import matplotlib.pyplot as plt
import numpy as np

""" #plt.style.use('_mpl-gallery')

# plot
fig, ax = plt.subplots()

#AND Logico
ax.plot(0, 0, 'o', markeredgewidth=2)
ax.plot(0, 1, 'o', markeredgewidth=2)
ax.plot(1, 0, 'o', markeredgewidth=2)
ax.plot(1, 1, 'x', markeredgewidth=2)


ax.plot(0.5, 0.7, linewidth=2.0)
#ax.plot(x2, y2 - 2.5, 'o-', linewidth=2)

#ax.set(xlim=(0, 8), xticks=np.arange(1, 8),
#       ylim=(0, 8), yticks=np.arange(1, 8))

plt.show() """

# Definisci i parametri della retta
m = 2  # coefficiente angolare
q = 1  # intercetta

# Crea un array di valori x
x = np.linspace(0, 2, 100)  # 100 punti tra -10 e 10

# Calcola i valori di y usando l'equazione della retta
y = m * x + q

# Crea il grafico
#plt.figure(figsize=(8, 6)) #Grandezza finestra
#plt.plot(x, y, label=f'y = {m}x + {q}', color='blue') # RETTA

plt.title('AND Logico')
plt.xlabel('X1')
plt.ylabel('X2')

#AND Logico
plt.plot(0, 0, 'o', color='red', markeredgewidth=10)
plt.plot(0, 1, 'o', color='red',markeredgewidth=10)
plt.plot(1, 0, 'o', color='red',markeredgewidth=10)
plt.plot(1, 1, 'o', color='green',markeredgewidth=10)

plt.axhline(0, color='black',linewidth=0.5, ls='--')
plt.axvline(0, color='black',linewidth=0.5, ls='--')

#plt.grid(color = 'gray', linestyle = '--', linewidth = 0.5)
plt.legend()

plt.xlim(0, 2)
plt.ylim(0, 2)

plt.show()