/usr/include/shogun/transfer/multitask/LibLinearMTL.h is in libshogun-dev 3.2.0-7.5.
This file is owned by root:root, with mode 0o644.
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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) 2011-2012 Christian Widmer
* Written (W) 2007-2010 Soeren Sonnenburg
* Copyright (c) 2007-2009 The LIBLINEAR Project.
* Copyright (C) 2007-2012 Fraunhofer Institute FIRST and Max-Planck-Society
*/
#ifndef _LIBLINEARMTL_H___
#define _LIBLINEARMTL_H___
#include <shogun/lib/config.h>
#include <shogun/lib/common.h>
#include <shogun/base/Parameter.h>
#include <shogun/machine/LinearMachine.h>
#include <shogun/optimization/liblinear/shogun_liblinear.h>
#include <shogun/lib/SGSparseMatrix.h>
#include <map>
namespace shogun
{
#ifdef HAVE_LAPACK
/** @brief mapped sparse matrix for
* representing graph relations of tasks
*/
class MappedSparseMatrix
{
public:
/** operator overload for matrix read only access
* @param i_row
* @param i_col
*/
inline const float64_t operator()(index_t i_row, index_t i_col) const
{
// lookup complexity is O(log n)
std::map<index_t, float64_t>::const_iterator it = data[i_row].find(i_col);
if (it != data[i_row].end())
{
// use mapping for lookup
return it->second;
} else {
return 0.0;
}
}
/** set matrix from SGSparseMatrix
* @param sgm
*/
void set_from_sparse(const SGSparseMatrix<float64_t> &sgm)
{
data.clear();
// deep copy sparse matrix
for (int32_t i=0; i!=sgm.num_vectors; i++)
{
SGSparseVector<float64_t> ts_row = sgm.sparse_matrix[i];
data.push_back(std::map<index_t, float64_t>());
for (int32_t k=0; k!=ts_row.num_feat_entries; k++)
{
// get data from sparse matrix
SGSparseVectorEntry<float64_t> e = ts_row.features[k];
data[i][e.feat_index] = e.entry;
}
}
}
/** under-the-hood data structure */
std::vector< std::map<index_t, float64_t> > data;
};
/** @brief class to implement LibLinear */
class CLibLinearMTL : public CLinearMachine
{
public:
/** default constructor */
CLibLinearMTL();
/** constructor (using L2R_L1LOSS_SVC_DUAL as default)
*
* @param C constant C
* @param traindat training features
* @param trainlab training labels
*/
CLibLinearMTL(
float64_t C, CDotFeatures* traindat,
CLabels* trainlab);
/** destructor */
virtual ~CLibLinearMTL();
/** get classifier type
*
* @return the classifier type
*/
virtual EMachineType get_classifier_type() { return CT_LIBLINEAR; }
/** set C
*
* @param c_neg C1
* @param c_pos C2
*/
inline void set_C(float64_t c_neg, float64_t c_pos) { C1=c_neg; C2=c_pos; }
/** get C1
*
* @return C1
*/
inline float64_t get_C1() { return C1; }
/** get C2
*
* @return C2
*/
inline float64_t get_C2() { return C2; }
/** set epsilon
*
* @param eps new epsilon
*/
inline void set_epsilon(float64_t eps) { epsilon=eps; }
/** get epsilon
*
* @return epsilon
*/
inline float64_t get_epsilon() { return epsilon; }
/** set if bias shall be enabled
*
* @param enable_bias if bias shall be enabled
*/
inline void set_bias_enabled(bool enable_bias) { use_bias=enable_bias; }
/** check if bias is enabled
*
* @return if bias is enabled
*/
inline bool get_bias_enabled() { return use_bias; }
/** @return object name */
virtual const char* get_name() const { return "LibLinearMTL"; }
/** get the maximum number of iterations liblinear is allowed to do */
inline int32_t get_max_iterations()
{
return max_iterations;
}
/** set the maximum number of iterations liblinear is allowed to do */
inline void set_max_iterations(int32_t max_iter=1000)
{
max_iterations=max_iter;
}
/** set number of tasks */
inline void set_num_tasks(int32_t nt)
{
num_tasks = nt;
}
/** set the linear term for qp */
inline void set_linear_term(SGVector<float64_t> linear_term)
{
if (!m_labels)
SG_ERROR("Please assign labels first!\n")
int32_t num_labels=m_labels->get_num_labels();
if (num_labels!=linear_term.vlen)
{
SG_ERROR("Number of labels (%d) does not match number"
" of entries (%d) in linear term \n", num_labels,
linear_term.vlen);
}
m_linear_term = linear_term;
}
/** set task indicator for lhs */
inline void set_task_indicator_lhs(SGVector<int32_t> ti)
{
task_indicator_lhs = ti;
}
/** set task indicator for rhs */
inline void set_task_indicator_rhs(SGVector<int32_t> ti)
{
task_indicator_rhs = ti;
}
/** set task similarity matrix */
inline void set_task_similarity_matrix(SGSparseMatrix<float64_t> tsm)
{
task_similarity_matrix.set_from_sparse(tsm);
}
/** set graph laplacian */
inline void set_graph_laplacian(SGMatrix<float64_t> lap)
{
graph_laplacian = lap;
}
/** get V
*
* @return matrix of weight vectors
*/
inline SGMatrix<float64_t> get_V()
{
return V;
}
/** get W
*
* @return matrix of weight vectors
*/
inline SGMatrix<float64_t> get_W()
{
int32_t w_size = V.num_rows;
SGMatrix<float64_t> W = SGMatrix<float64_t>(w_size, num_tasks);
for(int32_t k=0; k<w_size*num_tasks; k++)
{
W.matrix[k] = 0;
}
for (int32_t s=0; s<num_tasks; s++)
{
float64_t* v_s = V.get_column_vector(s);
for (int32_t t=0; t<num_tasks; t++)
{
float64_t sim_ts = task_similarity_matrix(s,t);
for(int32_t i=0; i<w_size; i++)
{
W.matrix[t*w_size + i] += sim_ts * v_s[i];
}
}
}
return W;
}
/** get alphas
*
* @return matrix of example weights alphas
*/
inline SGVector<float64_t> get_alphas()
{
return alphas;
}
/** compute primal objective
*
* @return primal objective
*/
virtual float64_t compute_primal_obj();
/** compute dual objective
*
* @return dual objective
*/
virtual float64_t compute_dual_obj();
/** compute duality gap
*
* @return duality gap
*/
virtual float64_t compute_duality_gap();
protected:
/** train linear SVM classifier
*
* @param data training data (parameter can be avoided if distance or
* kernel-based classifiers are used and distance/kernels are
* initialized with train data)
*
* @return whether training was successful
*/
virtual bool train_machine(CFeatures* data=NULL);
private:
/** set up parameters */
void init();
void solve_l2r_l1l2_svc(
const liblinear_problem *prob, double eps, double Cp, double Cn);
protected:
/** C1 */
float64_t C1;
/** C2 */
float64_t C2;
/** if bias shall be used */
bool use_bias;
/** epsilon */
float64_t epsilon;
/** maximum number of iterations */
int32_t max_iterations;
/** precomputed linear term */
SGVector<float64_t> m_linear_term;
/** keep track of alphas */
SGVector<float64_t> alphas;
/** set number of tasks */
int32_t num_tasks;
/** task indicator left hand side */
SGVector<int32_t> task_indicator_lhs;
/** task indicator right hand side */
SGVector<int32_t> task_indicator_rhs;
/** task similarity matrix */
//SGMatrix<float64_t> task_similarity_matrix;
//SGSparseMatrix<float64_t> task_similarity_matrix;
MappedSparseMatrix task_similarity_matrix;
/** task similarity matrix */
SGMatrix<float64_t> graph_laplacian;
/** parameter matrix n * d */
SGMatrix<float64_t> V;
/** duality gap */
float64_t duality_gap;
};
#endif //HAVE_LAPACK
} /* namespace shogun */
#endif //_LIBLINEARMTL_H___
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