从函数中返回函数
其实并不需要在一个函数里去执行另一个函数,我们也可以将其作为输出返回出来:
def hi(name="yasoob"):
def greet():
return "now you are in the greet() function"
def welcome():
return "now you are in the welcome() function"
if name == "yasoob":
return greet
else:
return welcome
a = hi()
print(a)
#outputs: <function greet at 0x7f2143c01500>
#上面清晰地展示了`a`现在指向到hi()函数中的greet()函数
#现在试试这个
print(a())
#outputs: now you are in the greet() function
再次看看这个代码。在if/else语句中我们返回greet和welcome,而不是greet()和welcome()。为什么那样?这是因为当你把一对小括号放在后面,这个函数就会执行;然而如果你不放括号在它后面,那它可以被到处传递,并且可以赋值给别的变量而不去执行它。
你明白了吗?让我再稍微多解释点细节。
当我们写下a = hi(),hi()会被执行,而由于name参数默认是yasoob,所以函
数greet被返回了。如果我们把语句改为a = hi(name = "ali"),那么welcome函数将被返回。我们还可以打印出hi()(),这会输出now you are in the greet() function。
将函数作为参数传给另一个函数
def hi():
return "hi yasoob!"
def doSomethingBeforeHi(func):
print("I am doing some boring work before executing hi()")
print(func())
doSomethingBeforeHi(hi)
#outputs:I am doing some boring work before executing hi()
# hi yasoob!
现在你已经具备所有必需知识,来进一步学习装饰器真正是什么了。装饰器让你在一个函数的前后去执行代码。
你的第一个装饰器
在上一个例子里,其实我们已经创建了一个装饰器!现在我们修改下上一个装饰器,并编写一个稍微更有用点的程序:
def a_new_decorator(a_func):
def wrapTheFunction():
print("I am doing some boring work before executing a_func()"
a_func()
print("I am doing some boring work after executing a_func()"
return wrapTheFunction
def a_function_requiring_decoration():
print("I am the function which needs some decoration to remove my foul smell")
a_function_requiring_decoration()
#outputs: "I am the function which needs some decoration to remove my foul smell
a_function_requiring_decoration=a_new_decorator(a_function_requiring_decoration)
#now a_function_requiring_decoration is wrapped by wrapTheFunction()
a_function_requiring_decoration()
#outputs:I am doing some boring work before executing a_func()
# I am the function which needs some decoration to remove my foul smell
# I am doing some boring work after executing a_func()
你看明白了吗?我们刚刚应用了之前学习到的原理。这正是python中装饰器做的事情!它们封装一个函数,并且用这样或者那样的方式来修改它的行为。现在你也许疑惑,我们在代码里并没有使用@符号?那只是一个简短的方式来生成一个被装饰的函数。这里是我们如何使用@来运行之前的代码:
@a_new_decorator
def a_function_requiring_decoration():
"""Hey you! Decorate me!"""
print("I am the function which needs some decoration to remove my foul smell")
a_function_requiring_decoration()
#outputs: I am doing some boring work before executing a_func()
# I am the function which needs some decoration to remove my foul smell
# I am doing some boring work after executing a_func()
#the @a_new_decorator is just a short way of saying:
a_function_requiring_decoration=a_new_decorator(a_function_requiring_decoration)
希望你现在对Python装饰器的工作原理有一个基本的理解。如果我们运行如下代码会存在一个问题:
print(a_function_requiring_decoration.__name__)
# Output: wrapTheFunction
这并不是我们想要的!Ouput输出应该是“a_function_requiring_decoration”。这里的函数被warpTheFunction替代了。它重写了我们函数的名字和注释文档(docstring)。幸运的是Python提供给我们一个简单的函数来解决这个问题,那就是functools.wraps。我们修改上一个例子来使用
functools.wraps:
from functools import wraps
def a_new_decorator(a_func):
@wraps(a_func)
def wrapTheFunction():
print("I am doing some boring work before executing a_func()"
a_func()
print("I am doing some boring work after executing a_func()"
return wrapTheFunction
@a_new_decorator
def a_function_requiring_decoration():
"""Hey yo! Decorate me!"""
print("I am the function which needs some decoration to remove my foul smell")
print(a_function_requiring_decoration.__name__)
# Output: a_function_requiring_decoration
现在好多了。我们接下来学习装饰器的一些常用场景。
蓝本规范:
from functools import wraps
def decorator_name(f):
@wraps(f)
def decorated(*args, **kwargs):
if not can_run:
return "Function will not run"
return f(*args, **kwargs)
return decorated
@decorator_name
def func():
return("Function is running")
can_run = True
print(func())
# Output: Function is running
can_run = False
print(func())
# Output: Function will not run
注意:@wraps接受一个函数来进行装饰,并加入了复制函数名称、注释文档、参数列表等等的功能。这可以让我们在装饰器里面访问在装饰之前的函数的属性。
