaceHolder¶
data space object holder
Public Functions
-
inline DataspaceHolder()¶
default constructor
The default constructor. The dataspace pool is created internally
-
inline DataspaceHolder(DataspacePool &pool)¶
constructor
- Parameters
pool – dataspace pool
-
template<typename T>
const Dataspace &get(const T &v)¶ factory holder method for getting reference of data spaces
Returns data space reference for static data space object if available. Otherwise it creates a new data space object and returns its reference.
- Parameters
v – provided dataspace data
- Returns
data space reference for data space object
-
inline DataspaceHolder()¶
DataspacePool
¶
-
class hdf5::dataspace::DataspacePool¶
data space object pool
Public Functions
-
const Simple &getSimple(size_t size)¶
reference of Simple data spaces
Returns data space reference for static data space object
-
const Simple &getSimple(const Dimensions ¤t, const Dimensions &maximum = Dimensions())¶
reference of Simple data spaces
Returns data space reference for static data space object
- Throws
std::runtime_error – in case of a failure
- Parameters
current – current number of elements along each dimension
maximum – maximum number of elements along each dimension
- Returns
data space reference for data space object
-
const Simple &getSimple(size_t size)¶
Type traits¶
TypeTrait
¶
-
template<typename T>
class TypeTrait¶ type trait for dataspace construction
This trait provides a static function creating a new dataspace for a particular instance of T. To integrate new types just add a specialization of this trait.
- Template Parameters
T – type for which to construct a dataspace
Enumerations¶
Type
¶
-
enum class hdf5::dataspace::Type : std::underlying_type<H5S_class_t>::type¶
determine the datatype instance
This enumeration type is primarily used to identify the particular type of dataspace when given only a reference to dataspace::Dataspace.
Values:
-
enumerator Scalar¶
the dataspace is an instance of dataspace::Scalar
-
enumerator Simple¶
the dataspace is an instance of dataspace::Simple
-
enumerator NoData¶
the dataspace is an instance of dataspace::Null
Warning
dataspace::Null is currently not implemented
-
enumerator Scalar¶
SelectionType
¶
-
enum class hdf5::dataspace::SelectionType : std::underlying_type<H5S_sel_type>::type¶
selection type
Determines what kind of selection is applied to a datatype. Like datapsace::Type this identifies the particular type of selection when given only a reference to dataspace::Selection.
Values:
-
enumerator None¶
nothing is selected
-
enumerator Points¶
the selection is a point selection (dataspace::Points)
-
enumerator Hyperslab¶
the selection is a hyperslab selection (dataspace::Hyperslab)
-
enumerator All¶
everything is selected
-
enumerator None¶
-
std::ostream &hdf5::dataspace::operator<<(std::ostream &stream, const SelectionType &t)¶
SelectionOperation
¶
-
enum class hdf5::dataspace::SelectionOperation : std::underlying_type<H5S_seloper_t>::type¶
selection operator
Values:
-
enumerator Set¶
replace all selections by this one
-
enumerator Or¶
select all elements which are in this or the previously applied selections
-
enumerator And¶
selects the overlapping region of the actual selection and previously applied selections
-
enumerator XOr¶
select all elements which are either in this or in the previously applied selections but not in both
-
enumerator NotB¶
select those elements which are on the previously applied selections but not in the current one
-
enumerator NotA¶
select only those elements which are in the current selection and not in the previous ones
-
enumerator Append¶
for point selections: add the point to the end of the current list of points
-
enumerator Prepend¶
for point selections: add the point to the beginning of the current list of points
-
enumerator Set¶
-
std::ostream &hdf5::dataspace::operator<<(std::ostream &stream, const SelectionOperation &o)¶