AI-ML
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# ABSTRACT: turns baubles into trinkets
package AI::ML::Expr;
use strict;
use warnings;
use Chart::Gnuplot;
use Scalar::Util 'blessed';
use AI::ML;
use Math::Lapack;
use aliased 'Math::Lapack::Matrix' => 'M';
use parent 'Exporter';
use parent 'Math::Lapack::Expr';
our @EXPORT = qw(mini_batch tanh sigmoid relu lrelu d_sigmoid d_relu d_lrelu d_tanh softmax sigmoid_cost plot plot_cost);
use Math::Lapack::Expr;
sub _bless {
my $matrix = shift;
return bless { _matrix => $matrix, type => 'matrix' } => "Math::Lapack::Matrix";
}
=head2 sigmoid
Allow apply the function sigmoid to every element of the matrix.
$m = $m->sigmoid();
$m = sigmoid($m);
=cut
sub sigmoid {
my ($self) = @_;
return bless { package => __PACKAGE__, type => 'sigmoid', args => [$self] } => __PACKAGE__
}
sub eval_sigmoid {
my $tree = shift;
if (blessed($tree) && $tree->isa("Math::Lapack::Matrix")) {
return _bless _sigmoid($tree->matrix_id);
}
die "Sigmoid for non matrix: " . ref($tree);
}
=head2 relu
Allows apply the function relu to every element of the matrix.
$m = $m->relu();
$m = relu($m);
=cut
sub relu {
my ($self) = @_;
return bless { package => __PACKAGE__, type => 'relu', args => [$self] } => __PACKAGE__;
}
sub eval_relu {
my $tree = shift;
if (ref($tree) eq "Math::Lapack::Matrix") {
return _bless _relu($tree->matrix_id);
}
die "ReLU for non matrix";
}
=head2 d_relu
Allows apply the function d_relu to every element of the matrix.
$m = $m->d_relu();
$m = d_relu($m);
=cut
sub d_relu {
my ($self) = @_;
return bless { package => __PACKAGE__, type => 'd_relu', args => [$self] } => __PACKAGE__;
}
sub eval_d_relu {
my $tree = shift;
if (ref($tree) eq "Math::Lapack::Matrix") {
return _bless _d_relu($tree->matrix_id);
}
die "ReLU for non matrix";
}
=head2 lrelu
Allows apply the function lrelu to every element of the matrix.
$th::Lapack::Matrixref(1)m = lrelu($m, 0.0001);
$m = m->lrelu(0.1);
=cut
sub lrelu {
my ($self, $v) = @_;
return bless { package => __PACKAGE__, type => 'lrelu', args => [$self, $v] } => __PACKAGE__;
}
sub eval_lrelu {
my ($tree, $v) = @_;
if (ref($tree) eq "Math::Lapack::Matrix") {
return _bless _lrelu($tree->matrix_id, $v);
}
die "lReLU for non matrix";
}
=head2 d_lrelu
Allows apply the function d_lrelu to every element of the matrix.
$th::Lapack::Matrixref(1)m = lrelu($m, 0.0001);
$m = m->lrelu(0.1);
=cut
sub d_lrelu {
my ($self, $v) = @_;
return bless { package => __PACKAGE__, type => 'd_lrelu', args => [$self, $v] } => __PACKAGE__;
}
sub eval_d_lrelu {
my ($tree, $v) = @_;
if (ref($tree) eq "Math::Lapack::Matrix") {
return _bless _d_lrelu($tree->matrix_id, $v);
}
die "lReLU for non matrix";
}
=head2 softmax
Allows apply the function softmax to every element of the matrix.
$m = softmax($m);
$m = $m->softmax();
=cut
sub softmax {
my ($self) = @_;
return bless { package => __PACKAGE__, type => 'softmax', args => [$self] } => __PACKAGE__;
}
sub eval_softmax {
my $tree = shift;
if (ref($tree) eq "Math::Lapack::Matrix") {
my $s = $tree->max();
my $e_x = exp( $tree - $s );
my $div = sum( $e_x, 1 );
return $e_x / $div;
#use Data::Dumper;
#print STDERR Dumper $matrix;
# return _bless _softmax($tree->matrix_id);
}
die "softmax for non matrix";
}
=head2 d_softmax
Allows apply the function d_softmax to every element of the matrix.
$m = d_softmax($m);
$m = $m->d_softmax();
=cut
sub d_softmax {
my ($self) = @_;
return bless { package => __PACKAGE__, type => 'd_softmax', args => [$self] } => __PACKAGE__;
}
sub eval_d_softmax {
my $tree = shift;
if (ref($tree) eq "Math::Lapack::Matrix") {
return _bless _d_softmax($tree->matrix_id);
}
die "d_softmax for non matrix";
}
=head2 tanh
Allows apply the function tanh to every element of the matrix.
$m = tanh($m);
$m = $m->tanh();
=cut
sub tanh {
my ($self) = @_;
return bless { package => __PACKAGE__, type => 'tanh', args => [$self] } => __PACKAGE__;
}
sub eval_tanh {
my $tree = shift;
if( ref($tree) eq "Math::Lapack::Matrix"){
return _bless _tanh($tree->matrix_id);
}
die "tanh for non matrix";
}
=head2 d_tanh
Allows apply the function d_tanh to every element of the matrix.
$m = d_tanh($m);
$m = $m->d_tanh();
=cut
sub d_tanh {
my ($self) = @_;
return bless { package => __PACKAGE__, type => 'd_tanh', args => [$self] } => __PACKAGE__;
}
sub eval_d_tanh {
my $tree = shift;
if( ref($tree) eq "Math::Lapack::Matrix"){
return _bless _d_tanh($tree->matrix_id);
}
die "d_tanh for non matrix";
}
=head2 d_sigmoid
Allow apply the derivate of function sigmoid to every element of the matrix.
$m = $m->d_sigmoid();
$m = d_sigmoid($m);
=cut
sub d_sigmoid {
my ($self) = @_;
return bless { package => __PACKAGE__, type => 'd_sigmoid', args => [$self] } => __PACKAGE__;
}
sub eval_d_sigmoid {
my $tree = shift;
if( ref($tree) eq "Math::Lapack::Matrix"){
return _bless _d_sigmoid($tree->matrix_id);
}
return "d_sigmoid for non matrix";
}
=head2 sigmoid_cost
Allows get the value of the cost of sigmoid function.
put examples
=cut
sub sigmoid_cost {
my ($x, $y, $weights) = @_;
return _sigmoid_cost($x->matrix_id, $y->matrix_id, $weights->matrix_id);
}
=head2 mini-batch
=cut
sub mini_batch {
my ($self, $start, $size, $axis) = @_;
$axis = 0 unless defined $axis; #default
return _bless _mini_batch($self->matrix_id, $start, $size, $axis);
}
=head2 prediction
=cut
sub prediction {
my ($self, %opts) = @_;
my $t = exists $opts{threshold} ? $opts{threshold} : 0.50;
return _bless _predict_binary_classification($self->matrix_id, $t);
}
=head2 precision
=cut
sub precision {
my ($y, $yatt) = @_;
return _precision($y->matrix_id, $yatt->matrix_id);
}
=head2 accuracy
=cut
sub accuracy {
my ($y, $yatt) = @_;
return _accuracy($y->matrix_id, $yatt->matrix_id);
}
=head2 recall
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