/usr/include/shogun/kernel/WeightedDegreeStringKernel.h is in libshogun-dev 1.1.0-4ubuntu2.
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* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 3 of the License, or
* (at your option) any later version.
*
* Written (W) 1999-2009 Soeren Sonnenburg
* Written (W) 1999-2008 Gunnar Raetsch
* Copyright (C) 1999-2009 Fraunhofer Institute FIRST and Max-Planck-Society
*/
#ifndef _WEIGHTEDDEGREESTRINGKERNEL_H___
#define _WEIGHTEDDEGREESTRINGKERNEL_H___
#include <shogun/lib/common.h>
#include <shogun/lib/Trie.h>
#include <shogun/kernel/StringKernel.h>
#include <shogun/kernel/MultitaskKernelMklNormalizer.h>
#include <shogun/features/StringFeatures.h>
namespace shogun
{
/** WD kernel type */
enum EWDKernType
{
E_WD=0,
E_EXTERNAL=1,
E_BLOCK_CONST=2,
E_BLOCK_LINEAR=3,
E_BLOCK_SQPOLY=4,
E_BLOCK_CUBICPOLY=5,
E_BLOCK_EXP=6,
E_BLOCK_LOG=7,
};
/** @brief The Weighted Degree String kernel.
*
* The WD kernel of order d compares two sequences \f${\bf x}\f$ and
* \f${\bf x'}\f$ of length L by summing all contributions of k-mer matches of
* lengths \f$k\in\{1,\dots,d\}\f$, weighted by coefficients \f$\beta_k\f$. It
* is defined as
* \f[
* k({\bf x},{\bf x'})=\sum_{k=1}^d\beta_k\sum_{l=1}^{L-k+1}I({\bf u}_{k,l}({\bf x})={\bf u}_{k,l}({\bf x'})).
* \f]
* Here, \f${\bf u}_{k,l}({\bf x})\f$ is the string of length k starting at position
* l of the sequence \f${\bf x}\f$ and \f$I(\cdot)\f$ is the indicator function
* which evaluates to 1 when its argument is true and to 0
* otherwise.
*/
class CWeightedDegreeStringKernel: public CStringKernel<char>
{
public:
/** default constructor
*
*/
CWeightedDegreeStringKernel();
/** constructor
*
* @param degree degree
* @param type weighted degree kernel type
*/
CWeightedDegreeStringKernel(int32_t degree, EWDKernType type=E_WD);
/** constructor
*
* @param weights kernel's weights
* @param degree degree
*/
CWeightedDegreeStringKernel(float64_t* weights, int32_t degree);
/** constructor
*
* @param l features of left-hand side
* @param r features of right-hand side
* @param degree degree
*/
CWeightedDegreeStringKernel(
CStringFeatures<char>* l, CStringFeatures<char>* r, int32_t degree);
virtual ~CWeightedDegreeStringKernel();
/** initialize kernel
*
* @param l features of left-hand side
* @param r features of right-hand side
* @return if initializing was successful
*/
virtual bool init(CFeatures* l, CFeatures* r);
/** clean up kernel */
virtual void cleanup();
/** get WD kernel weighting type
*
* @return weighting type
*
*
* \sa EWDKernType
*/
EWDKernType get_type() const
{
return type;
}
/** return what type of kernel we are
*
* @return kernel type WEIGHTEDDEGREE
*/
virtual EKernelType get_kernel_type() { return K_WEIGHTEDDEGREE; }
/** return the kernel's name
*
* @return name WeightedDegree
*/
virtual const char* get_name() const {
return "WeightedDegreeStringKernel";
}
/** initialize optimization
*
* @param count count
* @param IDX index
* @param alphas alphas
* @return if initializing was successful
*/
inline virtual bool init_optimization(
int32_t count, int32_t *IDX, float64_t* alphas)
{
return init_optimization(count, IDX, alphas, -1);
}
/** initialize optimization
* do initialization for tree_num up to upto_tree, use
* tree_num=-1 to construct all trees
*
* @param count count
* @param IDX IDX
* @param alphas alphas
* @param tree_num which tree
* @return if initializing was successful
*/
virtual bool init_optimization(
int32_t count, int32_t *IDX, float64_t* alphas, int32_t tree_num);
/** delete optimization
*
* @return if deleting was successful
*/
virtual bool delete_optimization();
/** compute optimized
*
* @param idx index to compute
* @return optimized value at given index
*/
virtual float64_t compute_optimized(int32_t idx)
{
if (get_is_initialized())
return compute_by_tree(idx);
SG_ERROR( "CWeightedDegreeStringKernel optimization not initialized\n");
return 0;
}
/** helper for compute batch
*
* @param p thread parameter
*/
static void* compute_batch_helper(void* p);
/** compute batch
*
* @param num_vec number of vectors
* @param vec_idx vector index
* @param target target
* @param num_suppvec number of support vectors
* @param IDX IDX
* @param alphas alphas
* @param factor factor
*/
virtual void compute_batch(
int32_t num_vec, int32_t* vec_idx, float64_t* target,
int32_t num_suppvec, int32_t* IDX, float64_t* alphas,
float64_t factor=1.0);
/** clear normal
* subkernel functionality
*/
inline virtual void clear_normal()
{
if (get_is_initialized())
{
if (normalizer && normalizer->get_normalizer_type()==N_MULTITASK)
SG_ERROR("not implemented");
tries->delete_trees(max_mismatch==0);
set_is_initialized(false);
}
}
/** add to normal
*
* @param idx where to add
* @param weight what to add
*/
inline virtual void add_to_normal(int32_t idx, float64_t weight)
{
if (normalizer && normalizer->get_normalizer_type()==N_MULTITASK)
SG_ERROR("not implemented");
if (max_mismatch==0)
add_example_to_tree(idx, weight);
else
add_example_to_tree_mismatch(idx, weight);
set_is_initialized(true);
}
/** get number of subkernels
*
* @return number of subkernels
*/
inline virtual int32_t get_num_subkernels()
{
if (normalizer && normalizer->get_normalizer_type()==N_MULTITASK)
return ((CMultitaskKernelMklNormalizer*)normalizer)->get_num_betas();
if (position_weights!=NULL)
return (int32_t) ceil(1.0*seq_length/mkl_stepsize) ;
if (length==0)
return (int32_t) ceil(1.0*get_degree()/mkl_stepsize);
return (int32_t) ceil(1.0*get_degree()*length/mkl_stepsize) ;
}
/** compute by subkernel
*
* @param idx index
* @param subkernel_contrib subkernel contribution
*/
inline void compute_by_subkernel(
int32_t idx, float64_t * subkernel_contrib)
{
if (get_is_initialized())
{
if (normalizer && normalizer->get_normalizer_type()==N_MULTITASK)
SG_ERROR("not implemented");
compute_by_tree(idx, subkernel_contrib);
return ;
}
SG_ERROR( "CWeightedDegreeStringKernel optimization not initialized\n");
}
/** get subkernel weights
*
* @param num_weights number of weights will be stored here
* @return subkernel weights
*/
inline const float64_t* get_subkernel_weights(int32_t& num_weights)
{
num_weights = get_num_subkernels();
SG_FREE(weights_buffer);
weights_buffer = SG_MALLOC(float64_t, num_weights);
if (normalizer && normalizer->get_normalizer_type()==N_MULTITASK)
for (int32_t i=0; i<num_weights; i++)
weights_buffer[i] = ((CMultitaskKernelMklNormalizer*)normalizer)->get_beta(i);
else if (position_weights!=NULL)
for (int32_t i=0; i<num_weights; i++)
weights_buffer[i] = position_weights[i*mkl_stepsize];
else
for (int32_t i=0; i<num_weights; i++)
weights_buffer[i] = weights[i*mkl_stepsize];
return weights_buffer;
}
/** set subkernel weights
*
* @param wweights
*/
virtual void set_subkernel_weights(SGVector<float64_t> w)
{
float64_t* weights2=w.vector;
int32_t num_weights2=w.vlen;
int32_t num_weights = get_num_subkernels();
if (num_weights!=num_weights2)
SG_ERROR( "number of weights do not match\n");
if (normalizer && normalizer->get_normalizer_type()==N_MULTITASK)
for (int32_t i=0; i<num_weights; i++)
((CMultitaskKernelMklNormalizer*)normalizer)->set_beta(i, weights2[i]);
else if (position_weights!=NULL)
{
for (int32_t i=0; i<num_weights; i++)
{
for (int32_t j=0; j<mkl_stepsize; j++)
{
if (i*mkl_stepsize+j<seq_length)
position_weights[i*mkl_stepsize+j] = weights2[i];
}
}
}
else if (length==0)
{
for (int32_t i=0; i<num_weights; i++)
{
for (int32_t j=0; j<mkl_stepsize; j++)
{
if (i*mkl_stepsize+j<get_degree())
weights[i*mkl_stepsize+j] = weights2[i];
}
}
}
else
{
for (int32_t i=0; i<num_weights; i++)
{
for (int32_t j=0; j<mkl_stepsize; j++)
{
if (i*mkl_stepsize+j<get_degree()*length)
weights[i*mkl_stepsize+j] = weights2[i];
}
}
}
}
/** set the current kernel normalizer
*
* @return if successful
*/
virtual bool set_normalizer(CKernelNormalizer* normalizer_) {
if (normalizer_ && strcmp(normalizer_->get_name(),"MultitaskKernelTreeNormalizer")==0) {
unset_property(KP_LINADD);
unset_property(KP_BATCHEVALUATION);
}
else
{
set_property(KP_LINADD);
set_property(KP_BATCHEVALUATION);
}
return CStringKernel<char>::set_normalizer(normalizer_);
}
// other kernel tree operations
/** compute abs weights
*
* @param len len
* @return computed abs weights
*/
float64_t *compute_abs_weights(int32_t & len);
/** compute by tree
*
* @param idx index
* @param LevelContrib level contribution
* @return computed value
*/
void compute_by_tree(int32_t idx, float64_t *LevelContrib);
/** check if tree is initialized
*
* @return if tree is initialized
*/
bool is_tree_initialized() { return tree_initialized; }
/** get degree weights
*
* @param d degree weights will be stored here
* @param len number of degree weights will be stored here
*/
inline float64_t *get_degree_weights(int32_t& d, int32_t& len)
{
d=degree;
len=length;
return weights;
}
/** get weights
*
* @param num_weights number of weights will be stored here
* @return weights
*/
inline float64_t *get_weights(int32_t& num_weights)
{
if (normalizer && normalizer->get_normalizer_type()==N_MULTITASK)
SG_ERROR("not implemented");
if (position_weights!=NULL)
{
num_weights = seq_length ;
return position_weights ;
}
if (length==0)
num_weights = degree ;
else
num_weights = degree*length ;
return weights;
}
/** get position weights
*
* @param len number of position weights will be stored here
* @return position weights
*/
inline float64_t *get_position_weights(int32_t& len)
{
len=seq_length;
return position_weights;
}
/** set wd weights
*
* @param type weighted degree kernel type
* @return if setting was successful
*/
bool set_wd_weights_by_type(EWDKernType type);
/** set wd weights
*
* @param new_weights new weights
*/
inline void set_wd_weights(SGVector<float64_t> new_weights)
{
set_weights(SGMatrix<float64_t>(new_weights.vector,new_weights.vlen,0));
}
/** set weights
*
* @param new_weights new weights
*/
bool set_weights(SGMatrix<float64_t> new_weights);
/** set position weights
*
* @param pws new position weights
* @param len number of position weights
* @return if setting was successful
*/
bool set_position_weights(float64_t* pws, int32_t len);
/** initialize block weights
*
* @return if initialization was successful
*/
bool init_block_weights();
/** initialize block weights from weighted degree
*
* @return if initialization was successful
*/
bool init_block_weights_from_wd();
/** initialize block weights from external weighted degree
*
* @return if initialization was successful
*/
bool init_block_weights_from_wd_external();
/** initialize block weights constant
*
* @return if initialization was successful
*/
bool init_block_weights_const();
/** initialize block weights linear
*
* @return if initialization was successful
*/
bool init_block_weights_linear();
/** initialize block weights squared polynomial
*
* @return if initialization was successful
*/
bool init_block_weights_sqpoly();
/** initialize block weights cubic polynomial
*
* @return if initialization was successful
*/
bool init_block_weights_cubicpoly();
/** initialize block weights exponential
*
* @return if initialization was successful
*/
bool init_block_weights_exp();
/** initialize block weights logarithmic
*
* @return if initialization was successful
*/
bool init_block_weights_log();
/** delete position weights
*
* @return if deleting was successful
*/
bool delete_position_weights()
{
SG_FREE(position_weights);
position_weights=NULL;
return true;
}
/** set maximum mismatch
*
* @param max new maximum mismatch
* @return if setting was successful
*/
bool set_max_mismatch(int32_t max);
/** get maximum mismatch
*
* @return maximum mismatch
*/
inline int32_t get_max_mismatch() const { return max_mismatch; }
/** set degree
*
* @param deg new degree
* @return if setting was successful
*/
inline bool set_degree(int32_t deg) { degree=deg; return true; }
/** get degree
*
* @return degree
*/
inline int32_t get_degree() const { return degree; }
/** set if block computation shall be performed
*
* @param block if block computation shall be performed
* @return if setting was successful
*/
inline bool set_use_block_computation(bool block)
{
block_computation=block;
return true;
}
/** check if block computation is performed
*
* @return if block computation is performed
*/
inline bool get_use_block_computation() { return block_computation; }
/** set MKL steps ize
*
* @param step new step size
* @return if setting was successful
*/
inline bool set_mkl_stepsize(int32_t step)
{
if (step<1)
SG_ERROR("Stepsize must be a positive integer\n");
mkl_stepsize=step;
return true;
}
/** get MKL step size
*
* @return MKL step size
*/
inline int32_t get_mkl_stepsize() { return mkl_stepsize; }
/** set which degree
*
* @param which which degree
* @return if setting was successful
*/
inline bool set_which_degree(int32_t which)
{
which_degree=which;
return true;
}
/** get which degree
*
* @return which degree
*/
inline int32_t get_which_degree() { return which_degree; }
protected:
/** create emtpy tries */
void create_empty_tries();
/** add example to tree
*
* @param idx index
* @param weight weight
*/
void add_example_to_tree(int32_t idx, float64_t weight);
/** add example to single tree
*
* @param idx index
* @param weight weight
* @param tree_num which tree
*/
void add_example_to_single_tree(
int32_t idx, float64_t weight, int32_t tree_num);
/** add example to tree mismatch
*
* @param idx index
* @param weight weight
*/
void add_example_to_tree_mismatch(int32_t idx, float64_t weight);
/** add example to single tree mismatch
*
* @param idx index
* @param weight weight
* @param tree_num which tree
*/
void add_example_to_single_tree_mismatch(
int32_t idx, float64_t weight, int32_t tree_num);
/** compute by tree
*
* @param idx index
* @return computed value
*/
float64_t compute_by_tree(int32_t idx);
/** compute kernel function for features a and b
* idx_{a,b} denote the index of the feature vectors
* in the corresponding feature object
*
* @param idx_a index a
* @param idx_b index b
* @return computed kernel function at indices a,b
*/
float64_t compute(int32_t idx_a, int32_t idx_b);
/** compute with mismatch
*
* @param avec vector a
* @param alen length of vector a
* @param bvec vector b
* @param blen length of vector b
* @return computed value
*/
float64_t compute_with_mismatch(
char* avec, int32_t alen, char* bvec, int32_t blen);
/** compute without mismatch
*
* @param avec vector a
* @param alen length of vector a
* @param bvec vector b
* @param blen length of vector b
* @return computed value
*/
float64_t compute_without_mismatch(
char* avec, int32_t alen, char* bvec, int32_t blen);
/** compute without mismatch matrix
*
* @param avec vector a
* @param alen length of vector a
* @param bvec vector b
* @param blen length of vector b
* @return computed value
*/
float64_t compute_without_mismatch_matrix(
char* avec, int32_t alen, char* bvec, int32_t blen);
/** compute using block
*
* @param avec vector a
* @param alen length of vector a
* @param bvec vector b
* @param blen length of vector b
* @return computed value
*/
float64_t compute_using_block(char* avec, int32_t alen,
char* bvec, int32_t blen);
/** remove lhs from kernel */
virtual void remove_lhs();
private:
/** Do basic initialisations like default settings
* and registering parameters */
void init();
protected:
/** degree*length weights
*length must match seq_length if != 0
*/
float64_t* weights;
/** degree */
int32_t weights_degree;
/** length */
int32_t weights_length;
/** position weights */
float64_t* position_weights;
/** position weights */
int32_t position_weights_len;
/** weights buffer */
float64_t* weights_buffer;
/** MKL step size */
int32_t mkl_stepsize;
/** degree */
int32_t degree;
/** length */
int32_t length;
/** maximum mismatch */
int32_t max_mismatch;
/** sequence length */
int32_t seq_length;
/** if kernel is initialized */
bool initialized;
/** if block computation is used */
bool block_computation;
/** (internal) block weights */
float64_t* block_weights;
/** WeightedDegree kernel type */
EWDKernType type;
/** which degree */
int32_t which_degree;
/** tries */
CTrie<DNATrie>* tries;
/** if tree is initialized */
bool tree_initialized;
/** alphabet of features */
CAlphabet* alphabet;
};
}
#endif /* _WEIGHTEDDEGREESTRINGKERNEL_H__ */
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