neuralnet.php/public/main.php

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<?php define('__ROOT__', dirname(dirname(__FILE__)) );
require_once __ROOT__.'/autoloader.php';
use \neuralnetwork\core\Genome;
use \neuralnetwork\core\NeuralNetwork;
use \filemanager\core\FileManager;
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function behaviourtest1($in){ return [$in[0] + $in[1] - $in[2]]; }
function behaviourtest2($in){ return [ 2*pow($in[0], 2) - 5*$in[1] + 8*$in[2]]; }
$train = $argc > 1 && $argv[1] == 'train';
$guess = !$train;
if( $train && 'learning_process' ){
$part = 1;
echo "Welcome to neural-network.php\n";
echo "-----------------------------\n\n";
/* [1] Trying to load neural network
=========================================================*/
try{
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$nn = NeuralNetwork::load('test2/test2');
echo "$part. NeuralNetwork loaded from 'test2/test2'\n"; $part++;
/* [2] Else, creates it
=========================================================*/
}catch(\Exception $e){
$nn = NeuralNetwork::create(50, 100);
$nn->setHiddenLayersCount(5); // 3 Hidden layers
$nn->setHiddenLayerNeuronsCount(3); // Composed with 3 neurons each
$nn->setInputLayerCount(3); // 3 inputs
$nn->setOutputLayerCount(1); // 1 output
$nn->setMutationThreshold(0.5); // mutation 30% each generation
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$nn->setFitnessEnd(-1.5); // Algorithm is done when fitness reaches 0
$nn->setAntiRegression(true); // That repeats a generation while its fitness is lower than the previous one
echo "$part. NeuralNetwork configured\n"; $part++;
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$d = [0, 0, 0]; $nn->addSample($d, behaviourtest2($d));
$d = [0, 0, 1]; $nn->addSample($d, behaviourtest2($d));
$d = [0, 1, 0]; $nn->addSample($d, behaviourtest2($d));
$d = [0, 1, 1]; $nn->addSample($d, behaviourtest2($d));
$d = [1, 0, 0]; $nn->addSample($d, behaviourtest2($d));
$d = [1, 0, 1]; $nn->addSample($d, behaviourtest2($d));
$d = [1, 1, 0]; $nn->addSample($d, behaviourtest2($d));
$d = [1, 1, 1]; $nn->addSample($d, behaviourtest2($d));
$d = [0, 0, 0]; $nn->addSample($d, behaviourtest2($d));
$d = [0, 0, 2]; $nn->addSample($d, behaviourtest2($d));
$d = [0, 2, 0]; $nn->addSample($d, behaviourtest2($d));
$d = [0, 2, 2]; $nn->addSample($d, behaviourtest2($d));
$d = [2, 0, 0]; $nn->addSample($d, behaviourtest2($d));
$d = [2, 0, 2]; $nn->addSample($d, behaviourtest2($d));
$d = [2, 2, 0]; $nn->addSample($d, behaviourtest2($d));
$d = [2, 2, 2]; $nn->addSample($d, behaviourtest2($d));
echo "$part. Samples added to NeuralNetwork\n"; $part++;
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$nn->store('test2/test2', true);
echo "$part. NeuralNetwork stored to 'test2/test2'\n"; $part++;
}
/* [2] Initializing learning routine
=========================================================*/
$fitness = 0;
$max_fit = 0;
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$nn->loadLearningRoutine(function($input, $output){
global $fitness;
$fitness -= abs(round($output[0]) - behaviourtest2($input)[0]);
});
echo "$part. Learning routine initialized.\n"; $part++;
/* [3] Learning through generations and genomes
=========================================================*/
/* (1) For each generation */
$last_gnr = -1;
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$gen_repeat = 0;
while( true ){
if( $nn->gnr > $last_gnr)
$start = microtime(true);
$last_gnr = $nn->gnr;
$max_fit = -1e9;
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/* (2) For each genome */
while( true ){
$fitness = 0;
/* (2.1) Get current genome */
$g = $nn->getGenome();
echo "\r[x] gnm ".($nn->gnm+1)."/100 on gnr ".($nn->gnr+1)."/50 - x".($gen_repeat+1)." - fit[$max_fit] ";
/* (2.2) Train genome with random samples */
for( $r = 0 ; $r < 500 ; $r++ )
$g->train([rand(0,100), rand(0,100), rand(0,100)]);
/* (2.3) Set fitness & go to next genome */
if( $fitness > $max_fit ) $max_fit = $fitness;
$g->setFitness($fitness);
if( $nn->gnm >= 100-1 )
break;
$nn->nextGenome();
}
$nn->nextGenome();
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// If generation evolution, notify
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if( $nn->gnr > $last_gnr){
echo "\n\t".((microtime(true)-$start))."s\n";
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$gen_repeat = 0;
}else $gen_repeat++;
if( is_null($nn->gnr) || $nn->gnr == 50-1 )
break;
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}
}
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if( $guess && 'guessing_process' ){
$part = 1;
echo "Welcome to neural-network.php\n";
echo "-----------------------------\n\n";
/* [1] Trying to load neural network
=========================================================*/
try{
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$nn = NeuralNetwork::load('test2/test2');
echo "$part. NeuralNetwork loaded from 'test2/test2'\n"; $part++;
/* [2] Else, creates it
=========================================================*/
}catch(\Exception $e){
echo "You must create/train your neural network before using it.\n";
exit();
}
/* [2] Fetch trained genome
=========================================================*/
$genome = $nn->getTrainedGenome();
$genome->setCallback(function($in, $out){
echo "callback input: ".implode(',', $in)."\n";
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echo "callback output: ".$out[0]."\n";
echo "callback result: ".implode(',', behaviourtest2($in))."\n";
});
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$genome->train([rand(0,10), rand(0,10), rand(0,10)]);
}
// REWRITE TEST
// for( $a = 0, $al = 50 ; $a < $al ; $a++ )
// for( $b = 0, $bl = 20 ; $b < $bl ; $b++ ){
// print "genome $b/$bl on generation $a/$al \r";
// usleep(1000*10);
// }
?>