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https://github.com/Llewellynvdm/php-ml.git
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7ab80b6e56
* Code Style * Code Review fixes
250 lines
6.7 KiB
PHP
250 lines
6.7 KiB
PHP
<?php
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declare(strict_types=1);
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namespace Phpml\DimensionReduction;
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use Phpml\Math\Matrix;
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class LDA extends EigenTransformerBase
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{
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/**
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* @var bool
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*/
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public $fit = false;
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/**
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* @var array
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*/
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public $labels;
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/**
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* @var array
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*/
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public $means;
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/**
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* @var array
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*/
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public $counts;
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/**
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* @var float[]
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*/
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public $overallMean;
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/**
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* Linear Discriminant Analysis (LDA) is used to reduce the dimensionality
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* of the data. Unlike Principal Component Analysis (PCA), it is a supervised
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* technique that requires the class labels in order to fit the data to a
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* lower dimensional space. <br><br>
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* The algorithm can be initialized by speciyfing
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* either with the totalVariance(a value between 0.1 and 0.99)
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* or numFeatures (number of features in the dataset) to be preserved.
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*
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* @param float|null $totalVariance Total explained variance to be preserved
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* @param int|null $numFeatures Number of features to be preserved
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*
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* @throws \Exception
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*/
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public function __construct($totalVariance = null, $numFeatures = null)
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{
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if ($totalVariance !== null && ($totalVariance < 0.1 || $totalVariance > 0.99)) {
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throw new \Exception("Total variance can be a value between 0.1 and 0.99");
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}
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if ($numFeatures !== null && $numFeatures <= 0) {
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throw new \Exception("Number of features to be preserved should be greater than 0");
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}
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if ($totalVariance !== null && $numFeatures !== null) {
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throw new \Exception("Either totalVariance or numFeatures should be specified in order to run the algorithm");
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}
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if ($numFeatures !== null) {
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$this->numFeatures = $numFeatures;
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}
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if ($totalVariance !== null) {
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$this->totalVariance = $totalVariance;
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}
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}
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/**
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* Trains the algorithm to transform the given data to a lower dimensional space.
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*
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* @param array $data
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* @param array $classes
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*
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* @return array
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*/
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public function fit(array $data, array $classes) : array
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{
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$this->labels = $this->getLabels($classes);
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$this->means = $this->calculateMeans($data, $classes);
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$sW = $this->calculateClassVar($data, $classes);
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$sB = $this->calculateClassCov();
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$S = $sW->inverse()->multiply($sB);
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$this->eigenDecomposition($S->toArray());
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$this->fit = true;
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return $this->reduce($data);
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}
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/**
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* Returns unique labels in the dataset
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*
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* @param array $classes
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*
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* @return array
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*/
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protected function getLabels(array $classes): array
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{
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$counts = array_count_values($classes);
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return array_keys($counts);
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}
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/**
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* Calculates mean of each column for each class and returns
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* n by m matrix where n is number of labels and m is number of columns
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*
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* @param array $data
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* @param array $classes
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*
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* @return array
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*/
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protected function calculateMeans(array $data, array $classes) : array
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{
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$means = [];
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$counts= [];
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$overallMean = array_fill(0, count($data[0]), 0.0);
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foreach ($data as $index => $row) {
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$label = array_search($classes[$index], $this->labels);
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foreach ($row as $col => $val) {
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if (!isset($means[$label][$col])) {
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$means[$label][$col] = 0.0;
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}
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$means[$label][$col] += $val;
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$overallMean[$col] += $val;
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}
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if (!isset($counts[$label])) {
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$counts[$label] = 0;
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}
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++$counts[$label];
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}
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foreach ($means as $index => $row) {
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foreach ($row as $col => $sum) {
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$means[$index][$col] = $sum / $counts[$index];
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}
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}
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// Calculate overall mean of the dataset for each column
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$numElements = array_sum($counts);
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$map = function ($el) use ($numElements) {
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return $el / $numElements;
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};
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$this->overallMean = array_map($map, $overallMean);
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$this->counts = $counts;
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return $means;
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}
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/**
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* Returns in-class scatter matrix for each class, which
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* is a n by m matrix where n is number of classes and
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* m is number of columns
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*
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* @param array $data
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* @param array $classes
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*
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* @return Matrix
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*/
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protected function calculateClassVar($data, $classes)
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{
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// s is an n (number of classes) by m (number of column) matrix
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$s = array_fill(0, count($data[0]), array_fill(0, count($data[0]), 0));
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$sW = new Matrix($s, false);
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foreach ($data as $index => $row) {
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$label = array_search($classes[$index], $this->labels);
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$means = $this->means[$label];
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$row = $this->calculateVar($row, $means);
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$sW = $sW->add($row);
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}
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return $sW;
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}
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/**
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* Returns between-class scatter matrix for each class, which
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* is an n by m matrix where n is number of classes and
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* m is number of columns
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*
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* @return Matrix
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*/
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protected function calculateClassCov()
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{
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// s is an n (number of classes) by m (number of column) matrix
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$s = array_fill(0, count($this->overallMean), array_fill(0, count($this->overallMean), 0));
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$sB = new Matrix($s, false);
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foreach ($this->means as $index => $classMeans) {
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$row = $this->calculateVar($classMeans, $this->overallMean);
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$N = $this->counts[$index];
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$sB = $sB->add($row->multiplyByScalar($N));
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}
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return $sB;
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}
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/**
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* Returns the result of the calculation (x - m)T.(x - m)
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*
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* @param array $row
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* @param array $means
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*
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* @return Matrix
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*/
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protected function calculateVar(array $row, array $means)
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{
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$x = new Matrix($row, false);
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$m = new Matrix($means, false);
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$diff = $x->subtract($m);
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return $diff->transpose()->multiply($diff);
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}
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/**
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* Transforms the given sample to a lower dimensional vector by using
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* the eigenVectors obtained in the last run of <code>fit</code>.
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*
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* @param array $sample
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*
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* @return array
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*
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* @throws \Exception
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*/
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public function transform(array $sample)
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{
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if (!$this->fit) {
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throw new \Exception("LDA has not been fitted with respect to original dataset, please run LDA::fit() first");
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}
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if (!is_array($sample[0])) {
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$sample = [$sample];
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}
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return $this->reduce($sample);
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}
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}
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