I have two functions:
def f1(p1=raw_input("enter data")):
...do something
def f2(p2=raw_input("enter data")):
...do something else
p1 and p2 are the same data, so I want to avoid asking for the input twice. Is there a way I can pass the argument supplied to f1 to f2 without asking for it again? Ideally I would be able to use something like you would in a class. Like f1.p1Is this possible?
EDIT: To add some clarity, I looked into using the ** operator to unpack arguments and I'm aware that using the main body of the program to access the arguments is cleaner. However, the former does not match what I'm trying to do, which is gain a better understanding of what is accessible in a function. I also looked at using the inspect and locals, but these are for inspecting arguments within the function, not outside.
Yes, depending on your needs. The best would be to ask in the main program, and simply pass that value to each function as you call it. Another possibility is to have one function call the other.
# Main program
user_input = raw_input("enter data")
f1(user_input)
f2(user_input)
Ideally I would be able to use something like you would in a class.
Like f1.p1 Is this possible?
That's an advanced technique, and generally dangerous practice. Yes, you can go into the call stack, get the function object, and grab the local variable -- but the function has to be active for this to have any semantic use.
That's not the case you presented. In your code, you have f1 and f2 independently called. Once you return from f1, the value of p1 is popped off the stack and lost.
If you have f1 call f2, then it's possible for f2 to reach back to its parent and access information. Don't go there. :-)
Related
when should we actually create a function that has parameters / arguments?
today I made a programming project. Then it occurred to me when should I actually create a function that has parameters .. I usually create it when there is a global value / variable and that value must exist in some function then I make that value the argument of the function .. did I do it right? or wrong? if wrong what are the best practices for doing it?
varGlobal = "test"
def foo():
print(varGlobal)
# or
def foo(parm):
print(parm) # parm -> varGlobal
def foo():
ask = input("ask")
print(ask)
# or
def foo(parm):
print(parm) # parm -> global user input
It's usually a good idea to use parameters. Consider what the purpose of the function is. Parameterized functions are more generally useful than non-parameterized functions.
If the first case, is whatever foo does applicable only to a single value, or could it be useful for arbitrary values, regardless of what variable might refer to them? In the former case, you are stuck using varGlobal. In the latter, the call can always use foo(varGlobal) if that's the necessary argument.
In the second, might foo be useful to someone who already has a value, and doens't need to call input? In the former case, you are stuck calling input. In the latter, the caller can always use foo(input()) or the like if they really need to call input.
I would strongly suggest that you should use parameters and arguments in every function. it simply makes the whole process of design simpler.
You can clear see what data the function uses, and what it returns.
The only use of global values (either module globals, or globals imported from other modules are :
Module or application wide constants
Module or application wide function or classes (which are in Python efectively module level 'globals'.
Your functions should always return values and never change a global value (by definition if you stick to the above list that you wont be changing anything).
In my opinon using the 'global' keyword is never needed (in 8 years of coding I have never needed it, or identified a reason to use it).
Using global variables is bad practice in any language GlobalVariablesAreBad
Global variables can be used if you need to access or modify the variable in several methods/classes in the same module.
Remember you need to point global my_global_variable to modify the variable.
Parameters are variables needed in the method to do the processing. These variables should live locally in the method. If you need to retrieve something from the method, you should add a return statement. Also, if you need to return several variables you can return as tuple.
So, in this way, you're organizing your code, making all variables visible to other people. Also I recommend you to use docstrings to fully document your methods, variables and processing.
When we need to solve the same sort of question but with different arguments. So you don't have to write the same function over and over again. Let's say you want to write a function that will return the square of the provided number as an argument.
So you write
def square(num):
return num*num
So every time you need to have square of a number..you just put that number in place of the argument and not write the whole function again.
I am writing a program that must solve a task and the task has many points, so I made one function for each point.
In the main function, I am calling the functions (which all return a value) in the following way:
result = funcD(funcC(funcB(funcA(parameter))))
Is this way of setting function calls right and optimal or there is a better way?
First, as everyone else said, your implementation is totally valid, and separate into multiple lines is good idea to improve readability.
However, if there are even more that 4 functions, I have a better way to make your code more simple.
def chain_func(parameter, *functions):
for func in functions:
parameter = func(parameter)
return parameter
This is based on python can pass function as a variable and call it in other function.
To use it, just simple chain_func(parameter, funcA, funcB, funcC, funcD)
There's nothing really wrong with that way. You could improve readability by instead calling them like this:
resultA = funcA(parameter)
resultB = funcB(resultA)
resultC = funcC(resultB)
resultD = funcD(resultC)
But that's really just a matter of personal preference and style.
If what they do and what they return is fixed, then also the dependency between them is fixed. So you have no other way then call them in this order. Otherwise there is no way of telling without knowing what do they do exactly.
Whether you pin a reference to the partial results:
result1 = funcA(parameter)
#...
result = funcD(result3)
or call them as you've presented in your question doesn't make a significant difference.
I have a function with way to much going on in it so I've decided to split it up into smaller functions and call all my block functions inside a single function. --> e.g.
def main_function(self):
time_subtraction(self)
pay_calculation(self,todays_hours)
and -->
def time_subtraction(self):
todays_hours = datetime.combine(datetime(1,1,1,0,0,0), single_object2) - datetime.combine(datetime(1,1,1,0,0,0),single_object)
return todays_hours
So what im trying to accomplish here is to make todays_hours available to my main_function. I've read lots of documentation and other resources but apparently I'm still struggling with this aspect.
EDIT--
This is not a method of the class. Its just a file where i have a lot of functions coded and i import it where needed.
If you want to pass the return value of one function to another, you need to either nest the function calls:
pay_calculation(self, time_subtraction(self))
… or store the value so you can pass it:
hours = time_subtraction(self)
pay_calculation(self, hours)
As a side note, if these are methods in a class, you should be calling them as self.time_subtraction(), self.pay_calculation(hours), etc., not time_subtraction(self), etc. And if they aren't methods in a class, maybe they should be.
Often it makes sense for a function to take a Spam instance, and for a method of Spam to send self as the first argument, in which case this is all fine. But the fact that you've defined def time_subtraction(self): implies that's not what's going on here, and you're confused about methods vs. normal functions.
I'm working on a project where I'm batch generating XML files which can import to the IDE of an industrial touchscreen.
Each XML file represents a screen, and most screens require the same functions and the process for dealing with them is the same, with the exception of the fact that each screen type has a unique configuration function.
I'm using a ScreenType class to hold attributes specific to a screen type, so I decided to write a unique configuration for each type, and pass it as a parameter to the __init__() of this class. This way, when I pass around my ScreenType as it is needed, it's configuration function will stay bundled and can be used whenever needed.
But I'm not sure what will happen if my configuration function itself has a dependency. For example:
def configure_inputdiag(a, b, c):
numerical_formatting = get_numerics(a)
# ...
return configured_object
Then, when it comes time to create an instance of a ScreenType
myscreentype = ScreenType(foo, man, shoe, configure_inputdiag)
get_numerics is a module scoped function, but myscreentype could (and does) get passed within other modules.
Does this create a problem with dependencies? I'd try to test it myself, but it seems like I don't have a fundamental understanding behind what's going on when I pass a function as a parameter. I don't want to draw incorrect conclusions about what's happening.
What I've tried: Googling, Search SO, and I didn't find anything specifically for Python.
Thanks in advance.
There's no problem.
The function configure_inputdiag will always refer to get_numerics in the context where it was defined. So, even if you call configure_inputdiag from some other module which knows nothing about get_numerics, it will work fine.
Passing a function as a parameter produces a reference to that function. Through that reference, you can call the function as if you had called it by name, without actually knowing the name (or the module from which it came). The reference is valid for the lifetime of the program, and will always refer to the same function. If you store the function reference, it basically becomes a different name for the same function.
What you are trying to do works in a very natural form in Python -
In the exampe above, you don't need to have the "get_numerics" function imported in the namespace (module) where the "configure_inputdiag" is - you just pass it as a normal parameter (say, call it "function") and you are going like in this example:
Module A:
def get_numerics(parm):
...
input diag = module_B.configure_inputdiag(get_numerics, a)
Module B:
def configure_inputdiag(function, parm):
result = function(parm)
Oh - I saw your doubt iwas the other waya round - anyway, there is no problem - in Python, functions are first class objects- jsut like ints and strings, and they can be passed around as parametrs to other functions in other modules as you wish. I think the example above clarifies that.
get_numerics is resolved in the scope of the function body, so it does not also need to be in the scope of the caller.
Out of curiosity is more desirable to explicitly pass functions to other functions, or let the function call functions from within. is this a case of Explicit is better than implicit?
for example (the following is only to illustrate what i mean)
def foo(x,y):
return 1 if x > y else 0
partialfun = functools.partial(foo, 1)
def bar(xs,ys):
return partialfun(sum(map(operator.mul,xs,ys)))
>>> bar([1,2,3], [4,5,6])
--or--
def foo(x,y):
return 1 if x > y else 0
partialfun = functools.partial(foo, 1)
def bar(fn,xs,ys):
return fn(sum(map(operator.mul,xs,ys)))
>>> bar(partialfun, [1,2,3], [4,5,6])
There's not really any difference between functions and anything else in this situation. You pass something as an argument if it's a parameter that might vary over different invocations of the function. If the function you are calling (bar in your example) is always calling the same other function, there's no reason to pass that as an argument. If you need to parameterize it so that you can use many different functions (i.e., bar might need to call many functions besides partialfun, and needs to know which one to call), then you need to pass it as an argument.
Generally, yes, but as always, it depends. What you are illustrating here is known as dependency injection. Generally, it is a good idea, as it allows separation of variability from the logic of a given function. This means, for example, that it will be extremely easy for you to test such code.
# To test the process performed in bar(), we can "inject" a function
# which simply returns its argument
def dummy(x):
return x
def bar(fn,xs,ys):
return fn(sum(map(operator.mul,xs,ys)))
>>> assert bar(dummy, [1,2,3], [4,5,6]) == 32
It depends very much on the context.
Basically, if the function is an argument to bar, then it's the responsibility of the caller to know how to implement that function. bar doesn't have to care. But consequently, bar's documentation has to describe what kind of function it needs.
Often this is very appropriate. The obvious example is the map builtin function. map implements the logic of applying a function to each item in a list, and giving back a list of results. map itself neither knows nor cares about what the items are, or what the function is doing to them. map's documentation has to describe that it needs a function of one argument, and each caller of map has to know how to implement or find a suitable function. But this arrangement is great; it allows you to pass a list of your custom objects, and a function which operates specifically on those objects, and map can go away and do its generic thing.
But often this arrangement is inappropriate. A function gives a name to a high level operation and hides the internal implementation details, so you can think of the operation as a unit. Allowing part of its operation to be passed in from outside as a function parameter exposes that it works in a way that uses that function's interface.
A more concrete (though somewhat contrived) example may help. Lets say I've implemented data types representing Person and Job, and I'm writing a function name_and_title for formatting someone's full name and job title into a string, for client code to insert into email signatures or on letterhead or whatever. It's obviously going to take a Person and Job. It could potentially take a function parameter to let the caller decide how to format the person's name: something like lambda firstname, lastname: lastname + ', ' + firstname. But to do this is to expose that I'm representing people's names with a separate first name and last name. If I want to change to supporting a middle name, then either name_and_title won't be able to include the middle name, or I have to change the type of the function it accepts. When I realise that some people have 4 or more names and decide to change to storing a list of names, then I definitely have to change the type of function name_and_title accepts.
So for your bar example, we can't say which is better, because it's an abstract example with no meaning. It depends on whether the call to partialfun is an implementation detail of whatever bar is supposed to be doing, or whether the call to partialfun is something that the caller knows about (and might want to do something else). If it's "part of" bar, then it shouldn't be a parameter. If it's "part of" the caller, then it should be a parameter.
It's worth noting that bar could have a huge number of function parameters. You call sum, map, and operator.mul, which could all be parameterised to make bar more flexible:
def bar(fn, xs,ys, g, h, i):
return fn(g(h(i,xs,ys))
And the way in which g is called on the output of h could be abstracted too:
def bar(fn, xs, ys, g, h, i, j):
return fn(j(g, h(i, xs, ys)))
And we can keep going on and on, until bar doesn't do anything at all, and everything is controlled by the functions passed in, and the caller might as well have just directly done what they want done rather than writing 100 functions to do it and passing those to bar to execute the functions.
So there really isn't a definite answer one way or the other that applies all the time. It depends on the particular code you're writing.