Is there a better way to write this “if” boolean evaluation?

I have this small snippet of python code that I wrote. It works, but I think there should be a more streamlined method to achieve the same results. I'm just not seeing it. Any ideas?

``````if tx_avt >= 100: tx = 1
elif tx_avt < 100 and tx_avt >= 50: tx = 2
elif tx_avt < 50 and tx_avt >= 25: tx = 3
elif tx_avt < 25 and tx_avt >= 12.5: tx = 4
else: tx = 5
``````
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This would be more readable if you put the assignments on their own line properly indented. –  Steven Rumbalski Nov 27 '12 at 17:49

You can change it to:

``````if tx_avt >= 100: tx = 1
elif tx_avt >= 50: tx = 2
elif tx_avt >= 25: tx = 3
elif tx_avt >= 12.5: tx = 4
else: tx = 5
``````

Explanation:

• If `if tx_avt >= 100` is not true, then you can deduce that `tx_avt < 100` must be true.
• This eliminates the need to do the "`tx_avt < 100`" part in the check "`elif tx_avt < 100 and tx_avt >= 50:`".

The same logic cascades down & applies to the rest of the `elif` cases.

Related reading: Why Python Doesn't Have a Switch Statement, and its Alternatives.

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most complete answer so far! –  heltonbiker Nov 27 '12 at 17:36
Ah of course! It is now obvious to me! for some reason I had it in my head I must evaluate between the number with the AND statement. Thanks for the clarification. Ideally, I would have used a switch/case statement if I was using c++. Much cleaner. So goes it. I will check out the link. –  DavidScott612 Nov 27 '12 at 18:55

you dont need the upper bounds on the elifs since these are resolved by the clause above them ...

``````elif tx_avt >= 50 : #do something
elif tx_avt >= 25 : #somthing else
``````

on a side note in python you can do

``````if 3 < ab < 10 : #check if ab is between 3 and 10
``````
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The interval-check is interresting! Do you know where it can be found in the language reference? Would love to see how the evaluation works for other types than integers –  Kalle Nov 27 '12 at 18:00
there is a little bit in the first paragraph here docs.python.org/2/reference/expressions.html#not-in –  Joran Beasley Nov 27 '12 at 18:36
Ah that is an interesting tidbit I did not know about Pyhton. thanks! –  DavidScott612 Nov 27 '12 at 18:51

If your if-elif-else chain gets really long you can use this method:

``````for amt, tx in [(100, 1), (50, 2), (25, 3), (12.5, 4)]:
if tx_avt >= amt:
break
else:
tx = 5
``````

note: The `else` clause of a `for` loop is executed when `break` has not been encountered. In this case it is used to provide the default case.

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your note is slightly wrong ... the else executes if you are not in an if or elif block when you exit the loop ... –  Joran Beasley Nov 27 '12 at 18:42
@JoranBeasley: Incorrect. See Python docs 4.4. `break` and `continue` Statements, and `else` Clauses on Loops: "Loop statements may have an `else` clause; it is executed when the loop terminates through exhaustion of the list (with `for`) or when the condition becomes false (with `while`), but not when the loop is terminated by a `break` statement." –  Steven Rumbalski Nov 27 '12 at 18:47
oh cool thanks :) ... I thought those were executed differently but good to know –  Joran Beasley Nov 27 '12 at 21:22

To give another idea, this can be done in a one liner using the binary search function in the bisect module.

``````In [106]: def index(a,x):
.....:         return len(a) - bisect.bisect_right(a, x) + 1
.....:

In [107]: a=[12.5,25,50,100]

In [108]: index(a,15)
Out[108]: 4

In [109]: index(a,25)
Out[109]: 3

In [110]: index(a,35)
Out[110]: 3

In [111]: index(a,50)
Out[111]: 2

In [112]: index(a,100)
Out[112]: 1
``````
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+1. Don't forget to handle the default case. –  Steven Rumbalski Nov 27 '12 at 19:43

Yet another idea based on the fact that [12.5, 25, 50, 100] is a series:

``````MAX_BOUNDARY = 5
for tx, boundary in [(n, 25 * 2**(-n+3)) for n in range(1, MAX_BOUNDARY)]:
if tx_avt >= boundary:
break
else:
tx = MAX_BOUNDARY
``````

(This is slightly modified @StevenRumbalski version)

This could be combined with @WaiYipTung idea about `bisect` for O(log(n)) search if distribution of tx_avt is uniform (w.r.t. series function) and your list grows VERY large.

Otherwise you should stick to simpler and easier to understand solutions like @JoranBeasley and @SampsonChen suggested.

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