为了我自己的娱乐,我想知道如何实现以下目标:
functionA = make_fun(['paramA', 'paramB'])
functionB = make_fun(['arg1', 'arg2', 'arg3'])
相当于
def functionA(paramA, paramB):
print(paramA)
print(paramB)
def functionB(arg1, arg2, arg3):
print(arg1)
print(arg2)
print(arg3)
这意味着需要以下行为:
functionA(3, paramB=1) # Works
functionA(3, 2, 1) # Fails
functionB(0) # Fails
问题的焦点在于变量argspec - 我很熟悉使用常用的装饰器技术创建函数体。
对于那些感兴趣的人,我正在尝试以编程方式创建类似以下的类。同样困难在于使用编程参数生成__init__方法 - 使用装饰器或类元类,类的其余部分看起来很简单。
class MyClass:
def __init__(self, paramA=None, paramB=None):
self._attr = ['paramA', 'paramB']
for a in self._attr:
self.__setattr__(a, None)
def __str__(self):
return str({k:v for (k,v) in self.__dict__.items() if k in self._attributes})
答案 0 :(得分:8)
您可以使用exec从包含Python代码的字符串构建函数对象:
def make_fun(parameters):
exec("def f_make_fun({}): pass".format(', '.join(parameters)))
return locals()['f_make_fun']
示例:
>>> f = make_fun(['a', 'b'])
>>> import inspect
>>> print(inspect.signature(f).parameters)
OrderedDict([('a', <Parameter at 0x1024297e0 'a'>), ('b', <Parameter at 0x102429948 'b'>)])
如果您需要更多功能(例如,默认参数值),则需要调整包含代码的字符串并使其代表所需的函数签名。
免责声明:正如下面所指出,验证parameters的内容并确保生成的Python代码字符串可以安全传递给exec非常重要。您应该自己构建parameters或设置限制以防止用户构建parameters的恶意值。
答案 1 :(得分:3)
使用类的可能解决方案之一:
def make_fun(args_list):
args_list = args_list[:]
class MyFunc(object):
def __call__(self, *args, **kwargs):
if len(args) > len(args_list):
raise ValueError('Too many arguments passed.')
# At this point all positional arguments are fine.
for arg in args_list[len(args):]:
if arg not in kwargs:
raise ValueError('Missing value for argument {}.'.format(arg))
# At this point, all arguments have been passed either as
# positional or keyword.
if len(args_list) - len(args) != len(kwargs):
raise ValueError('Too many arguments passed.')
for arg in args:
print(arg)
for arg in args_list[len(args):]:
print(kwargs[arg])
return MyFunc()
functionA = make_fun(['paramA', 'paramB'])
functionB = make_fun(['arg1', 'arg2', 'arg3'])
functionA(3, paramB=1) # Works
try:
functionA(3, 2, 1) # Fails
except ValueError as e:
print(e)
try:
functionB(0) # Fails
except ValueError as e:
print(e)
try:
functionB(arg1=1, arg2=2, arg3=3, paramC=1) # Fails
except ValueError as e:
print(e)
答案 2 :(得分:0)
这是另一种使用functools.wrap的方法,它至少在python 3中保留了签名和文档字符串。诀窍是在虚拟函数中创建永远不会被调用的签名和文档。以下是几个例子。
import functools
def wrapper(f):
@functools.wraps(f)
def template(common_exposed_arg, *other_args, common_exposed_kwarg=None, **other_kwargs):
print("\ninside template.")
print("common_exposed_arg: ", common_exposed_arg, ", common_exposed_kwarg: ", common_exposed_kwarg)
print("other_args: ", other_args, ", other_kwargs: ", other_kwargs)
return template
@wrapper
def exposed_func_1(common_exposed_arg, other_exposed_arg, common_exposed_kwarg=None):
"""exposed_func_1 docstring: this dummy function exposes the right signature"""
print("this won't get printed")
@wrapper
def exposed_func_2(common_exposed_arg, common_exposed_kwarg=None, other_exposed_kwarg=None):
"""exposed_func_2 docstring"""
pass
exposed_func_1(10, -1, common_exposed_kwarg='one')
exposed_func_2(20, common_exposed_kwarg='two', other_exposed_kwarg='done')
print("\n" + exposed_func_1.__name__)
print(exposed_func_1.__doc__)
结果是:
>> inside template.
>> common_exposed_arg: 10 , common_exposed_kwarg: one
>> other_args: (-1,) , other_kwargs: {}
>>
>> inside template.
>> common_exposed_arg: 20 , common_exposed_kwarg: two
>> other_args: () , other_kwargs: {'other_exposed_kwarg': 'done'}
>>
>> exposed_func_1
>> exposed_func_1 docstring: this dummy function exposes the right signature
调用inspect.signature(exposed_func_1).parameters会返回所需的签名。但是,使用inspect.getfullargspec(exposed_func_1)仍会返回template的签名。至少如果你在template的定义中为你想要做的所有函数设置了共同的参数,那么这些参数就会出现。
如果由于某种原因这是一个坏主意,请告诉我!
通过在更多的包装器中分层并在内部函数中定义更多不同的行为,你可以比这更复杂:
import functools
def wrapper(inner_func, outer_arg, outer_kwarg=None):
def wrapped_func(f):
@functools.wraps(f)
def template(common_exposed_arg, *other_args, common_exposed_kwarg=None, **other_kwargs):
print("\nstart of template.")
print("outer_arg: ", outer_arg, " outer_kwarg: ", outer_kwarg)
inner_arg = outer_arg * 10 + common_exposed_arg
inner_func(inner_arg, *other_args, common_exposed_kwarg=common_exposed_kwarg, **other_kwargs)
print("template done")
return template
return wrapped_func
# Build two examples.
def inner_fcn_1(hidden_arg, exposed_arg, common_exposed_kwarg=None):
print("inner_fcn, hidden_arg: ", hidden_arg, ", exposed_arg: ", exposed_arg, ", common_exposed_kwarg: ", common_exposed_kwarg)
def inner_fcn_2(hidden_arg, common_exposed_kwarg=None, other_exposed_kwarg=None):
print("inner_fcn_2, hidden_arg: ", hidden_arg, ", common_exposed_kwarg: ", common_exposed_kwarg, ", other_exposed_kwarg: ", other_exposed_kwarg)
@wrapper(inner_fcn_1, 1)
def exposed_function_1(common_exposed_arg, other_exposed_arg, common_exposed_kwarg=None):
"""exposed_function_1 docstring: this dummy function exposes the right signature """
print("this won't get printed")
@wrapper(inner_fcn_2, 2, outer_kwarg="outer")
def exposed_function_2(common_exposed_arg, common_exposed_kwarg=None, other_exposed_kwarg=None):
""" exposed_2 doc """
pass
它有点冗长,但重点在于,当您使用它来创建函数时,来自您(程序员)的动态输入的位置有很大的灵活性,因此暴露输入的位置(来自用户)功能)得到使用。