Final
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parent
e9defa3b86
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45b9b21e87
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*.exe
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*.exe
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*.txt
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*.txt
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*.cpp
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!main.cpp
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53
main.cpp
53
main.cpp
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@ -1,6 +1,8 @@
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#include <iostream>
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#include <iostream>
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#include <time.h>
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#include <time.h>
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#define InitialSynapseValue 1.0
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class Synapse;
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class Synapse;
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class Neuron;
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class Neuron;
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class Layer;
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class Layer;
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@ -8,17 +10,6 @@ class Input;
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class Output;
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class Output;
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class NeuralNetwork;
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class NeuralNetwork;
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float RandomFloat(int min, int max)
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{
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float result;
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int value;
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static unsigned long int counter = 0;
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srand(time(0) + counter++ * 50);
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value = (rand() % ((max - min) * 100));
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result = (float)value / 100.0 + (float)min;
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return result;
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}
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#pragma region Synapse
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#pragma region Synapse
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class Synapse
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class Synapse
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{
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{
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@ -36,7 +27,7 @@ float RandomFloat(int min, int max)
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Synapse::Synapse()
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Synapse::Synapse()
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{
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{
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this -> value = this -> weight = this -> bias = 1.0;
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this -> value = this -> weight = this -> bias = InitialSynapseValue;
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}
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}
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void Synapse::SetValue(float value)
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void Synapse::SetValue(float value)
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@ -72,7 +63,6 @@ float RandomFloat(int min, int max)
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int incomingsSize;
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int incomingsSize;
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int forwardsSize;
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int forwardsSize;
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int layerSize;
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int layerSize;
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float value;
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public:
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public:
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Neuron();
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Neuron();
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void ConnectIncomings(Synapse *, int);
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void ConnectIncomings(Synapse *, int);
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@ -85,12 +75,12 @@ float RandomFloat(int min, int max)
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{
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{
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incomings = forwards = NULL;
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incomings = forwards = NULL;
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incomingsSize = forwardsSize = layerSize = 0;
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incomingsSize = forwardsSize = layerSize = 0;
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value = 0.0;
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}
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}
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void Neuron::SetValue(float value)
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void Neuron::SetValue(float value)
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{
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{
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this -> value = value;
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for (int i = 0; i < forwardsSize; i++)
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(forwards + i) -> SetValue(value);
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}
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}
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void Neuron::ConnectIncomings(Synapse *incomings, int incomingsSize)
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void Neuron::ConnectIncomings(Synapse *incomings, int incomingsSize)
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@ -110,21 +100,17 @@ float RandomFloat(int min, int max)
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{
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{
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float result = 0.0;
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float result = 0.0;
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if(!incomings) return (value = result);
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if(!incomings) return result;
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for (int i = 0; i < incomingsSize; i++)
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for (int i = 0; i < incomingsSize; i++)
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result += (incomings + i) -> Fire();
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result += (incomings + i) -> Fire();
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if(!forwards) return (value = result);
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if(!forwards) return result;
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for (int i = 0; i < forwardsSize; i++)
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for (int i = 0; i < forwardsSize; i++)
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// currentSynapse = (forwards -> synapses + (forwardNeuron * this -> neuronSize));
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// (forwards + i) -> SetValue(result);
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//BAK BURAYA
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(forwards + i * layerSize) -> SetValue(result);
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(forwards + i * layerSize) -> SetValue(result);
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value = result;
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return result;
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return result;
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}
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}
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#pragma endregion
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#pragma endregion
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@ -200,14 +186,11 @@ float RandomFloat(int min, int max)
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int currentIndex = 0;
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int currentIndex = 0;
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Synapse *currentSynapse = NULL;
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Synapse *currentSynapse = NULL;
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Neuron *currentNeuron = NULL;
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Neuron *currentNeuron = NULL;
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// Synapse *connectSynapses = NULL;
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if(synapses) delete synapses;
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if(synapses) delete synapses;
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synapses = (Synapse *) new char[sizeof(Synapse) * synapseCount];
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synapses = (Synapse *) new char[sizeof(Synapse) * synapseCount];
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if(!synapses) return false;
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if(!synapses) return false;
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// connectSynapses = (Synapse *) new char[sizeof(Synapse) * previousSize];
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for (int thisNeuron = 0; thisNeuron < this -> neuronSize; thisNeuron++)
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for (int thisNeuron = 0; thisNeuron < this -> neuronSize; thisNeuron++)
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{
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{
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for (int prevNeuron = 0; prevNeuron < previousSize; prevNeuron++)
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for (int prevNeuron = 0; prevNeuron < previousSize; prevNeuron++)
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currentNeuron = (previous -> neurons) + prevNeuron;
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currentNeuron = (previous -> neurons) + prevNeuron;
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*currentSynapse = Synapse();
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*currentSynapse = Synapse();
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// currentSynapse = (Synapse *) new char[sizeof(Synapse)];
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// currentSynapse -> SetWeight(1);
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// currentSynapse -> SetValue(2);
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// currentSynapse -> SetBias(3);
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// currentSynapse -> SetRoot(currentNeuron);
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}
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}
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currentNeuron = (neurons + thisNeuron);
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currentNeuron = (neurons + thisNeuron);
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currentNeuron -> ConnectIncomings((synapses + thisNeuron * previousSize), previousSize);
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currentNeuron -> ConnectIncomings((synapses + thisNeuron * previousSize), previousSize);
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}
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}
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synapseSize = synapseCount;
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return previous -> ConnectForwards(this);
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return previous -> ConnectForwards(this);
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}
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}
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@ -241,7 +220,6 @@ float RandomFloat(int min, int max)
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currentNeuron = (neurons + thisNeuron);
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currentNeuron = (neurons + thisNeuron);
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for (int forwardNeuron = 0; forwardNeuron < forwardsSize; forwardNeuron++)
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for (int forwardNeuron = 0; forwardNeuron < forwardsSize; forwardNeuron++)
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currentNeuron -> ConnectForwards(forwards -> synapses + thisNeuron, forwardsSize, this -> neuronSize);
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currentNeuron -> ConnectForwards(forwards -> synapses + thisNeuron, forwardsSize, this -> neuronSize);
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// currentSynapse = (forwards -> synapses + (thisNeuron + forwardNeuron * this -> neuronSize));
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}
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}
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return true;
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return true;
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}
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}
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Layer *hidden;
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Layer *hidden;
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Output *output;
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Output *output;
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int hiddenSize;
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int hiddenSize;
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public:
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public:
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NeuralNetwork();
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NeuralNetwork();
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NeuralNetwork(int);
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NeuralNetwork(int);
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{
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{
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NeuralNetwork network(3);
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NeuralNetwork network(3);
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#pragma region Initialization
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network.SetInputNeurons(1);
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network.SetInputNeurons(1);
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network.SetHiddenNeurons(0, 2);
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network.SetHiddenNeurons(0, 2);
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network.SetHiddenNeurons(1, 3);
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network.SetHiddenNeurons(1, 3);
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network.SetOutputNeurons(1);
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network.SetOutputNeurons(1);
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network.ConnectLayers();
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network.ConnectLayers();
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#pragma endregion
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#pragma region Fixed Bias&Weight
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network.SetInput(0, 1);
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network.FireNetwork();
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std::cout << "Result = " << network.GetOutput(0) << "\n";
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network.SetInput(0, 2);
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network.SetInput(0, 2);
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network.FireNetwork();
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network.FireNetwork();
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std::cout << "Result = " << network.GetOutput(0) << "\n";
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std::cout << "Result = " << network.GetOutput(0) << "\n";
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network.SetInput(0, 3);
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network.FireNetwork();
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std::cout << "Result = " << network.GetOutput(0) << "\n";
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#pragma endregion
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return 0;
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return 0;
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}
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}
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