Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

I have a function which needs to execute a query based on the query instances inputted.. but as the conditions are increasing it is becoming tedious for me to list all of them. For example: suppose i have two conditions initially:

if (cond_1 == True and cond_2 == False):
    do something
elif  cond_1 == True and cond_2 == True:
    do something else
elif cond_1 == False and cond_2 == True:
    do this

....

so I guess if conditions takes on binary values then there are 2^n statements i have to write :(

so now i have 3 condition variables (8 statements).. and i am afraid that this number might increase in future. Is tehre a better way to check these conditions??

share|improve this question
3  
Related: stackoverflow.com/questions/4726949/… –  Sven Marnach Mar 1 '12 at 23:05
    
If you want to do something else in all of these cases, then there is now way around writing a statement for every of the cases, right? –  Sven Marnach Mar 1 '12 at 23:06
4  
== True and == False almost always a (stylistic) mistake. Use cond_1 and not cond_2) etc. –  Sven Marnach Mar 1 '12 at 23:07
    
@SvenMarnach: actually there is a slight variation in what is executed inside the loops.. as it is generally a query.. so if condition is true.. then it includes teh condition value in the query else excludes it from the query.. (SQL queries.. Select * from this If cond = this and cond_2 = that.. so the basic structure is kinda common. but based on loops those conditions are appended –  Fraz Mar 1 '12 at 23:08
    
You should give an example what you are doing in the individual cases -- chances are this can be done easier. –  Sven Marnach Mar 1 '12 at 23:26
show 1 more comment

6 Answers 6

up vote 9 down vote accepted

Do you need to always write all all 2^n possibilities?

And are all things you have to do different (so also 2^n actions?)

However I can give some hints:

Don't use '== True' or '== False'

What you wrote equals:

if cond_1 and not cond_2:
    do something 
elif cond_1 and cond_2:
    do something else 
elif not cond_1 and cond_2:
    do this 

Also think about writing:

if cond_1:
    if cond_2:
        Do something
    else:
        Do something 
else:
    if cond_2:
        Do something
    else:
        Do something 

You also can define functions depending on the values:

def __init__(self):
    self.actions = {
      (False, False): action_1,
      (False, True ): action_2,
      ...
    }

def action_1(self):
    some action

def action_2(self):
    some action

....

and call it with:

self.actions[(cond_1, cond_2)]()

If you want to optimize the number of options in case you have different conditions with similar actions, take a look to Karnaugh Maps (it is easier than it looks like):

http://en.wikipedia.org/wiki/Karnaugh_map

share|improve this answer
2  
NICE tip on K-maps, never even thought of them (it's been a loong time since I've seen them). –  Adam Parkin Mar 1 '12 at 23:30
1  
Karnaugh map = 1rst year CS nightmare –  UmNyobe Mar 7 '12 at 15:52
    
Actually I like those maps ... very simple and fun to simplify complex boolean expressions. –  Michel Keijzers Mar 7 '12 at 16:51
add comment

You should never test a boolean variable with == True or == False. Instead, just using the boolean values is enough. If you want to cover virtually every combination of truth values, you may also want to nest, like this:

if cond_1:
    if cond_2:
        do something
    else:
        do something else
elif cond_2:
    do this

If the number increases further than that, I'd suggest a map, like this:

call_map = {
  (True, True, True): func1,
  (True, False, True): func2,
  (True, False, False): func3,
}
try:
  func = call_map[(cond_1, cond_2, cond_3)]
except KeyError:
  pass
else:
  func()

However, note that a large number of distinct cases is a sure code smell. In virtually any situation, you don't actually need so many cases, and can actually call a function directly. You may think your case is an exception, but chances are it is not. Why do you need that many cases?

share|improve this answer
1  
"You should never test a boolean variable with == True or == False" -- in addition to readability/style concerns, it's also safer to omit the explicit mentions of True and False the comparison. Saying if x == True is testing if the value of x is equal to the value of the object reference named True (which could be redefined, though *extremely* bad practice to do so). Saying if x: is testing if x evaluated in a boolean context evaluates to the boolean value True (which is exactly what is intended). –  Adam Parkin Mar 1 '12 at 23:41
add comment

You are looking for a compact way to write out a truth table. (Your only other alternative is to find a way to simplify your expressions using boolean algebra; a simplified form may not exist.) There is no way to make this simpler except to save on typing:

def TruthTable(text):
    table = {}

    for line in text.splitlines():
        line = line.strip()
        if line:
            inputs,output = line.split()
            table[tuple(bool(int(x)) for x in inputs)] = bool(int(output))

    return lambda *inputs:table[inputs]

Demo:

myFunc = TruthTable('''
    000 1
    001 0
    010 0
    011 1
    100 1
    101 0
    110 0
    111 1
''')

Output:

>>> myFunc(False, False, True)
False

If you need more than boolean outputs, you can adapt this to refer to arbitrary expressions by using for example a dictionary, and post-processing the keys into tuples of booleans:

{
    (0,0,0): <expr0>,
    (0,0,1): <expr1>,
    (0,1,0): <expr2>,
    (0,1,1): <expr3>,
    ...
}

You could also do it as follows with binary notation (e.g. 0b110 == 6) but I find it much less clean:

{
    0b000: <expr0>,
    0b001: <expr1>,
    ...
}

You could even just use a list which you later convert into a dictionary for quick lookup (by doing dict((intToBinarytuple(i),expr) for i,expr enumerate(myList))):

[
             # ABC
    <expr0>, # 000
    <expr1>, # 001
    <expr2>, # 010
    <expr3>, # 011
    ...
]

sidenote: In the unlikely event you need arbitrary python commands, you can dispatch like so:

conditions = (True, False, True)

c = lambda *args: conditions==toBooleanTuple(args)
if c(0,0,0):
    ...
elif c(0,0,1):
    ...
elif c(0,1,0):
    ...
elif c(0,1,1):
    ...
share|improve this answer
    
interesting :) pretty good logic –  Fraz Mar 2 '12 at 1:33
add comment

I would use a dict to map the conditions to the action in a clearer way. If you really need to do something different for each case, then there probably isn't any better way than just enumerating the possibilities.

def do_something():
  pass

def do_something_else():
  pass

def do_this():
  pass


do_dict = {(True, False): do_something, 
           (True, True): do_something_else,
           (False, True): do_this}

# call it
do_dict[(cond_1, cond_2)]()
share|improve this answer
add comment

if your goal is to avoid writing a lot of "ands" and boolean expressions you can use prime number and only one conditions like this (example for 2 conditions)

 cond = (2**cond_1)*(3**cond_2)

so

cond == 1 #means cond_1 and cond_2 are False
cond == 2 #means cond_1 is True and con_2 is False
cond == 3 #means cond_1 is False and con_2 is True
cond == 6 #means con_1 and Con_2 are True

This hack can be used for 3 conditions using 3 primes and so on

share|improve this answer
    
You're right, I'm wrong, my bad :( Guess this means I should stop moderating for tonight. Sorry about that, both questions restored and (now) misleading comments removed. –  Lasse V. Karlsen Mar 2 '12 at 0:13
    
sorry my point was that you can generalize with primes to any number of condition without much effort, sorry if anything, let me know what you decide and if i am wrong. –  ChessMaster Mar 2 '12 at 0:14
    
No, I was wrong, I confused the use of multiplication with addition, I was thinking along the lines of the binary values example. Yours is pretty much the same, but also different, so it has merit. Forget I ever drove my nose into your two answers :) –  Lasse V. Karlsen Mar 2 '12 at 0:15
add comment

You can take an n-sized list of conditions, and convert it into a single value for comparison, by converting the conditions into sums of multiples of 2.

>>> conditions = [True, False, True, True, False]
>>> condition = sum(2**i * cond for i, cond in enumerate(conditions))
>>> condition
13

First value of condition is 2^0 = 1, second is 2^1 = 2, third is 2^2 = 4, ... which are each multiplied by the truth value (1 if True, 0 if False).

This also allows you to see if a subset of the conditions are true. If you need to know if at least a subset of the conditions are true, you can use a binary & to find out:

>>> subset = lambda c, x: (c & x) == x
>>> conditions = [True, False, True, True, False, True, True, True, True]
>>> condition = sum(2**i * cond for i, cond in enumerate(conditions))
>>> subset(condition, 13)
True
>>> subset(condition, 2)
False

To have the features provided by some of the previous answers, instead of using a dictionary, you could also use both a list and a dict to map conditions to actions. You can also implement defaultdict-like functionality with a list (though this uses 2^n memory, and probably isn't the best idea):

def do_something():
    print("Hello World!")
condition_action_map = [None] * (2 ** len(conditions))
condition_action_map[13] = do_something

You would probably want to comment this thoroughly if you were using something like this.

share|improve this answer
add comment

Your Answer

 
discard

By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.