# 用闭包函数计算当x=20,y=200,z=1000时,fun1=x + 2*y + 3*z的函数值
def a(x):
def b(y):
def c(z):
return x + 2*y + 3*z
return c
return b
print(a(20)(200)(1000))
# 用闭包函数计算一元一次线性方程的值
def line_conf(a, b):
def line(x):
return a*x + b
return line
line1 = line_conf(1, 1)
line2 = line_conf(4, 5)
print(line1(5))
print(line2(5))
print(line_conf(2,3)(5))
#定义一个函数
def test(number):
#在函数内部再定义一个函数,并且这个函数用到了外边函数的变量,那么将这个函数以及用到的一些变量称之为闭包
def test_in(number_in):
print("in test_in 函数, number_in is %d"%number_in)
return number+number_in
#其实这里返回的就是闭包的结果
return test_in
#给test函数赋值,这个20就是给参数number
test_in = test(20)
print(id(test_in))
print(id(test))
#注意这里的100其实给参数number_in
print(test_in(100))
#注意这里的200其实给参数number_in
print(test_in(200))
print(test(20)(200))
修改外部参数
python3的做法:
def counter(start=0):
def incr():
nonlocal start
start += 1
return start
return incr
c1 = counter(5)
print(c1())
print(c1())
c2 = counter(50)
print(c2())
print(c2())
print(c1())
print(c1())
print(c2())
print(c2())
python2的做法
def counter(start=0):
count=[start]
def incr():
count[0] += 1
return count[0]
return incr
c1 = counter(5)
print(c1())#6
print(c1())#7
c2 = counter(100)
print(c2())#101
print(c2())#102
利用这一原理,做计数函数。
def counter(start=0):
def addone():
nonlocal start
start += 1
return start
return addone
c1 = counter(0)
print(c1())
print(c1())
print(c1())
print(c1())