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There were several discussions on "returning multiple values in Python", e.g. 1, 2. This is not the "multiple-value-return" pattern I'm trying to find here. No matter what you use (tuple, list, dict, an object), it is still a single return value and you need to parse that return value (structure) somehow.

The real benefit of multiple return value is in the upgrade process. For example,

originally, you have

def func():
    return 1
print func() + func()

Then you decided that func() can return some extra information but you don't want to break previous code (or modify them one by one). It looks like

def func():
    return 1, "extra info"
value, extra = func()
print value # 1 (expected)
print extra # extra info (expected)
print func() + func() # (1, 'extra info', 1, 'extra info') (not expected, we want the previous behaviour, i.e. 2)

The previous codes (func() + func()) are broken. You have to fix it.

I don't know whether I made the question clear... You can see the CLISP example. Is there an equivalent way to implement this pattern in Python?

EDIT: I put the above clisp snippets online for your quick reference.


Let me put two use cases here for multiple return value pattern. Probably someone can have alternative solutions to the two cases:

  • Better support smooth upgrade. This is shown in the above example.
  • Have simpler client side codes. See following alternative solutions I have so far. Using exception can make the upgrade process smooth but it costs more codes.

Current alternatives: (they are not "multi-value-return" constructions, but they can be engineering solutions that satisfy some of the points listed above)

  1. tuple, list, dict, an object. As is said, you need certain parsing from the client side. e.g. if ret.success == True: blabla. You need to ret = func() before that. It's much cleaner to write if func() == True: blabal.
  2. Use Exception. As is discussed in this thread, when the "False" case is rare, it's a nice solution. Even in this case, the client side code is still too heavy.
  3. Use an arg, e.g. def func(main_arg, detail=[]). The detail can be list or dict or even an object depending on your design. The func() returns only original simple value. Details go to the detail argument. Problem is that the client need to create a variable before invocation in order to hold the details.
  4. Use a "verbose" indicator, e.g. def func(main_arg, verbose=False). When verbose == False (default; and the way client is using func()), return original simple value. When verbose == True, return an object which contains simple value and the details.
  5. Use a "version" indicator. Same as "verbose" but we extend the idea there. In this way, you can upgrade the returned object for multiple times.
  6. Use global detail_msg. This is like the old C-style error_msg. In this way, functions can always return simple values. The client side can refer to detail_msg when necessary. One can put detail_msg in global scope, class scope, or object scope depending on the use cases.
  7. Use generator. yield simple_return and then yield detailed_return. This solution is nice in the callee's side. However, the caller has to do something like func().next() and func().next().next(). You can wrap it with an object and override the __call__ to simplify it a bit, e.g. func()(), but it looks unnatural from the caller's side.
  8. Use a wrapper class for the return value. Override the class's methods to mimic the behaviour of original simple return value. Put detailed data in the class. We have adopted this alternative in our project in dealing with bool return type. see the relevant commit: https://github.com/fqj1994/snsapi/commit/589f0097912782ca670568fe027830f21ed1f6fc (I don't have enough reputation to put more links in the post... -_-//)

Here are some solutions:

  • Based on @yupbank 's answer, I formalized it into a decorator, see github.com/hupili/multiret
  • The 8th alternative above says we can wrap a class. This is the current engineering solution we adopted. In order to wrap more complex return values, we may use meta class to generate the required wrapper class on demand. Have not tried, but this sounds like a robust solution.
share|improve this question
    
Have you considered using a generator (yield)? If I understand the issue correctly, it seems ideal for this. –  cdarke Jul 15 '13 at 7:23
    
The only thing I can think of, off the top of my head, is to return your second value by mutating a variable that lives in an outer scope. This way, you wouldn't have to return it at all, yet the change will be visible somehow. –  inspectorG4dget Jul 15 '13 at 7:25
    
My general rule (formed from painful experiences many years ago) is this: if you change the interface, change the name too. That applies to function calls, file/database formats, bureaucracy form numbers, everything. A versioned interface ("x = func v1") automatically changes names when changing version numbers ("x, y = func v2") so it falls under one of your "current alternatives". –  torek Jul 15 '13 at 7:43
    
@cdarke , I just added it as one alternative solution. Thanks for bring it up. –  Pili Hu Jul 15 '13 at 7:57
    
@inspectorG4dget , Do you mean 3. and 6. in the "alternative section"? –  Pili Hu Jul 15 '13 at 8:00

3 Answers 3

try inspect?

i did some try, and not very elegant, but at least is doable.. and works :)

import inspect                                                                    
from functools import wraps                                                       
import re 


def f1(*args):                                                                    
  return 2                                                                      

def f2(*args):                                                                    
  return 3, 3                                                                   

PATTERN = dict()                                                                  
PATTERN[re.compile('(\w+) f()')] = f1                                             
PATTERN[re.compile('(\w+), (\w+) = f()')] = f2                                    

def execute_method_for(call_str):                                                 
  for regex, f in PATTERN.iteritems():                                          
    if regex.findall(call_str):                                               
        return f()                                                            

def multi(f1, f2):                                                                
  def liu(func):                                                                
    @wraps(func)                                                              
    def _(*args, **kwargs):                                                   
        frame,filename,line_number,function_name,lines,index=\                
            inspect.getouterframes(inspect.currentframe())[1]                 
        call_str = lines[0].strip()                                           
        return execute_method_for(call_str)                                   
    return _                                                                  
return liu                                                                    

@multi(f1, f2)                                                                    
def f():                                                                          
  return 1                                                                      



if __name__ == '__main__':                                                        
  print f()                                                                     
  a, b = f()                                                                    
  print a, b             
share|improve this answer
    
Nice snippet! It can be elaborated into more sophisticated multi-return wrapper. I want to upvote it very much but I don't have the base reputation to do that... –  Pili Hu Jul 21 '13 at 12:13
    
I made a module based on this solution. github.com/hupili/multiret . Just find that I replied to another thread... –  Pili Hu Jul 22 '13 at 3:19

Your case does need code editing. However, if you need a hack, you can use function attributes to return extra values , without modifying return values.

def attr_store(varname, value):
    def decorate(func):
        setattr(func, varname, value)
        return func
    return decorate

@attr_store('extra',None)
def func(input_str):
    func.extra = {'hello':input_str  + " ,How r you?", 'num':2}
    return 1



print(func("John")+func("Matt"))
print(func.extra)

Demo : http://codepad.org/0hJOVFcC

However, be aware that function attributes will behave like static variables, and you will need to assign values to them with care, appends and other modifiers will act on previous saved values.

share|improve this answer
    
This recalls me of the memorize decorator. In this way, not only the last one, but also all invocations are recorded for further reference. –  Pili Hu Jul 15 '13 at 7:54

the magic is you should use design pattern blablabla to not use actual operation when you process the result, but use a parameter as the operation method, for your case, you can use the following code:

def x():
    #return 1
    return 1, 'x'*1

def f(op, f1, f2):
    print eval(str(f1) + op + str(f2))

f('+', x(), x())

if you want generic solution for more complicated situation, you can extend the f function, and specify the process operation via the op parameter

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