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CMKL Class Reference

Detailed Description

Multiple Kernel Learning.

A support vector machine based method for use with multiple kernels. In Multiple Kernel Learning (MKL) in addition to the SVM $\bf\alpha$ and bias term $b$ the kernel weights $\bf\beta$ are estimated in training. The resulting kernel method can be stated as

\[ f({\bf x})=\sum_{i=0}^{N-1} \alpha_i \sum_{j=0}^M \beta_j k_j({\bf x}, {\bf x_i})+b . \]

where $N$ is the number of training examples $\alpha_i$ are the weights assigned to each training example $\beta_j$ are the weights assigned to each sub-kernel $k_j(x,x')$ are sub-kernels and $b$ the bias.

Kernels have to be chosen a-priori. In MKL $\alpha_i,\;\beta$ and bias are determined by solving the following optimization program

\begin{eqnarray*} \mbox{min} && \gamma-\sum_{i=1}^N\alpha_i\\ \mbox{w.r.t.} && \gamma\in R, \alpha\in R^N \nonumber\\ \mbox{s.t.} && {\bf 0}\leq\alpha\leq{\bf 1}C,\;\;\sum_{i=1}^N \alpha_i y_i=0 \nonumber\\ && \frac{1}{2}\sum_{i,j=1}^N \alpha_i \alpha_j y_i y_j k_k({\bf x}_i,{\bf x}_j)\leq \gamma,\;\; \forall k=1,\ldots,K\nonumber\\ \end{eqnarray*}

here C is a pre-specified regularization parameter.

Within shogun this optimization problem is solved using semi-infinite programming. For 1-norm MKL using one of the two approaches described in

Soeren Sonnenburg, Gunnar Raetsch, Christin Schaefer, and Bernhard Schoelkopf. Large Scale Multiple Kernel Learning. Journal of Machine Learning Research, 7:1531-1565, July 2006.

The first approach (also called the wrapper algorithm) wraps around a single kernel SVMs, alternatingly solving for $\alpha$ and $\beta$. It is using a traditional SVM to generate new violated constraints and thus requires a single kernel SVM and any of the SVMs contained in shogun can be used. In the MKL step either a linear program is solved via glpk or cplex or analytically or a newton (for norms>1) step is performed.

The second much faster but also more memory demanding approach performing interleaved optimization, is integrated into the chunking-based SVMlight.

In addition sparsity of MKL can be controlled by the choice of the $L_p$-norm regularizing $\beta$ as described in

Marius Kloft, Ulf Brefeld, Soeren Sonnenburg, and Alexander Zien. Efficient and accurate lp-norm multiple kernel learning. In Advances in Neural Information Processing Systems 21. MIT Press, Cambridge, MA, 2009.

An alternative way to control the sparsity is the elastic-net regularization, which can be formulated into the following optimization problem:

\begin{eqnarray*} \mbox{min} && C\sum_{i=1}^N\ell\left(\sum_{k=1}^Kf_k(x_i)+b,y_i\right)+(1-\lambda)\left(\sum_{k=1}^K\|f_k\|_{\mathcal{H}_k}\right)^2+\lambda\sum_{k=1}^K\|f_k\|_{\mathcal{H}_k}^2\\ \mbox{w.r.t.} && f_1\in\mathcal{H}_1,f_2\in\mathcal{H}_2,\ldots,f_K\in\mathcal{H}_K,\,b\in R \nonumber\\ \end{eqnarray*}

where $\ell$ is a loss function. Here $\lambda$ controls the trade-off between the two regularization terms. $\lambda=0$ corresponds to $L_1$-MKL, whereas $\lambda=1$ corresponds to the uniform-weighted combination of kernels ( $L_\infty$-MKL). This approach was studied by Shawe-Taylor (2008) "Kernel Learning for Novelty Detection" (NIPS MKL Workshop 2008) and Tomioka & Suzuki (2009) "Sparsity-accuracy trade-off in MKL" (NIPS MKL Workshop 2009).

Definition at line 93 of file MKL.h.

Inheritance diagram for CMKL:
Inheritance graph
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Public Member Functions

 CMKL (CSVM *s=NULL)
virtual ~CMKL ()
void set_constraint_generator (CSVM *s)
void set_svm (CSVM *s)
CSVMget_svm ()
void set_C_mkl (float64_t C)
void set_mkl_norm (float64_t norm)
void set_elasticnet_lambda (float64_t elasticnet_lambda)
void set_mkl_block_norm (float64_t q)
void set_interleaved_optimization_enabled (bool enable)
bool get_interleaved_optimization_enabled ()
float64_t compute_mkl_primal_objective ()
virtual float64_t compute_mkl_dual_objective ()
float64_t compute_elasticnet_dual_objective ()
void set_mkl_epsilon (float64_t eps)
float64_t get_mkl_epsilon ()
int32_t get_mkl_iterations ()
virtual bool perform_mkl_step (const float64_t *sumw, float64_t suma)
virtual float64_t compute_sum_alpha ()=0
virtual void compute_sum_beta (float64_t *sumw)
virtual const char * get_name () const
 MACHINE_PROBLEM_TYPE (PT_BINARY)
void set_defaults (int32_t num_sv=0)
virtual SGVector< float64_tget_linear_term ()
virtual void set_linear_term (const SGVector< float64_t > linear_term)
bool load (FILE *svm_file)
bool save (FILE *svm_file)
void set_nu (float64_t nue)
void set_C (float64_t c_neg, float64_t c_pos)
void set_epsilon (float64_t eps)
void set_tube_epsilon (float64_t eps)
float64_t get_tube_epsilon ()
void set_qpsize (int32_t qps)
float64_t get_epsilon ()
float64_t get_nu ()
float64_t get_C1 ()
float64_t get_C2 ()
int32_t get_qpsize ()
void set_shrinking_enabled (bool enable)
bool get_shrinking_enabled ()
float64_t compute_svm_dual_objective ()
float64_t compute_svm_primal_objective ()
void set_objective (float64_t v)
float64_t get_objective ()
void set_callback_function (CMKL *m, bool(*cb)(CMKL *mkl, const float64_t *sumw, const float64_t suma))
void set_kernel (CKernel *k)
CKernelget_kernel ()
void set_batch_computation_enabled (bool enable)
bool get_batch_computation_enabled ()
void set_linadd_enabled (bool enable)
bool get_linadd_enabled ()
void set_bias_enabled (bool enable_bias)
bool get_bias_enabled ()
float64_t get_bias ()
void set_bias (float64_t bias)
int32_t get_support_vector (int32_t idx)
float64_t get_alpha (int32_t idx)
bool set_support_vector (int32_t idx, int32_t val)
bool set_alpha (int32_t idx, float64_t val)
int32_t get_num_support_vectors ()
void set_alphas (SGVector< float64_t > alphas)
void set_support_vectors (SGVector< int32_t > svs)
SGVector< int32_t > get_support_vectors ()
SGVector< float64_tget_alphas ()
bool create_new_model (int32_t num)
bool init_kernel_optimization ()
virtual CRegressionLabelsapply_regression (CFeatures *data=NULL)
virtual CBinaryLabelsapply_binary (CFeatures *data=NULL)
virtual float64_t apply_one (int32_t num)
virtual bool train_locked (SGVector< index_t > indices)
virtual CBinaryLabelsapply_locked_binary (SGVector< index_t > indices)
virtual CRegressionLabelsapply_locked_regression (SGVector< index_t > indices)
virtual SGVector< float64_tapply_locked_get_output (SGVector< index_t > indices)
virtual void data_lock (CLabels *labs, CFeatures *features=NULL)
virtual void data_unlock ()
virtual bool supports_locking () const
virtual CMachineclone ()
virtual bool train (CFeatures *data=NULL)
virtual CLabelsapply (CFeatures *data=NULL)
virtual CMulticlassLabelsapply_multiclass (CFeatures *data=NULL)
virtual CStructuredLabelsapply_structured (CFeatures *data=NULL)
virtual CLatentLabelsapply_latent (CFeatures *data=NULL)
virtual void set_labels (CLabels *lab)
virtual CLabelsget_labels ()
void set_max_train_time (float64_t t)
float64_t get_max_train_time ()
virtual EMachineType get_classifier_type ()
void set_solver_type (ESolverType st)
ESolverType get_solver_type ()
virtual void set_store_model_features (bool store_model)
virtual CLabelsapply_locked (SGVector< index_t > indices)
virtual CMulticlassLabelsapply_locked_multiclass (SGVector< index_t > indices)
virtual CStructuredLabelsapply_locked_structured (SGVector< index_t > indices)
virtual CLatentLabelsapply_locked_latent (SGVector< index_t > indices)
virtual void post_lock (CLabels *labs, CFeatures *features)
bool is_data_locked () const
virtual EProblemType get_machine_problem_type () const
virtual CSGObjectshallow_copy () const
virtual CSGObjectdeep_copy () const
virtual bool is_generic (EPrimitiveType *generic) const
template<class T >
void set_generic ()
void unset_generic ()
virtual void print_serializable (const char *prefix="")
virtual bool save_serializable (CSerializableFile *file, const char *prefix="", int32_t param_version=VERSION_PARAMETER)
virtual bool load_serializable (CSerializableFile *file, const char *prefix="", int32_t param_version=VERSION_PARAMETER)
DynArray< TParameter * > * load_file_parameters (const SGParamInfo *param_info, int32_t file_version, CSerializableFile *file, const char *prefix="")
DynArray< TParameter * > * load_all_file_parameters (int32_t file_version, int32_t current_version, CSerializableFile *file, const char *prefix="")
void map_parameters (DynArray< TParameter * > *param_base, int32_t &base_version, DynArray< const SGParamInfo * > *target_param_infos)
void set_global_io (SGIO *io)
SGIOget_global_io ()
void set_global_parallel (Parallel *parallel)
Parallelget_global_parallel ()
void set_global_version (Version *version)
Versionget_global_version ()
SGStringList< char > get_modelsel_names ()
void print_modsel_params ()
char * get_modsel_param_descr (const char *param_name)
index_t get_modsel_param_index (const char *param_name)
void build_parameter_dictionary (CMap< TParameter *, CSGObject * > &dict)

Static Public Member Functions

static bool perform_mkl_step_helper (CMKL *mkl, const float64_t *sumw, const float64_t suma)
static void * apply_helper (void *p)

Public Attributes

SGIOio
Parallelparallel
Versionversion
Parameterm_parameters
Parameterm_model_selection_parameters
ParameterMapm_parameter_map
uint32_t m_hash

Protected Member Functions

virtual bool train_machine (CFeatures *data=NULL)
virtual void init_training ()=0
void perform_mkl_step (float64_t *beta, float64_t *old_beta, int num_kernels, int32_t *label, int32_t *active2dnum, float64_t *a, float64_t *lin, float64_t *sumw, int32_t &inner_iters)
float64_t compute_optimal_betas_via_cplex (float64_t *beta, const float64_t *old_beta, int32_t num_kernels, const float64_t *sumw, float64_t suma, int32_t &inner_iters)
float64_t compute_optimal_betas_via_glpk (float64_t *beta, const float64_t *old_beta, int num_kernels, const float64_t *sumw, float64_t suma, int32_t &inner_iters)
float64_t compute_optimal_betas_elasticnet (float64_t *beta, const float64_t *old_beta, const int32_t num_kernels, const float64_t *sumw, const float64_t suma, const float64_t mkl_objective)
void elasticnet_transform (float64_t *beta, float64_t lmd, int32_t len)
void elasticnet_dual (float64_t *ff, float64_t *gg, float64_t *hh, const float64_t &del, const float64_t *nm, int32_t len, const float64_t &lambda)
float64_t compute_optimal_betas_directly (float64_t *beta, const float64_t *old_beta, const int32_t num_kernels, const float64_t *sumw, const float64_t suma, const float64_t mkl_objective)
float64_t compute_optimal_betas_block_norm (float64_t *beta, const float64_t *old_beta, const int32_t num_kernels, const float64_t *sumw, const float64_t suma, const float64_t mkl_objective)
float64_t compute_optimal_betas_newton (float64_t *beta, const float64_t *old_beta, int32_t num_kernels, const float64_t *sumw, float64_t suma, float64_t mkl_objective)
virtual bool converged ()
void init_solver ()
bool init_cplex ()
void set_qnorm_constraints (float64_t *beta, int32_t num_kernels)
bool cleanup_cplex ()
bool init_glpk ()
bool cleanup_glpk ()
bool check_lpx_status (LPX *lp)
virtual float64_tget_linear_term_array ()
SGVector< float64_tapply_get_outputs (CFeatures *data)
virtual void store_model_features ()
virtual bool is_label_valid (CLabels *lab) const
virtual bool train_require_labels () const
virtual TParametermigrate (DynArray< TParameter * > *param_base, const SGParamInfo *target)
virtual void one_to_one_migration_prepare (DynArray< TParameter * > *param_base, const SGParamInfo *target, TParameter *&replacement, TParameter *&to_migrate, char *old_name=NULL)
virtual void load_serializable_pre () throw (ShogunException)
virtual void load_serializable_post () throw (ShogunException)
virtual void save_serializable_pre () throw (ShogunException)
virtual void save_serializable_post () throw (ShogunException)
virtual bool update_parameter_hash ()

Protected Attributes

CSVMsvm
float64_t C_mkl
float64_t mkl_norm
float64_t ent_lambda
float64_t mkl_block_norm
float64_tbeta_local
int32_t mkl_iterations
float64_t mkl_epsilon
bool interleaved_optimization
float64_tW
float64_t w_gap
float64_t rho
CTime training_time_clock
CPXENVptr env
CPXLPptr lp_cplex
LPX * lp_glpk
bool lp_initialized
SGVector< float64_tm_linear_term
bool svm_loaded
float64_t epsilon
float64_t tube_epsilon
float64_t nu
float64_t C1
float64_t C2
float64_t objective
int32_t qpsize
bool use_shrinking
bool(* callback )(CMKL *mkl, const float64_t *sumw, const float64_t suma)
CMKLmkl
CKernelkernel
CCustomKernelm_custom_kernel
CKernelm_kernel_backup
bool use_batch_computation
bool use_linadd
bool use_bias
float64_t m_bias
SGVector< float64_tm_alpha
SGVector< int32_t > m_svs
float64_t m_max_train_time
CLabelsm_labels
ESolverType m_solver_type
bool m_store_model_features
bool m_data_locked

Constructor & Destructor Documentation

CMKL ( CSVM s = NULL)

Constructor

Parameters
sSVM to use as constraint generator in MKL SIP

Definition at line 21 of file MKL.cpp.

~CMKL ( )
virtual

Destructor

Definition at line 39 of file MKL.cpp.

Member Function Documentation

CLabels * apply ( CFeatures data = NULL)
virtualinherited

apply machine to data if data is not specified apply to the current features

Parameters
data(test)data to be classified
Returns
classified labels

Definition at line 162 of file Machine.cpp.

CBinaryLabels * apply_binary ( CFeatures data = NULL)
virtualinherited

apply kernel machine to data for binary classification task

Parameters
data(test)data to be classified
Returns
classified labels

Reimplemented from CMachine.

Reimplemented in CDomainAdaptationSVM.

Definition at line 245 of file KernelMachine.cpp.

SGVector< float64_t > apply_get_outputs ( CFeatures data)
protectedinherited

apply get outputs

Parameters
datafeatures to compute outputs
Returns
outputs

Definition at line 251 of file KernelMachine.cpp.

void * apply_helper ( void *  p)
staticinherited

apply example helper, used in threads

Parameters
pparams of the thread
Returns
nothing really

Definition at line 421 of file KernelMachine.cpp.

CLatentLabels * apply_latent ( CFeatures data = NULL)
virtualinherited

apply machine to data in means of latent problem

Reimplemented in CLinearLatentMachine.

Definition at line 242 of file Machine.cpp.

CLabels * apply_locked ( SGVector< index_t indices)
virtualinherited

Applies a locked machine on a set of indices. Error if machine is not locked

Parameters
indicesindex vector (of locked features) that is predicted

Definition at line 197 of file Machine.cpp.

CBinaryLabels * apply_locked_binary ( SGVector< index_t indices)
virtualinherited

Applies a locked machine on a set of indices. Error if machine is not locked. Binary case

Parameters
indicesindex vector (of locked features) that is predicted
Returns
resulting labels

Reimplemented from CMachine.

Definition at line 515 of file KernelMachine.cpp.

SGVector< float64_t > apply_locked_get_output ( SGVector< index_t indices)
virtualinherited

Applies a locked machine on a set of indices. Error if machine is not locked

Parameters
indicesindex vector (of locked features) that is predicted
Returns
raw output of machine

Definition at line 528 of file KernelMachine.cpp.

CLatentLabels * apply_locked_latent ( SGVector< index_t indices)
virtualinherited

applies a locked machine on a set of indices for latent problems

Definition at line 276 of file Machine.cpp.

CMulticlassLabels * apply_locked_multiclass ( SGVector< index_t indices)
virtualinherited

applies a locked machine on a set of indices for multiclass problems

Definition at line 262 of file Machine.cpp.

CRegressionLabels * apply_locked_regression ( SGVector< index_t indices)
virtualinherited

Applies a locked machine on a set of indices. Error if machine is not locked. Binary case

Parameters
indicesindex vector (of locked features) that is predicted
Returns
resulting labels

Reimplemented from CMachine.

Definition at line 521 of file KernelMachine.cpp.

CStructuredLabels * apply_locked_structured ( SGVector< index_t indices)
virtualinherited

applies a locked machine on a set of indices for structured problems

Definition at line 269 of file Machine.cpp.

CMulticlassLabels * apply_multiclass ( CFeatures data = NULL)
virtualinherited

apply machine to data in means of multiclass classification problem

Reimplemented in CDistanceMachine, CMulticlassMachine, CKNN, CVwConditionalProbabilityTree, CGaussianNaiveBayes, CConjugateIndex, CConditionalProbabilityTree, CQDA, and CRelaxedTree.

Definition at line 230 of file Machine.cpp.

float64_t apply_one ( int32_t  num)
virtualinherited

apply kernel machine to one example

Parameters
numwhich example to apply to
Returns
classified value

Reimplemented from CMachine.

Definition at line 402 of file KernelMachine.cpp.

CRegressionLabels * apply_regression ( CFeatures data = NULL)
virtualinherited

apply kernel machine to data for regression task

Parameters
data(test)data to be classified
Returns
classified labels

Reimplemented from CMachine.

Definition at line 239 of file KernelMachine.cpp.

CStructuredLabels * apply_structured ( CFeatures data = NULL)
virtualinherited

apply machine to data in means of SO classification problem

Reimplemented in CLinearStructuredOutputMachine.

Definition at line 236 of file Machine.cpp.

void build_parameter_dictionary ( CMap< TParameter *, CSGObject * > &  dict)
inherited

Builds a dictionary of all parameters in SGObject as well of those of SGObjects that are parameters of this object. Dictionary maps parameters to the objects that own them.

Parameters
dictdictionary of parameters to be built.

Definition at line 1204 of file SGObject.cpp.

bool check_lpx_status ( LPX *  lp)
protected

check glpk error status

Returns
if in good status

Definition at line 173 of file MKL.cpp.

bool cleanup_cplex ( )
protected

cleanup cplex

Returns
if cleanup was successful

Definition at line 117 of file MKL.cpp.

bool cleanup_glpk ( )
protected

cleanup glpk

Returns
if cleanup was successful

Definition at line 164 of file MKL.cpp.

virtual CMachine* clone ( )
virtualinherited

clone

Reimplemented from CMachine.

Definition at line 288 of file KernelMachine.h.

float64_t compute_elasticnet_dual_objective ( )

compute ElasticnetMKL dual objective

Returns
computed dual objective

Definition at line 583 of file MKL.cpp.

float64_t compute_mkl_dual_objective ( )
virtual

compute mkl dual objective

Returns
computed dual objective

Reimplemented in CMKLRegression.

Definition at line 1517 of file MKL.cpp.

float64_t compute_mkl_primal_objective ( )

compute mkl primal objective

Returns
computed mkl primal objective

Definition at line 185 of file MKL.h.

float64_t compute_optimal_betas_block_norm ( float64_t beta,
const float64_t old_beta,
const int32_t  num_kernels,
const float64_t sumw,
const float64_t  suma,
const float64_t  mkl_objective 
)
protected

given the alphas, compute the corresponding optimal betas

Parameters
betanew betas (kernel weights)
old_betaold betas (previous kernel weights)
num_kernelsnumber of kernels
sumw1/2*alpha'*K_j*alpha for each kernel j
suma(sum over alphas)
mkl_objectivethe current mkl objective
Returns
new objective value

Definition at line 658 of file MKL.cpp.

float64_t compute_optimal_betas_directly ( float64_t beta,
const float64_t old_beta,
const int32_t  num_kernels,
const float64_t sumw,
const float64_t  suma,
const float64_t  mkl_objective 
)
protected

given the alphas, compute the corresponding optimal betas

Parameters
betanew betas (kernel weights)
old_betaold betas (previous kernel weights)
num_kernelsnumber of kernels
sumw1/2*alpha'*K_j*alpha for each kernel j
suma(sum over alphas)
mkl_objectivethe current mkl objective
Returns
new objective value

Definition at line 694 of file MKL.cpp.

float64_t compute_optimal_betas_elasticnet ( float64_t beta,
const float64_t old_beta,
const int32_t  num_kernels,
const float64_t sumw,
const float64_t  suma,
const float64_t  mkl_objective 
)
protected

given the alphas, compute the corresponding optimal betas

Parameters
betanew betas (kernel weights)
old_betaold betas (previous kernel weights)
num_kernelsnumber of kernels
sumw1/2*alpha'*K_j*alpha for each kernel j
suma(sum over alphas)
mkl_objectivethe current mkl objective
Returns
new objective value

Definition at line 464 of file MKL.cpp.

float64_t compute_optimal_betas_newton ( float64_t beta,
const float64_t old_beta,
int32_t  num_kernels,
const float64_t sumw,
float64_t  suma,
float64_t  mkl_objective 
)
protected

given the alphas, compute the corresponding optimal betas

Parameters
betanew betas (kernel weights)
old_betaold betas (previous kernel weights)
num_kernelsnumber of kernels
sumw1/2*alpha'*K_j*alpha for each kernel j
suma(sum over alphas)
mkl_objectivethe current mkl objective
Returns
new objective value

Definition at line 783 of file MKL.cpp.

float64_t compute_optimal_betas_via_cplex ( float64_t beta,
const float64_t old_beta,
int32_t  num_kernels,
const float64_t sumw,
float64_t  suma,
int32_t &  inner_iters 
)
protected

given the alphas, compute the corresponding optimal betas using a lp for 1-norm mkl, a qcqp for 2-norm mkl and an iterated qcqp for general q-norm mkl.

Parameters
betanew betas (kernel weights)
old_betaold betas (previous kernel weights)
num_kernelsnumber of kernels
sumw1/2*alpha'*K_j*alpha for each kernel j
suma(sum over alphas)
inner_itersnumber of internal iterations (for statistics)
Returns
new objective value

Definition at line 975 of file MKL.cpp.

float64_t compute_optimal_betas_via_glpk ( float64_t beta,
const float64_t old_beta,
int  num_kernels,
const float64_t sumw,
float64_t  suma,
int32_t &  inner_iters 
)
protected

given the alphas, compute the corresponding optimal betas using a lp for 1-norm mkl

Parameters
betanew betas (kernel weights)
old_betaold betas (previous kernel weights)
num_kernelsnumber of kernels
sumw1/2*alpha'*K_j*alpha for each kernel j
suma(sum over alphas)
inner_itersnumber of internal iterations (for statistics)
Returns
new objective value

Definition at line 1318 of file MKL.cpp.

virtual float64_t compute_sum_alpha ( )
pure virtual

compute beta independent term from objective, e.g., in 2-class MKL sum_i alpha_i etc

Implemented in CMKLRegression, CMKLClassification, and CMKLOneClass.

void compute_sum_beta ( float64_t sumw)
virtual

compute 1/2*alpha'*K_j*alpha for each kernel j (beta dependent term from objective)

Parameters
sumwvector of size num_kernels to hold the result

Definition at line 1472 of file MKL.cpp.

float64_t compute_svm_dual_objective ( )
inherited

compute svm dual objective

Returns
computed dual objective

Definition at line 242 of file SVM.cpp.

float64_t compute_svm_primal_objective ( )
inherited

compute svm primal objective

Returns
computed svm primal objective

Definition at line 267 of file SVM.cpp.

virtual bool converged ( )
protectedvirtual

check if mkl converged, i.e. 'gap' is below epsilon

Returns
whether mkl converged

Definition at line 402 of file MKL.h.

bool create_new_model ( int32_t  num)
inherited

create new model

Parameters
numnumber of alphas and support vectors in new model

Definition at line 191 of file KernelMachine.cpp.

void data_lock ( CLabels labs,
CFeatures features = NULL 
)
virtualinherited

Locks the machine on given labels and data. After this call, only train_locked and apply_locked may be called.

Computes kernel matrix to speed up train/apply calls

Parameters
labslabels used for locking
featuresfeatures used for locking

Reimplemented from CMachine.

Definition at line 620 of file KernelMachine.cpp.

void data_unlock ( )
virtualinherited

Unlocks a locked machine and restores previous state

Reimplemented from CMachine.

Definition at line 649 of file KernelMachine.cpp.

virtual CSGObject* deep_copy ( ) const
virtualinherited

A deep copy. All the instance variables will also be copied.

Definition at line 131 of file SGObject.h.

void elasticnet_dual ( float64_t ff,
float64_t gg,
float64_t hh,
const float64_t del,
const float64_t nm,
int32_t  len,
const float64_t lambda 
)
protected

helper function to compute the elastic-net objective

Definition at line 556 of file MKL.cpp.

void elasticnet_transform ( float64_t beta,
float64_t  lmd,
int32_t  len 
)
protected

helper function to compute the elastic-net sub-kernel weights

Definition at line 343 of file MKL.h.

float64_t get_alpha ( int32_t  idx)
inherited

get alpha at given index

Parameters
idxindex of alpha
Returns
alpha

Definition at line 137 of file KernelMachine.cpp.

SGVector< float64_t > get_alphas ( )
inherited
Returns
vector of alphas

Definition at line 186 of file KernelMachine.cpp.

bool get_batch_computation_enabled ( )
inherited

check if batch computation is enabled

Returns
if batch computation is enabled

Definition at line 96 of file KernelMachine.cpp.

float64_t get_bias ( )
inherited

get bias

Returns
bias

Definition at line 121 of file KernelMachine.cpp.

bool get_bias_enabled ( )
inherited

get state of bias

Returns
state of bias

Definition at line 116 of file KernelMachine.cpp.

float64_t get_C1 ( )
inherited

get C1

Returns
C1

Definition at line 159 of file SVM.h.

float64_t get_C2 ( )
inherited

get C2

Returns
C2

Definition at line 165 of file SVM.h.

EMachineType get_classifier_type ( )
virtualinherited
float64_t get_epsilon ( )
inherited

get epsilon

Returns
epsilon

Definition at line 147 of file SVM.h.

SGIO * get_global_io ( )
inherited

get the io object

Returns
io object

Definition at line 224 of file SGObject.cpp.

Parallel * get_global_parallel ( )
inherited

get the parallel object

Returns
parallel object

Definition at line 259 of file SGObject.cpp.

Version * get_global_version ( )
inherited

get the version object

Returns
version object

Definition at line 272 of file SGObject.cpp.

bool get_interleaved_optimization_enabled ( )

get state of optimization (interleaved or wrapper)

Returns
true if interleaved optimization is used; wrapper otherwise

Definition at line 176 of file MKL.h.

CKernel * get_kernel ( )
inherited

get kernel

Returns
kernel

Definition at line 85 of file KernelMachine.cpp.

CLabels * get_labels ( )
virtualinherited

get labels

Returns
labels

Definition at line 86 of file Machine.cpp.

bool get_linadd_enabled ( )
inherited

check if linadd is enabled

Returns
if linadd is enabled

Definition at line 106 of file KernelMachine.cpp.

SGVector< float64_t > get_linear_term ( )
virtualinherited

get linear term

Returns
the linear term

Definition at line 332 of file SVM.cpp.

float64_t * get_linear_term_array ( )
protectedvirtualinherited

get linear term copy as dynamic array

Returns
linear term copied to a dynamic array

Definition at line 302 of file SVM.cpp.

virtual EProblemType get_machine_problem_type ( ) const
virtualinherited

returns type of problem machine solves

Reimplemented in CBaseMulticlassMachine.

Definition at line 287 of file Machine.h.

float64_t get_max_train_time ( )
inherited

get maximum training time

Returns
maximum training time

Definition at line 97 of file Machine.cpp.

float64_t get_mkl_epsilon ( )

get mkl epsilon for weights (optimization accuracy for kernel weights)

Returns
epsilon for weights

Definition at line 213 of file MKL.h.

int32_t get_mkl_iterations ( )

get number of MKL iterations

Returns
mkl_iterations

Definition at line 219 of file MKL.h.

SGStringList< char > get_modelsel_names ( )
inherited
Returns
vector of names of all parameters which are registered for model selection

Definition at line 1108 of file SGObject.cpp.

char * get_modsel_param_descr ( const char *  param_name)
inherited

Returns description of a given parameter string, if it exists. SG_ERROR otherwise

Parameters
param_namename of the parameter
Returns
description of the parameter

Definition at line 1132 of file SGObject.cpp.

index_t get_modsel_param_index ( const char *  param_name)
inherited

Returns index of model selection parameter with provided index

Parameters
param_namename of model selection parameter
Returns
index of model selection parameter with provided name, -1 if there is no such

Definition at line 1145 of file SGObject.cpp.

virtual const char* get_name ( ) const
virtual
Returns
object name

Reimplemented from CSVM.

Definition at line 258 of file MKL.h.

float64_t get_nu ( )
inherited

get nu

Returns
nu

Definition at line 153 of file SVM.h.

int32_t get_num_support_vectors ( )
inherited

get number of support vectors

Returns
number of support vectors

Definition at line 166 of file KernelMachine.cpp.

float64_t get_objective ( )
inherited

get objective

Returns
objective

Definition at line 216 of file SVM.h.

int32_t get_qpsize ( )
inherited

get qpsize

Returns
qpsize

Definition at line 171 of file SVM.h.

bool get_shrinking_enabled ( )
inherited

get state of shrinking

Returns
if shrinking is enabled

Definition at line 186 of file SVM.h.

ESolverType get_solver_type ( )
inherited

get solver type

Returns
solver

Definition at line 112 of file Machine.cpp.

int32_t get_support_vector ( int32_t  idx)
inherited

get support vector at given index

Parameters
idxindex of support vector
Returns
support vector

Definition at line 131 of file KernelMachine.cpp.

SGVector< int32_t > get_support_vectors ( )
inherited
Returns
all support vectors

Definition at line 181 of file KernelMachine.cpp.

CSVM* get_svm ( )

get SVM that is used as constraint generator in MKL SIP

Returns
svm

Definition at line 130 of file MKL.h.

float64_t get_tube_epsilon ( )
inherited

get tube epsilon

Returns
tube epsilon

Definition at line 135 of file SVM.h.

bool init_cplex ( )
protected

init cplex

Returns
if init was successful

Definition at line 68 of file MKL.cpp.

bool init_glpk ( )
protected

init glpk

Returns
if init was successful

Definition at line 153 of file MKL.cpp.

bool init_kernel_optimization ( )
inherited

initialise kernel optimisation

Returns
if operation was successful

Definition at line 208 of file KernelMachine.cpp.

void init_solver ( )
protected

initialize solver such as glpk or cplex

Definition at line 50 of file MKL.cpp.

virtual void init_training ( )
protectedpure virtual

check run before starting training (to e.g. check if labeling is two-class labeling in classification case

Implemented in CMKLRegression, CMKLClassification, and CMKLOneClass.

bool is_data_locked ( ) const
inherited
Returns
whether this machine is locked

Definition at line 284 of file Machine.h.

bool is_generic ( EPrimitiveType *  generic) const
virtualinherited

If the SGSerializable is a class template then TRUE will be returned and GENERIC is set to the type of the generic.

Parameters
genericset to the type of the generic if returning TRUE
Returns
TRUE if a class template.

Definition at line 278 of file SGObject.cpp.

virtual bool is_label_valid ( CLabels lab) const
protectedvirtualinherited

check whether the labels is valid.

Subclasses can override this to implement their check of label types.

Parameters
labthe labels being checked, guaranteed to be non-NULL

Reimplemented in CBaseMulticlassMachine.

Definition at line 343 of file Machine.h.

bool load ( FILE *  svm_file)
inherited

load a SVM from file

Parameters
svm_filethe file handle

Definition at line 90 of file SVM.cpp.

DynArray< TParameter * > * load_all_file_parameters ( int32_t  file_version,
int32_t  current_version,
CSerializableFile file,
const char *  prefix = "" 
)
inherited

maps all parameters of this instance to the provided file version and loads all parameter data from the file into an array, which is sorted (basically calls load_file_parameter(...) for all parameters and puts all results into a sorted array)

Parameters
file_versionparameter version of the file
current_versionversion from which mapping begins (you want to use VERSION_PARAMETER for this in most cases)
filefile to load from
prefixprefix for members
Returns
(sorted) array of created TParameter instances with file data

Definition at line 679 of file SGObject.cpp.

DynArray< TParameter * > * load_file_parameters ( const SGParamInfo param_info,
int32_t  file_version,
CSerializableFile file,
const char *  prefix = "" 
)
inherited

loads some specified parameters from a file with a specified version The provided parameter info has a version which is recursively mapped until the file parameter version is reached. Note that there may be possibly multiple parameters in the mapping, therefore, a set of TParameter instances is returned

Parameters
param_infoinformation of parameter
file_versionparameter version of the file, must be <= provided parameter version
filefile to load from
prefixprefix for members
Returns
new array with TParameter instances with the attached data

Definition at line 523 of file SGObject.cpp.

bool load_serializable ( CSerializableFile file,
const char *  prefix = "",
int32_t  param_version = VERSION_PARAMETER 
)
virtualinherited

Load this object from file. If it will fail (returning FALSE) then this object will contain inconsistent data and should not be used!

Parameters
filewhere to load from
prefixprefix for members
param_version(optional) a parameter version different to (this is mainly for testing, better do not use)
Returns
TRUE if done, otherwise FALSE

Reimplemented in CModelSelectionParameters.

Definition at line 354 of file SGObject.cpp.

void load_serializable_post ( ) throw (ShogunException)
protectedvirtualinherited

Can (optionally) be overridden to post-initialize some member variables which are not PARAMETER::ADD'ed. Make sure that at first the overridden method BASE_CLASS::LOAD_SERIALIZABLE_POST is called.

Exceptions
ShogunExceptionWill be thrown if an error occurres.

Reimplemented in CKernel, CWeightedDegreePositionStringKernel, CList, CAlphabet, CLinearHMM, CGaussianKernel, CANOVAKernel, CInverseMultiQuadricKernel, CCircularKernel, and CExponentialKernel.

Definition at line 1033 of file SGObject.cpp.

void load_serializable_pre ( ) throw (ShogunException)
protectedvirtualinherited

Can (optionally) be overridden to pre-initialize some member variables which are not PARAMETER::ADD'ed. Make sure that at first the overridden method BASE_CLASS::LOAD_SERIALIZABLE_PRE is called.

Exceptions
ShogunExceptionWill be thrown if an error occurres.

Definition at line 1028 of file SGObject.cpp.

MACHINE_PROBLEM_TYPE ( PT_BINARY  )
inherited

problem type

void map_parameters ( DynArray< TParameter * > *  param_base,
int32_t &  base_version,
DynArray< const SGParamInfo * > *  target_param_infos 
)
inherited

Takes a set of TParameter instances (base) with a certain version and a set of target parameter infos and recursively maps the base level wise to the current version using CSGObject::migrate(...). The base is replaced. After this call, the base version containing parameters should be of same version/type as the initial target parameter infos. Note for this to work, the migrate methods and all the internal parameter mappings have to match

Parameters
param_baseset of TParameter instances that are mapped to the provided target parameter infos
base_versionversion of the parameter base
target_param_infosset of SGParamInfo instances that specify the target parameter base

Definition at line 717 of file SGObject.cpp.

TParameter * migrate ( DynArray< TParameter * > *  param_base,
const SGParamInfo target 
)
protectedvirtualinherited

creates a new TParameter instance, which contains migrated data from the version that is provided. The provided parameter data base is used for migration, this base is a collection of all parameter data of the previous version. Migration is done FROM the data in param_base TO the provided param info Migration is always one version step. Method has to be implemented in subclasses, if no match is found, base method has to be called.

If there is an element in the param_base which equals the target, a copy of the element is returned. This represents the case when nothing has changed and therefore, the migrate method is not overloaded in a subclass

Parameters
param_baseset of TParameter instances to use for migration
targetparameter info for the resulting TParameter
Returns
a new TParameter instance with migrated data from the base of the type which is specified by the target parameter

Definition at line 923 of file SGObject.cpp.

void one_to_one_migration_prepare ( DynArray< TParameter * > *  param_base,
const SGParamInfo target,
TParameter *&  replacement,
TParameter *&  to_migrate,
char *  old_name = NULL 
)
protectedvirtualinherited

This method prepares everything for a one-to-one parameter migration. One to one here means that only ONE element of the parameter base is needed for the migration (the one with the same name as the target). Data is allocated for the target (in the type as provided in the target SGParamInfo), and a corresponding new TParameter instance is written to replacement. The to_migrate pointer points to the single needed TParameter instance needed for migration. If a name change happened, the old name may be specified by old_name. In addition, the m_delete_data flag of to_migrate is set to true. So if you want to migrate data, the only thing to do after this call is converting the data in the m_parameter fields. If unsure how to use - have a look into an example for this. (base_migration_type_conversion.cpp for example)

Parameters
param_baseset of TParameter instances to use for migration
targetparameter info for the resulting TParameter
replacement(used as output) here the TParameter instance which is returned by migration is created into
to_migratethe only source that is used for migration
old_namewith this parameter, a name change may be specified

Definition at line 864 of file SGObject.cpp.

bool perform_mkl_step ( const float64_t sumw,
float64_t  suma 
)
virtual

perform single mkl iteration

given sum of alphas, objectives for current alphas for each kernel and current kernel weighting compute the corresponding optimal kernel weighting (all via get/set_subkernel_weights in CCombinedKernel)

Parameters
sumwvector of 1/2*alpha'*K_j*alpha for each kernel j
sumascalar sum_i alpha_i etc.

Definition at line 397 of file MKL.cpp.

void perform_mkl_step ( float64_t beta,
float64_t old_beta,
int  num_kernels,
int32_t *  label,
int32_t *  active2dnum,
float64_t a,
float64_t lin,
float64_t sumw,
int32_t &  inner_iters 
)
protected

perform single mkl iteration

given the alphas, compute the corresponding optimal betas

Parameters
betanew betas (kernel weights)
old_betaold betas (previous kernel weights)
num_kernelsnumber of kernels
label(from svmlight label)
active2dnum(from svmlight active2dnum)
a(from svmlight alphas)
lin(from svmlight linear components)
sumw1/2*alpha'*K_j*alpha for each kernel j
inner_itersnumber of required internal iterations
static bool perform_mkl_step_helper ( CMKL mkl,
const float64_t sumw,
const float64_t  suma 
)
static

callback helper function calling perform_mkl_step

Parameters
mklMKL object
sumwvector of 1/2*alpha'*K_j*alpha for each kernel j
sumascalar sum_i alpha_i etc.

Definition at line 239 of file MKL.h.

virtual void post_lock ( CLabels labs,
CFeatures features 
)
virtualinherited

post lock

Reimplemented in CMultitaskLinearMachine, and CMultitaskCompositeMachine.

Definition at line 275 of file Machine.h.

void print_modsel_params ( )
inherited

prints all parameter registered for model selection and their type

Definition at line 1084 of file SGObject.cpp.

void print_serializable ( const char *  prefix = "")
virtualinherited

prints registered parameters out

Parameters
prefixprefix for members

Definition at line 290 of file SGObject.cpp.

bool save ( FILE *  svm_file)
inherited

write a SVM to a file

Parameters
svm_filethe file handle

Definition at line 206 of file SVM.cpp.

bool save_serializable ( CSerializableFile file,
const char *  prefix = "",
int32_t  param_version = VERSION_PARAMETER 
)
virtualinherited

Save this object to file.

Parameters
filewhere to save the object; will be closed during returning if PREFIX is an empty string.
prefixprefix for members
param_version(optional) a parameter version different to (this is mainly for testing, better do not use)
Returns
TRUE if done, otherwise FALSE

Reimplemented in CModelSelectionParameters.

Definition at line 296 of file SGObject.cpp.

void save_serializable_post ( ) throw (ShogunException)
protectedvirtualinherited

Can (optionally) be overridden to post-initialize some member variables which are not PARAMETER::ADD'ed. Make sure that at first the overridden method BASE_CLASS::SAVE_SERIALIZABLE_POST is called.

Exceptions
ShogunExceptionWill be thrown if an error occurres.

Reimplemented in CKernel.

Definition at line 1043 of file SGObject.cpp.

void save_serializable_pre ( ) throw (ShogunException)
protectedvirtualinherited

Can (optionally) be overridden to pre-initialize some member variables which are not PARAMETER::ADD'ed. Make sure that at first the overridden method BASE_CLASS::SAVE_SERIALIZABLE_PRE is called.

Exceptions
ShogunExceptionWill be thrown if an error occurres.

Reimplemented in CKernel.

Definition at line 1038 of file SGObject.cpp.

bool set_alpha ( int32_t  idx,
float64_t  val 
)
inherited

set alpha at given index to given value

Parameters
idxindex of alpha vector
valnew value of alpha vector
Returns
if operation was successful

Definition at line 156 of file KernelMachine.cpp.

void set_alphas ( SGVector< float64_t alphas)
inherited

set alphas to given values

Parameters
alphasfloat vector with all alphas to set

Definition at line 171 of file KernelMachine.cpp.

void set_batch_computation_enabled ( bool  enable)
inherited

set batch computation enabled

Parameters
enableif batch computation shall be enabled

Definition at line 91 of file KernelMachine.cpp.

void set_bias ( float64_t  bias)
inherited

set bias to given value

Parameters
biasnew bias

Definition at line 126 of file KernelMachine.cpp.

void set_bias_enabled ( bool  enable_bias)
inherited

set state of bias

Parameters
enable_biasif bias shall be enabled

Definition at line 111 of file KernelMachine.cpp.

void set_C ( float64_t  c_neg,
float64_t  c_pos 
)
inherited

set C

Parameters
c_negnew C constant for negatively labeled examples
c_posnew C constant for positively labeled examples

Note that not all SVMs support this (however at least CLibSVM and CSVMLight do)

Definition at line 116 of file SVM.h.

void set_C_mkl ( float64_t  C)

set C mkl

Parameters
Cnew C_mkl

Definition at line 140 of file MKL.h.

void set_callback_function ( CMKL m,
bool(*)(CMKL *mkl, const float64_t *sumw, const float64_t suma)  cb 
)
inherited

set callback function svm optimizers may call when they have a new (small) set of alphas

Parameters
mpointer to mkl object
cbcallback function

Definition at line 232 of file SVM.cpp.

void set_constraint_generator ( CSVM s)

SVM to use as constraint generator in MKL SIP

Parameters
ssvm

Definition at line 110 of file MKL.h.

void set_defaults ( int32_t  num_sv = 0)
inherited

set default values for members a SVM object

Definition at line 48 of file SVM.cpp.

void set_elasticnet_lambda ( float64_t  elasticnet_lambda)

set elasticnet lambda

Parameters
elasticnet_lambdanew elastic net lambda (must be 0<=lambda<=1) lambda=0: L1-MKL lambda=1: Linfinity-MKL

Definition at line 376 of file MKL.cpp.

void set_epsilon ( float64_t  eps)
inherited

set epsilon

Parameters
epsnew epsilon

Definition at line 123 of file SVM.h.

void set_generic< floatmax_t > ( )
inherited

set generic type to T

Definition at line 41 of file SGObject.cpp.

void set_global_io ( SGIO io)
inherited

set the io object

Parameters
ioio object to use

Definition at line 217 of file SGObject.cpp.

void set_global_parallel ( Parallel parallel)
inherited

set the parallel object

Parameters
parallelparallel object to use

Definition at line 230 of file SGObject.cpp.

void set_global_version ( Version version)
inherited

set the version object

Parameters
versionversion object to use

Definition at line 265 of file SGObject.cpp.

void set_interleaved_optimization_enabled ( bool  enable)

set state of optimization (interleaved or wrapper)

Parameters
enableif true interleaved optimization is used; wrapper otherwise

Definition at line 167 of file MKL.h.

void set_kernel ( CKernel k)
inherited

set kernel

Parameters
kkernel

Definition at line 78 of file KernelMachine.cpp.

void set_labels ( CLabels lab)
virtualinherited

set labels

Parameters
lablabels

Reimplemented in CRelaxedTree, and CMulticlassMachine.

Definition at line 75 of file Machine.cpp.

void set_linadd_enabled ( bool  enable)
inherited

set linadd enabled

Parameters
enableif linadd shall be enabled

Definition at line 101 of file KernelMachine.cpp.

void set_linear_term ( const SGVector< float64_t linear_term)
virtualinherited

set linear term of the QP

Parameters
linear_termthe linear term

Definition at line 314 of file SVM.cpp.

void set_max_train_time ( float64_t  t)
inherited

set maximum training time

Parameters
tmaximimum training time

Definition at line 92 of file Machine.cpp.

void set_mkl_block_norm ( float64_t  q)

set block norm q (used in block norm mkl)

Parameters
qmixed norm (1<=q<=inf)

Definition at line 389 of file MKL.cpp.

void set_mkl_epsilon ( float64_t  eps)

set mkl epsilon (optimization accuracy for kernel weights)

Parameters
epsnew weight_epsilon

Definition at line 207 of file MKL.h.

void set_mkl_norm ( float64_t  norm)

set mkl norm

Parameters
normnew mkl norm (must be greater equal 1)

Definition at line 367 of file MKL.cpp.

void set_nu ( float64_t  nue)
inherited

set nu

Parameters
nuenew nu

Definition at line 105 of file SVM.h.

void set_objective ( float64_t  v)
inherited

set objective

Parameters
vobjective

Definition at line 207 of file SVM.h.

void set_qnorm_constraints ( float64_t beta,
int32_t  num_kernels 
)
protected

set qnorm mkl constraints

Definition at line 1568 of file MKL.cpp.

void set_qpsize ( int32_t  qps)
inherited

set qpsize

Parameters
qpsnew qpsize

Definition at line 141 of file SVM.h.

void set_shrinking_enabled ( bool  enable)
inherited

set state of shrinking

Parameters
enableif shrinking will be enabled

Definition at line 177 of file SVM.h.

void set_solver_type ( ESolverType  st)
inherited

set solver type

Parameters
stsolver type

Definition at line 107 of file Machine.cpp.

void set_store_model_features ( bool  store_model)
virtualinherited

Setter for store-model-features-after-training flag

Parameters
store_modelwhether model should be stored after training

Definition at line 117 of file Machine.cpp.

bool set_support_vector ( int32_t  idx,
int32_t  val 
)
inherited

set support vector at given index to given value

Parameters
idxindex of support vector
valnew value of support vector
Returns
if operation was successful

Definition at line 146 of file KernelMachine.cpp.

void set_support_vectors ( SGVector< int32_t >  svs)
inherited

set support vectors to given values

Parameters
svsinteger vector with all support vectors indexes to set

Definition at line 176 of file KernelMachine.cpp.

void set_svm ( CSVM s)

SVM to use as constraint generator in MKL SIP

Parameters
ssvm

Definition at line 119 of file MKL.h.

void set_tube_epsilon ( float64_t  eps)
inherited

set tube epsilon

Parameters
epsnew tube epsilon

Definition at line 129 of file SVM.h.

virtual CSGObject* shallow_copy ( ) const
virtualinherited

A shallow copy. All the SGObject instance variables will be simply assigned and SG_REF-ed.

Reimplemented in CGaussianKernel.

Definition at line 122 of file SGObject.h.

void store_model_features ( )
protectedvirtualinherited

Stores feature data of the SV indices and sets it to the lhs of the underlying kernel. Then, all SV indices are set to identity.

May be overwritten by subclasses in case the model should be stored differently.

Reimplemented from CMachine.

Definition at line 450 of file KernelMachine.cpp.

virtual bool supports_locking ( ) const
virtualinherited
Returns
whether machine supports locking

Reimplemented from CMachine.

Definition at line 285 of file KernelMachine.h.

bool train ( CFeatures data = NULL)
virtualinherited

train machine

Parameters
datatraining data (parameter can be avoided if distance or kernel-based classifiers are used and distance/kernels are initialized with train data). If flag is set, model features will be stored after training.
Returns
whether training was successful

Reimplemented in CRelaxedTree, CSGDQN, and COnlineSVMSGD.

Definition at line 49 of file Machine.cpp.

bool train_locked ( SGVector< index_t indices)
virtualinherited

Trains a locked machine on a set of indices. Error if machine is not locked

Parameters
indicesindex vector (of locked features) that is used for training
Returns
whether training was successful

Reimplemented from CMachine.

Definition at line 479 of file KernelMachine.cpp.

bool train_machine ( CFeatures data = NULL)
protectedvirtual

train MKL classifier

Parameters
datatraining data (parameter can be avoided if distance or kernel-based classifiers are used and distance/kernels are initialized with train data)
Returns
whether training was successful

Reimplemented from CMachine.

Definition at line 191 of file MKL.cpp.

virtual bool train_require_labels ( ) const
protectedvirtualinherited

returns whether machine require labels for training

Reimplemented in COnlineLinearMachine, CKMeans, CHierarchical, CLinearLatentMachine, CVwConditionalProbabilityTree, CConditionalProbabilityTree, and CLibSVMOneClass.

Definition at line 349 of file Machine.h.

void unset_generic ( )
inherited

unset generic type

this has to be called in classes specializing a template class

Definition at line 285 of file SGObject.cpp.

bool update_parameter_hash ( )
protectedvirtualinherited

Updates the hash of current parameter combination.

Returns
bool if parameter combination has changed since last update.

Definition at line 237 of file SGObject.cpp.

Member Data Documentation

float64_t* beta_local
protected

sub-kernel weights on the L1-term of ElasticnetMKL

Definition at line 466 of file MKL.h.

float64_t C1
protectedinherited

C1 regularization const

Definition at line 255 of file SVM.h.

float64_t C2
protectedinherited

C2

Definition at line 257 of file SVM.h.

float64_t C_mkl
protected

C_mkl

Definition at line 451 of file MKL.h.

bool(* callback)(CMKL *mkl, const float64_t *sumw, const float64_t suma)
protectedinherited

callback function svm optimizers may call when they have a new (small) set of alphas

Definition at line 267 of file SVM.h.

float64_t ent_lambda
protected

Sparsity trade-off parameter used in ElasticnetMKL must be 0<=lambda<=1 lambda=0: L1-MKL lambda=1: Linfinity-MKL

Definition at line 459 of file MKL.h.

CPXENVptr env
protected

env

Definition at line 487 of file MKL.h.

float64_t epsilon
protectedinherited

epsilon

Definition at line 249 of file SVM.h.

bool interleaved_optimization
protected

whether to use mkl wrapper or interleaved opt.

Definition at line 472 of file MKL.h.

SGIO* io
inherited

io

Definition at line 462 of file SGObject.h.

CKernel* kernel
protectedinherited

kernel

Definition at line 316 of file KernelMachine.h.

CPXLPptr lp_cplex
protected

lp

Definition at line 489 of file MKL.h.

LPX* lp_glpk
protected

lp

Definition at line 494 of file MKL.h.

bool lp_initialized
protected

if lp is initialized

Definition at line 497 of file MKL.h.

SGVector<float64_t> m_alpha
protectedinherited

coefficients alpha

Definition at line 337 of file KernelMachine.h.

float64_t m_bias
protectedinherited

bias term b

Definition at line 334 of file KernelMachine.h.

CCustomKernel* m_custom_kernel
protectedinherited

is filled with pre-computed custom kernel on data lock

Definition at line 319 of file KernelMachine.h.

bool m_data_locked
protectedinherited

whether data is locked

Definition at line 365 of file Machine.h.

uint32_t m_hash
inherited

Hash of parameter values

Definition at line 480 of file SGObject.h.

CKernel* m_kernel_backup
protectedinherited

old kernel is stored here on data lock

Definition at line 322 of file KernelMachine.h.

CLabels* m_labels
protectedinherited

labels

Definition at line 356 of file Machine.h.

SGVector<float64_t> m_linear_term
protectedinherited

linear term in qp

Definition at line 244 of file SVM.h.

float64_t m_max_train_time
protectedinherited

maximum training time

Definition at line 353 of file Machine.h.

Parameter* m_model_selection_parameters
inherited

model selection parameters

Definition at line 474 of file SGObject.h.

ParameterMap* m_parameter_map
inherited

map for different parameter versions

Definition at line 477 of file SGObject.h.

Parameter* m_parameters
inherited

parameters

Definition at line 471 of file SGObject.h.

ESolverType m_solver_type
protectedinherited

solver type

Definition at line 359 of file Machine.h.

bool m_store_model_features
protectedinherited

whether model features should be stored after training

Definition at line 362 of file Machine.h.

SGVector<int32_t> m_svs
protectedinherited

array of ``support vectors'' (indices of feature objects)

Definition at line 340 of file KernelMachine.h.

CMKL* mkl
protectedinherited

mkl object that svm optimizers need to pass when calling the callback function

Definition at line 270 of file SVM.h.

float64_t mkl_block_norm
protected

Sparsity trade-off parameter used in block norm MKL should be 1 <= mkl_block_norm <= inf

Definition at line 463 of file MKL.h.

float64_t mkl_epsilon
protected

mkl_epsilon for multiple kernel learning

Definition at line 470 of file MKL.h.

int32_t mkl_iterations
protected

number of mkl steps

Definition at line 468 of file MKL.h.

float64_t mkl_norm
protected

norm used in mkl must be > 0

Definition at line 453 of file MKL.h.

float64_t nu
protectedinherited

nu

Definition at line 253 of file SVM.h.

float64_t objective
protectedinherited

objective

Definition at line 259 of file SVM.h.

Parallel* parallel
inherited

parallel

Definition at line 465 of file SGObject.h.

int32_t qpsize
protectedinherited

qpsize

Definition at line 261 of file SVM.h.

float64_t rho
protected

objective after mkl iterations

Definition at line 480 of file MKL.h.

CSVM* svm
protected

wrapper SVM

Definition at line 449 of file MKL.h.

bool svm_loaded
protectedinherited

if SVM is loaded

Definition at line 247 of file SVM.h.

CTime training_time_clock
protected

measures training time for use with get_max_train_time()

Definition at line 483 of file MKL.h.

float64_t tube_epsilon
protectedinherited

tube epsilon for support vector regression

Definition at line 251 of file SVM.h.

bool use_batch_computation
protectedinherited

if batch computation is enabled

Definition at line 325 of file KernelMachine.h.

bool use_bias
protectedinherited

if bias shall be used

Definition at line 331 of file KernelMachine.h.

bool use_linadd
protectedinherited

if linadd is enabled

Definition at line 328 of file KernelMachine.h.

bool use_shrinking
protectedinherited

if shrinking shall be used

Definition at line 263 of file SVM.h.

Version* version
inherited

version

Definition at line 468 of file SGObject.h.

float64_t* W
protected

partial objectives (one per kernel)

Definition at line 475 of file MKL.h.

float64_t w_gap
protected

gap between iterations

Definition at line 478 of file MKL.h.


The documentation for this class was generated from the following files:

SHOGUN Machine Learning Toolbox - Documentation