OpenMS  2.6.0
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BilinearInterpolation< Key, Value > Class Template Reference

Provides access to bilinearly interpolated values (and derivatives) from discrete data points. Values beyond the given range of data points are implicitly taken as zero. More...

#include <OpenMS/MATH/MISC/BilinearInterpolation.h>

Collaboration diagram for BilinearInterpolation< Key, Value >:
[legend]

Public Member Functions

Interpolated data
ValueType value (KeyType arg_pos_0, KeyType arg_pos_1) const
 Returns the interpolated value ("backward resampling") More...
 
void addValue (KeyType arg_pos_0, KeyType arg_pos_1, ValueType arg_value)
 Performs bilinear resampling. The arg_value is split up and added to the data points around arg_pos. ("forward resampling") More...
 
Discrete (non-interpolated) data
ContainerTypegetData ()
 Returns the internal random access container storing the data. More...
 
const ContainerTypegetData () const
 Returns the internal random access container storing the data. More...
 
template<typename SourceContainer >
void setData (SourceContainer const &data)
 Assigns data to the internal random access container storing the data. More...
 
bool empty () const
 Returns true if getData() is empty. More...
 

Typedefs

typedef Value value_type
 
typedef Key key_type
 
typedef Matrix< value_typecontainer_type
 
typedef value_type ValueType
 
typedef key_type KeyType
 
typedef container_type ContainerType
 
 BilinearInterpolation ()
 Constructors and destructor. More...
 
 BilinearInterpolation (BilinearInterpolation const &arg)
 Copy constructor. More...
 
BilinearInterpolationoperator= (BilinearInterpolation const &arg)
 Assignment operator. More...
 
 ~BilinearInterpolation ()
 Destructor. More...
 

Transformation

KeyType scale_0_
 Data members. More...
 
KeyType offset_0_
 
KeyType scale_1_
 
KeyType offset_1_
 
KeyType inside_0_
 
KeyType outside_0_
 
KeyType inside_1_
 
KeyType outside_1_
 
ContainerType data_
 
KeyType key2index_0 (KeyType pos) const
 The transformation from "outside" to "inside" coordinates. More...
 
KeyType index2key_0 (KeyType pos) const
 The transformation from "inside" to "outside" coordinates. More...
 
KeyType key2index_1 (KeyType pos) const
 The transformation from "outside" to "inside" coordinates. More...
 
KeyType index2key_1 (KeyType pos) const
 The transformation from "inside" to "outside" coordinates. More...
 
const KeyTypegetScale_0 () const
 Accessor. "Scale" is the difference (in "outside" units) between consecutive entries in "Data". More...
 
const KeyTypegetScale_1 () const
 Accessor. "Scale" is the difference (in "outside" units) between consecutive entries in "Data". More...
 
void setScale_0 (KeyType const &scale)
 Accessor. "Scale" is the difference (in "outside" units) between consecutive entries in "Data". More...
 
void setScale_1 (KeyType const &scale)
 Accessor. "Scale" is the difference (in "outside" units) between consecutive entries in "Data". More...
 
const KeyTypegetOffset_0 () const
 Accessor. "Offset" is the point (in "outside" units) which corresponds to "Data(0,0)". More...
 
const KeyTypegetOffset_1 () const
 Accessor. "Offset" is the point (in "outside" units) which corresponds to "Data(0,0)". More...
 
void setOffset_0 (KeyType const &offset)
 Accessor. "Offset" is the point (in "outside" units) which corresponds to "Data(0,0)". More...
 
void setOffset_1 (KeyType const &offset)
 Accessor. "Offset" is the point (in "outside" units) which corresponds to "Data(0,0)". More...
 
void setMapping_0 (KeyType const &scale, KeyType const &inside_low, KeyType const &outside_low)
 Specifies the mapping from "outside" to "inside" coordinates by the following data: More...
 
void setMapping_0 (KeyType const &inside_low, KeyType const &outside_low, KeyType const &inside_high, KeyType const &outside_high)
 Specifies the mapping from "outside" to "inside" coordinates by the following data: More...
 
void setMapping_1 (KeyType const &scale, KeyType const &inside_low, KeyType const &outside_low)
 Specifies the mapping from "outside" to "inside" coordinates by the following data: More...
 
void setMapping_1 (KeyType const &inside_low, KeyType const &outside_low, KeyType const &inside_high, KeyType const &outside_high)
 Specifies the mapping from "outside" to "inside" coordinates by the following data: More...
 
const KeyTypegetInsideReferencePoint_0 () const
 Accessor. See setMapping(). More...
 
const KeyTypegetInsideReferencePoint_1 () const
 Accessor. See setMapping(). More...
 
const KeyTypegetOutsideReferencePoint_0 () const
 Accessor. See setMapping(). More...
 
const KeyTypegetOutsideReferencePoint_1 () const
 Accessor. See setMapping(). More...
 
KeyType supportMin_0 () const
 Lower boundary of the support, in "outside" coordinates. More...
 
KeyType supportMin_1 () const
 Lower boundary of the support, in "outside" coordinates. More...
 
KeyType supportMax_0 () const
 Upper boundary of the support, in "outside" coordinates. More...
 
KeyType supportMax_1 () const
 Upper boundary of the support, in "outside" coordinates. More...
 

Detailed Description

template<typename Key = double, typename Value = Key>
class OpenMS::Math::BilinearInterpolation< Key, Value >

Provides access to bilinearly interpolated values (and derivatives) from discrete data points. Values beyond the given range of data points are implicitly taken as zero.

The input is just a vector of values ("Data"). These are interpreted as the y-coordinates at the x-coordinate positions 0,...,data_.size-1.

The interpolated data can also be scaled and shifted in the x-dimension by an affine mapping. That is, we have "inside" and "outside" x-coordinates. The affine mapping can be specified in two ways:

By default the identity mapping (scale=1, offset=0) is used.

Using the value() and derivative() methods you can sample bilinearly interpolated values for a given x-coordinate position of the data and the derivative of the data.

See also
LinearInterpolation

Member Typedef Documentation

◆ container_type

◆ ContainerType

◆ key_type

typedef Key key_type

◆ KeyType

typedef key_type KeyType

◆ value_type

typedef Value value_type

◆ ValueType

Constructor & Destructor Documentation

◆ BilinearInterpolation() [1/2]

Constructors and destructor.

Default constructor

◆ BilinearInterpolation() [2/2]

BilinearInterpolation ( BilinearInterpolation< Key, Value > const &  arg)
inline

Copy constructor.

◆ ~BilinearInterpolation()

~BilinearInterpolation ( )
inline

Destructor.

Member Function Documentation

◆ addValue()

void addValue ( KeyType  arg_pos_0,
KeyType  arg_pos_1,
ValueType  arg_value 
)
inline

Performs bilinear resampling. The arg_value is split up and added to the data points around arg_pos. ("forward resampling")

References Matrix< Value >::cols(), BilinearInterpolation< Key, Value >::data_, BilinearInterpolation< Key, Value >::key2index_0(), BilinearInterpolation< Key, Value >::key2index_1(), and Matrix< Value >::rows().

◆ empty()

bool empty ( ) const
inline

◆ getData() [1/2]

ContainerType& getData ( )
inline

Returns the internal random access container storing the data.

References BilinearInterpolation< Key, Value >::data_.

◆ getData() [2/2]

const ContainerType& getData ( ) const
inline

Returns the internal random access container storing the data.

References BilinearInterpolation< Key, Value >::data_.

◆ getInsideReferencePoint_0()

const KeyType& getInsideReferencePoint_0 ( ) const
inline

Accessor. See setMapping().

References BilinearInterpolation< Key, Value >::inside_0_.

◆ getInsideReferencePoint_1()

const KeyType& getInsideReferencePoint_1 ( ) const
inline

Accessor. See setMapping().

References BilinearInterpolation< Key, Value >::inside_1_.

◆ getOffset_0()

const KeyType& getOffset_0 ( ) const
inline

Accessor. "Offset" is the point (in "outside" units) which corresponds to "Data(0,0)".

References BilinearInterpolation< Key, Value >::offset_0_.

◆ getOffset_1()

const KeyType& getOffset_1 ( ) const
inline

Accessor. "Offset" is the point (in "outside" units) which corresponds to "Data(0,0)".

References BilinearInterpolation< Key, Value >::offset_1_.

◆ getOutsideReferencePoint_0()

const KeyType& getOutsideReferencePoint_0 ( ) const
inline

Accessor. See setMapping().

References BilinearInterpolation< Key, Value >::outside_0_.

◆ getOutsideReferencePoint_1()

const KeyType& getOutsideReferencePoint_1 ( ) const
inline

Accessor. See setMapping().

References BilinearInterpolation< Key, Value >::outside_1_.

◆ getScale_0()

const KeyType& getScale_0 ( ) const
inline

Accessor. "Scale" is the difference (in "outside" units) between consecutive entries in "Data".

References BilinearInterpolation< Key, Value >::scale_0_.

◆ getScale_1()

const KeyType& getScale_1 ( ) const
inline

Accessor. "Scale" is the difference (in "outside" units) between consecutive entries in "Data".

References BilinearInterpolation< Key, Value >::scale_1_.

◆ index2key_0()

KeyType index2key_0 ( KeyType  pos) const
inline

◆ index2key_1()

KeyType index2key_1 ( KeyType  pos) const
inline

◆ key2index_0()

KeyType key2index_0 ( KeyType  pos) const
inline

◆ key2index_1()

KeyType key2index_1 ( KeyType  pos) const
inline

◆ operator=()

BilinearInterpolation& operator= ( BilinearInterpolation< Key, Value > const &  arg)
inline

◆ setData()

void setData ( SourceContainer const &  data)
inline

Assigns data to the internal random access container storing the data.

SourceContainer must be assignable to ContainerType.

References BilinearInterpolation< Key, Value >::data_.

◆ setMapping_0() [1/2]

void setMapping_0 ( KeyType const &  inside_low,
KeyType const &  outside_low,
KeyType const &  inside_high,
KeyType const &  outside_high 
)
inline

Specifies the mapping from "outside" to "inside" coordinates by the following data:

  • inside_low and outside_low: these axis positions are mapped onto each other.
  • inside_high and outside_high: these axis positions are mapped onto each other.

This four argument version is just a convenience overload for the three argument version, which see.

References BilinearInterpolation< Key, Value >::setMapping_0().

◆ setMapping_0() [2/2]

void setMapping_0 ( KeyType const &  scale,
KeyType const &  inside_low,
KeyType const &  outside_low 
)
inline

Specifies the mapping from "outside" to "inside" coordinates by the following data:

  • scale: the difference in outside coordinates between consecutive values in the data vector.
  • inside and outside: these axis positions are mapped onto each other.

For example, when you have a complicated probability distribution which is in fact centered around zero (but you cannot have negative indices in the data vector), then you can arrange things such that inside is the mean of the pre-computed, shifted density values of that distribution and outside is the centroid position of, say, a peak in the real world which you want to model by a scaled and shifted version of the probability distribution.

References BilinearInterpolation< Key, Value >::inside_0_, BilinearInterpolation< Key, Value >::offset_0_, BilinearInterpolation< Key, Value >::outside_0_, and BilinearInterpolation< Key, Value >::scale_0_.

Referenced by BilinearInterpolation< Key, Value >::setMapping_0().

◆ setMapping_1() [1/2]

void setMapping_1 ( KeyType const &  inside_low,
KeyType const &  outside_low,
KeyType const &  inside_high,
KeyType const &  outside_high 
)
inline

Specifies the mapping from "outside" to "inside" coordinates by the following data:

  • inside_low and outside_low: these axis positions are mapped onto each other.
  • inside_high and outside_high: these axis positions are mapped onto each other.

This four argument version is just a convenience overload for the three argument version, which see.

References BilinearInterpolation< Key, Value >::setMapping_1().

◆ setMapping_1() [2/2]

void setMapping_1 ( KeyType const &  scale,
KeyType const &  inside_low,
KeyType const &  outside_low 
)
inline

Specifies the mapping from "outside" to "inside" coordinates by the following data:

  • scale: the difference in outside coordinates between consecutive values in the data vector.
  • inside and outside: these axis positions are mapped onto each other.

For example, when you have a complicated probability distribution which is in fact centered around zero (but you cannot have negative indices in the data vector), then you can arrange things such that inside is the mean of the pre-computed, shifted density values of that distribution and outside is the centroid position of, say, a peak in the real world which you want to model by a scaled and shifted version of the probability distribution.

References BilinearInterpolation< Key, Value >::inside_1_, BilinearInterpolation< Key, Value >::offset_1_, BilinearInterpolation< Key, Value >::outside_1_, and BilinearInterpolation< Key, Value >::scale_1_.

Referenced by BilinearInterpolation< Key, Value >::setMapping_1().

◆ setOffset_0()

void setOffset_0 ( KeyType const &  offset)
inline

Accessor. "Offset" is the point (in "outside" units) which corresponds to "Data(0,0)".

Note: Using this invalidates the inside and outside reference points.

References BilinearInterpolation< Key, Value >::offset_0_.

◆ setOffset_1()

void setOffset_1 ( KeyType const &  offset)
inline

Accessor. "Offset" is the point (in "outside" units) which corresponds to "Data(0,0)".

Note: Using this invalidates the inside and outside reference points.

References BilinearInterpolation< Key, Value >::offset_1_.

◆ setScale_0()

void setScale_0 ( KeyType const &  scale)
inline

Accessor. "Scale" is the difference (in "outside" units) between consecutive entries in "Data".

Note: Using this invalidates the inside and outside reference points.

References BilinearInterpolation< Key, Value >::scale_0_.

◆ setScale_1()

void setScale_1 ( KeyType const &  scale)
inline

Accessor. "Scale" is the difference (in "outside" units) between consecutive entries in "Data".

Note: Using this invalidates the inside and outside reference points.

References BilinearInterpolation< Key, Value >::scale_1_.

◆ supportMax_0()

KeyType supportMax_0 ( ) const
inline

Upper boundary of the support, in "outside" coordinates.

References BilinearInterpolation< Key, Value >::data_, BilinearInterpolation< Key, Value >::index2key_0(), and Matrix< Value >::rows().

◆ supportMax_1()

KeyType supportMax_1 ( ) const
inline

Upper boundary of the support, in "outside" coordinates.

References Matrix< Value >::cols(), BilinearInterpolation< Key, Value >::data_, and BilinearInterpolation< Key, Value >::index2key_1().

◆ supportMin_0()

KeyType supportMin_0 ( ) const
inline

Lower boundary of the support, in "outside" coordinates.

References BilinearInterpolation< Key, Value >::empty(), and BilinearInterpolation< Key, Value >::index2key_0().

◆ supportMin_1()

KeyType supportMin_1 ( ) const
inline

Lower boundary of the support, in "outside" coordinates.

References BilinearInterpolation< Key, Value >::empty(), and BilinearInterpolation< Key, Value >::index2key_1().

◆ value()

ValueType value ( KeyType  arg_pos_0,
KeyType  arg_pos_1 
) const
inline

Member Data Documentation

◆ data_

ContainerType data_
protected

◆ inside_0_

KeyType inside_0_
protected

◆ inside_1_

KeyType inside_1_
protected

◆ offset_0_

KeyType offset_0_
protected

◆ offset_1_

KeyType offset_1_
protected

◆ outside_0_

KeyType outside_0_
protected

◆ outside_1_

KeyType outside_1_
protected

◆ scale_0_

KeyType scale_0_
protected

◆ scale_1_

KeyType scale_1_
protected