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old code.txt
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def __copy__(self):
new_mind = Mind(f"{self.name}_copy", False)
new_mind.weights = self.bias
new_mind.bias = self.bias
return new_mind
def fitness_level(self):
power = (1000-self.energy)*self.time_alive
try:
speed = self.distance_traveled/self.time_alive
except ZeroDivisionError:
speed = 0
self.fitness = power*0.5 + speed*0.5
def save_existence(self):
file = open(Aux.FILE_NAME, "a")
file.write(f"F:{self.fitness};W:{self.weights};B:{self.bias}\n")
file.close()
def get_wb(self, w, b):
self.weights = w
self.bias = b
def create_mind_structure(self):
# weights/biases number for layer 1: [2, 2, 5, 2, 2]
layer_1 = [(self.mutate_value(Aux.random()), self.mutate_value(Aux.random())) for _ in range(5)]
layer_1[2]+=(self.mutate_value(Aux.random()), self.mutate_value(Aux.random()), self.mutate_value(Aux.random()))
# weights/biases number for layer 2: [1, 2, 1, 1, 2, 1]
layer_2 = [self.mutate_value(Aux.random()) for _ in range(6)]
layer_2[1] = (layer_2[2], self.mutate_value(Aux.random()))
layer_2[4] = (layer_2[3], self.mutate_value(Aux.random()))
# weights/biases number for layer 3: [1, 2, 2, 1]
layer_3 = [self.mutate_value(Aux.random()) for _ in range(4)]
layer_3[1] = (layer_3[1], self.mutate_value(Aux.random()))
layer_3[2] = (layer_3[2], self.mutate_value(Aux.random()))
# weights/biases number for layer 4: [1, 2, 2, 1]
layer_4 = [self.mutate_value(Aux.random()) for _ in range(3)]
return [layer_1, layer_2, layer_3, layer_4]
@staticmethod
def mutate_value(value):
if Aux.random() > 0.4: # invert value's signal
value *= Aux.random_choice([-1, 1])
if Aux.random() > 0.4: # increase or decrease value
value += Aux.random_choice([-1, 1]) * (Aux.random()/Aux.random_choice([1000, 100, 10]))
return value
def mutate(self, values):
if type(values) is tuple:
new_tuple = (self.mutate_value(value) if Aux.random()>=self.mutation_chance else value for value in values)
return tuple(new_tuple)
return self.mutate_value(values) if Aux.random() >= self.mutation_chance else values
def cross_over(self, layers1, layers2):
# cross over for layer 1
layer_1 = [self.mutate(value1) if Aux.random() > 0.5 else self.mutate(value2) for value1, value2
in zip(layers1[0], layers2[0])]
# cross over for layer 2
layer_2 = [self.mutate(value1) if Aux.random() > 0.5 else self.mutate(value2) for value1, value2
in zip(layers1[1], layers2[1])]
# cross over for layer 3
layer_3 = [self.mutate(value1) if Aux.random() > 0.5 else self.mutate(value2) for value1, value2
in zip(layers1[2], layers2[2])]
# cross over for layer 4
layer_4 = [self.mutate(value1) if Aux.random() > 0.5 else self.mutate(value2) for value1, value2
in zip(layers1[3], layers2[3])]
return [layer_1, layer_2, layer_3, layer_4]
def create_mind(self):
self.weights = self.create_mind_structure()
self.bias = self.create_mind_structure()
def breed(self, mind2):
new_mind = self.__copy__()
new_mind.weights = new_mind.cross_over(self.weights, mind2.weights)
new_mind.bias = new_mind.cross_over(self.bias, mind2.bias)
return new_mind
def create_layer_2(self, values):
neuron_1 = tuple(w*values[0]+b for w, b in zip(self.weights[0][0], self.bias[0][0]))
neuron_2 = tuple(w*values[1]+b for w, b in zip(self.weights[0][1], self.bias[0][1]))
neuron_3 = tuple(w*values[2]+b for w, b in zip(self.weights[0][2], self.bias[0][2]))
neuron_4 = tuple(w*values[3]+b for w, b in zip(self.weights[0][3], self.bias[0][3]))
neuron_5 = tuple(w*values[4]+b for w, b in zip(self.weights[0][4], self.bias[0][4]))
value_1 = Aux.normal_minus1_1(neuron_1[0] + neuron_2[0])
value_2 = Aux.normal_minus1_1(neuron_1[1] + neuron_3[0])
value_3 = Aux.normal_minus1_1(neuron_2[1] + neuron_3[1])
value_4 = Aux.normal_minus1_1(neuron_3[2] + neuron_4[0])
value_5 = Aux.normal_minus1_1(neuron_3[3] + neuron_5[0])
value_6 = Aux.normal_minus1_1(neuron_4[1] + neuron_5[1])
return value_1, value_2, value_3, value_4, value_5, value_6
def create_layer_3(self, values):
neuron_1 = self.weights[1][0]*values[0] + self.bias[1][0]
neuron_2 = tuple(w * values[1] + b for w, b in zip(self.weights[1][1], self.bias[1][1]))
neuron_3 = self.weights[1][2]*values[2] + self.bias[1][2]
neuron_4 = self.weights[1][3]*values[3] + self.bias[1][3]
neuron_5 = tuple(w * values[4] + b for w, b in zip(self.weights[1][4], self.bias[1][4]))
neuron_6 = self.weights[1][5] * values[5] + self.bias[1][5]
value_1 = Aux.normal_minus1_1(neuron_1 + neuron_2[0])
value_2 = Aux.normal_minus1_1(neuron_2[1] + neuron_3)
value_3 = Aux.normal_minus1_1(neuron_4 + neuron_5[0])
value_4 = Aux.normal_minus1_1(neuron_5[1] + neuron_6)
return value_1, value_2, value_3, value_4
def create_layer_4(self, values):
neuron_1 = self.weights[2][0] * values[0] + self.bias[2][0]
neuron_2 = tuple(w * values[1] + b for w, b in zip(self.weights[2][1], self.bias[2][1]))
neuron_3 = tuple(w * values[2] + b for w, b in zip(self.weights[2][2], self.bias[2][2]))
neuron_4 = self.weights[2][3] * values[3] + self.bias[2][3]
value_1 = Aux.normal_minus1_1(neuron_1 + neuron_2[0])
value_2 = Aux.normal_minus1_1(neuron_2[1] + neuron_3[0])
value_3 = Aux.normal_minus1_1(neuron_3[1] + neuron_4)
return value_1, value_2, value_3
def get_final_value(self, values):
neuron_1 = self.weights[3][0] * values[0] + self.bias[3][0]
neuron_2 = self.weights[3][1] * values[1] + self.bias[3][1]
neuron_3 = self.weights[3][2] * values[2] + self.bias[3][2]
return Aux.normal_minus1_1(neuron_1 + neuron_2 + neuron_3)