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OnlineSVMSGD.cpp
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OnlineSVMSGD.cpp
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/*
* This software is distributed under BSD 3-clause license (see LICENSE file).
*
* Authors: Shashwat Lal Das, Soeren Sonnenburg, Giovanni De Toni, Sanuj Sharma,
* Thoralf Klein, Viktor Gal, Evan Shelhamer, Bjoern Esser
*/
#include <shogun/classifier/svm/OnlineSVMSGD.h>
#include <shogun/mathematics/Math.h>
#include <shogun/mathematics/linalg/LinalgNamespace.h>
#include <shogun/base/Parameter.h>
#include <shogun/lib/Signal.h>
#include <shogun/loss/HingeLoss.h>
using namespace shogun;
COnlineSVMSGD::COnlineSVMSGD()
: COnlineLinearMachine()
{
init();
}
COnlineSVMSGD::COnlineSVMSGD(float64_t C)
: COnlineLinearMachine()
{
init();
C1=C;
C2=C;
}
COnlineSVMSGD::COnlineSVMSGD(float64_t C, CStreamingDotFeatures* traindat)
: COnlineLinearMachine()
{
init();
C1=C;
C2=C;
set_features(traindat);
}
COnlineSVMSGD::~COnlineSVMSGD()
{
SG_UNREF(loss);
}
void COnlineSVMSGD::set_loss_function(CLossFunction* loss_func)
{
SG_REF(loss_func);
SG_UNREF(loss);
loss=loss_func;
}
bool COnlineSVMSGD::train(CFeatures* data)
{
if (data)
{
if (!data->has_property(FP_STREAMING_DOT))
SG_ERROR("Specified features are not of type CStreamingDotFeatures\n")
set_features((CStreamingDotFeatures*) data);
}
features->start_parser();
// allocate memory for w and initialize everyting w and bias with 0
ASSERT(features)
ASSERT(features->get_has_labels())
m_w = SGVector<float32_t>(1);
bias=0;
// Shift t in order to have a
// reasonable initial learning rate.
// This assumes |x| \approx 1.
float64_t maxw = 1.0 / sqrt(lambda);
float64_t typw = sqrt(maxw);
float64_t eta0 = typw / CMath::max(1.0,-loss->first_derivative(-typw,1));
t = 1 / (eta0 * lambda);
SG_INFO("lambda=%f, epochs=%d, eta0=%f\n", lambda, epochs, eta0)
//do the sgd
calibrate();
if (features->is_seekable())
features->reset_stream();
ELossType loss_type = loss->get_loss_type();
bool is_log_loss = false;
if ((loss_type == L_LOGLOSS) || (loss_type == L_LOGLOSSMARGIN))
is_log_loss = true;
int32_t vec_count;
for (int32_t e = 0; e < epochs; e++)
{
COMPUTATION_CONTROLLERS
vec_count=0;
count = skip;
while (features->get_next_example())
{
vec_count++;
// Expand w vector if more features are seen in this example
features->expand_if_required(m_w.vector, m_w.vlen);
float64_t eta = 1.0 / (lambda * t);
float64_t y = features->get_label();
float64_t z = y * (features->dense_dot(m_w.vector, m_w.vlen) + bias);
if (z < 1 || is_log_loss)
{
float64_t etd = -eta * loss->first_derivative(z,1);
features->add_to_dense_vec(etd * y / wscale, m_w.vector, m_w.vlen);
if (use_bias)
{
if (use_regularized_bias)
bias *= 1 - eta * lambda * bscale;
bias += etd * y * bscale;
}
}
if (--count <= 0)
{
float32_t r = 1 - eta * lambda * skip;
if (r < 0.8)
r = pow(1 - eta * lambda, skip);
linalg::scale(m_w, m_w, r);
count = skip;
}
t++;
features->release_example();
}
// If the stream is seekable, reset the stream to the first
// example (for epochs > 1)
if (features->is_seekable() && e < epochs-1)
features->reset_stream();
else
break;
}
features->end_parser();
float64_t wnorm = linalg::dot(m_w, m_w);
SG_INFO("Norm: %.6f, Bias: %.6f\n", wnorm, bias)
return true;
}
void COnlineSVMSGD::calibrate(int32_t max_vec_num)
{
int32_t c_dim=1;
float32_t* c=SG_CALLOC(float32_t, c_dim);
// compute average gradient size
int32_t n = 0;
float64_t m = 0;
float64_t r = 0;
while (features->get_next_example())
{
//Expand c if more features are seen in this example
features->expand_if_required(c, c_dim);
r += features->get_nnz_features_for_vector();
features->add_to_dense_vec(1, c, c_dim, true);
//waste cpu cycles for readability
//(only changed dims need checking)
m=CMath::max(c, c_dim);
n++;
features->release_example();
if (n>=max_vec_num || m > 1000)
break;
}
SG_PRINT("Online SGD calibrated using %d vectors.\n", n)
// bias update scaling
bscale = 0.5*m/n;
// compute weight decay skip
skip = (int32_t) ((16 * n * c_dim) / r);
SG_INFO("using %d examples. skip=%d bscale=%.6f\n", n, skip, bscale)
SG_FREE(c);
}
void COnlineSVMSGD::init()
{
t=1;
C1=1;
C2=1;
lambda=1e-4;
wscale=1;
bscale=1;
epochs=1;
skip=1000;
count=1000;
use_bias=true;
use_regularized_bias=false;
loss=new CHingeLoss();
SG_REF(loss);
SG_ADD(&C1, "C1", "Cost constant 1.", MS_AVAILABLE);
SG_ADD(&C2, "C2", "Cost constant 2.", MS_AVAILABLE);
SG_ADD(&lambda, "lambda", "Regularization parameter.", MS_AVAILABLE);
SG_ADD(&wscale, "wscale", "W scale", MS_NOT_AVAILABLE);
SG_ADD(&bscale, "bscale", "b scale", MS_NOT_AVAILABLE);
SG_ADD(&epochs, "epochs", "epochs", MS_NOT_AVAILABLE);
SG_ADD(&skip, "skip", "skip", MS_NOT_AVAILABLE);
SG_ADD(&count, "count", "count", MS_NOT_AVAILABLE);
SG_ADD(
&use_bias, "use_bias", "Indicates if bias is used.", MS_NOT_AVAILABLE);
SG_ADD(
&use_regularized_bias, "use_regularized_bias",
"Indicates if bias is regularized.", MS_NOT_AVAILABLE);
}