Le funzioni che restituiscono un numero float (floating point, in virgola mobile) si trovano tra quelle predefinite e nei moduli math, random, statistics, …
Prova
- Scegli le funzioni che ti interessano
- Assegna i valori alle variabili che corrispondono ai parametri
print(" abs(", x, ") =" , abs(x) )
print("math.acos(", x, ") =" , math.acos(x) )
print("math.asin(", x, ") =" , math.asin(x) )
print("math.atan(", x, ") =" , math.atan(x) )
print("math.cos(", x, ") =" , math.cos(x) )
print("math.degrees(", x, ") =" , math.degrees(x) )
print("math.e =" , math.e )
print("math.exp(", x, ") =" , math.exp(x) )
print(" float() =" , float() )
print(" float(", s, ") =" , float(s) )
print("math.hypot(", x1, ",", x2, ") =", math.hypot(x1, x2))
print("math.log(", x, ") =" , math.log(x) ) # Logaritmo naturale di x
print("math.log(", x, ",", b, ") =" , math.log(x, b) ) # Logaritmo di x in base b
print("math.log10(", x, ") =" , math.log10(x) ) # Logaritmo di x in base 10
print("math.log2(", x, ") =" , math.log2(x) ) # Logaritmo di x in base 2; dalla 3.3
print(" max(", x1, ",", x2, ") =" , max(x1, x2) )
print(" min(", x1, ",", x2, ") =" , min(x1, x2) )
print("math.pi =" , math.pi )
print(" pow(", x1, ",", x2, ") =" , pow(x1, x2) )
print("math.pow(", x1, ",", x2, ") =" , math.pow(x1, x2) )
print("math.radians(", x, ") =" , math.radians(x) )
print(" round(", x, ",", n, ") =" , round(x, n) ) # x float, x Fraction, n intero
print("math.sin(", x, ") =" , math.sin(x) )
print("math.sqrt(", x, ") =" , math.sqrt(x) )
print("math.tan(", x, ") =" , math.tan(x) )
print("math.tau =" , math.tau )
Continua…
print(" math.inf =" , math.inf ) # Infinito...
print("random.random() =" , random.random() ) # [0.0, 1.0)
print(" sum(", z, ") =" , sum(z) )
print("random.uniform(", x1, ",", x2, ") =", random.uniform(x1, x2)) # [x1, x2)
print("math.acosh(", x, ") =" , math.acosh(x) )
print("math.asinh(", x, ") =" , math.asinh(x) )
print("math.atan2(", x1, ",", x2, ") =", math.atan2(x1, x2))
print("math.atanh(", x, ") =" , math.atanh(x) )
print("math.cosh(", x, ") =" , math.cosh(x) )
print("math.sinh(", x, ") =" , math.sinh(x) )
print("math.tanh(", x, ") =" , math.tanh(x) )
print("statistics.geometric_mean(z) =", statistics.geometric_mean(z)) # Media geometrica
print("statistics.harmonic_mean(z) =" , statistics.harmonic_mean(z) ) # Media armonica
print("statistics.mean(z) =" , statistics.mean(z) ) # Media
print("statistics.median(z) =" , statistics.median(z) ) # Mediana
print("statistics.mode(z) =" , statistics.mode(z) ) # Moda
Ancora…
d = math.dist(p1, p2) # distanza tra due punti