# How to write If statements for all 2^N boolean conditions (python)

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??

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–  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
`== 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

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
``````

``````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

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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
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

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?

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"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

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):
...
``````
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interesting :) pretty good logic –  Fraz Mar 2 '12 at 1:33

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)]()
``````
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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

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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

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.

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