# find [max,min] value in list of lists python [closed]

So I have a list of lists

``````alist = [[distance1,delta-angle1,object1],[distance2,delta-angle2,object2], [distance3,delta-angle3,object3],...]
``````

I want to maximize for "distance" and minimize for "delta-angle", which are are the first two elements of each `list` in `alist` and return that particular list.

caveat: `distance` will be a float and `delta-angle` will be in degrees (-180:180)

The goal is to pick the longest distance with the "straightest" angle, but not just the longest or the "straightest" (otherwise known as minimize change in angle)

http://imgur.com/a/b6KWM#YqGxdlu

I would like to avoid "going back where I was" as in this special case. As shown in the second image

IMAGE 2

The third image is the ideal - and since I still haven't thought of a better way to state this: minimize the change in angle from current bearing (which delta-angle is what is stored in `alist` already) and maximize the `distance` or length of available line segments (denoted here by endpoints on boundary in following picture)

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your definition "longest distance with the straightest angle" is quite vague - can you define a utility function? if you have a pair of elements, how can you decide which one is better? –  Karoly Horvath Feb 12 at 0:51
You can't really get an answer until you actually give a specific formula for choosing which one is better. After you have that you could just used sorted while specifying a key. (more reading: wiki.python.org/moin/HowTo/Sorting) –  Peter Micheal Lacey-Bordeaux Feb 12 at 1:01
Also, why do you assume you need to "put [the angle] on a scale of [0...360]" to minimize it? Do you really want 89° to be considered more minimal than -45°? If not, leave it as [-180, 180] and just minimize `abs(angle)` instead of `angle`. –  abarnert Feb 12 at 1:07
@Karoly Horvath: I haven't thought of that - but I guess that could work. Although, I am not sure where to start if I go this direction. To clarify: The longest line is gives the most utility unless the angle(which is the change of direction from some previous bearing) is sharp. So the most utility would come from long lines that fall in a range of -90:0:90 and everything else being of little utility no matter how long the distance is. –  terra_matics Feb 12 at 1:08
@user1124683: So is the rule "Longest line in [-90, 90], or longest line outside the range if there are no lines within the range"? –  abarnert Feb 12 at 1:09

## closed as unclear what you're asking by Hyperboreus, joaquin, Rushi, Anatoliy Nikolaev, ᴋᴇʏsᴇʀAug 17 at 14:20

Please clarify your specific problem or add additional details to highlight exactly what you need. As it's currently written, it’s hard to tell exactly what you're asking.If this question can be reworded to fit the rules in the help center, please edit the question.

Even after clarification, your rule is still ambiguous. You need to figure out what rule you want to implement, before you can code that rule.

If the rule is simple enough, you should be able to write a function that returns a higher value the better the match. In that case, you can just pass that function as the `key` to `max` (or you can `sorted`, or `heapq.nlargest`, etc., depending on what your actual use case is).

For example, if the rule is just "the object with the largest X component is best", as Blckknght says, that's just `distance*cos(angle)`. Except, of course, that you probably want the largest positive or negative X component, so it's actually `abs(that)`. So:

``````def best(alist):
return max(alist, key=lambda dao: abs(dao[0] * math.cos(dao[1]))
``````

(Since each element of the `list` is a `list` of `distance, angle, object`, I've called each of those elements `dao`, so `dao[0]` is the distance, etc.)

What if you can't figure out how to turn the rule into a single key function?

Well, if you can write a comparison function, that compares two `dao` triplets and returns the bigger one, you can use `functools.cmp_to_key` to turn that into a `key` function. But really, it's not that common that you can write a `cmp` function but can't write a `key` function.

If you need something more complicated, you can always pre-filter the list, or decorate-sort-undecorate, etc.

For example, in a comment, you say:

the most utility would come from long lines that fall in a range of -90:0:90 and everything else being of little utility no matter how long the distance is.

This is ambiguous, but one way we could interpret it is:

• If there are any objects with an angle in the range [-90, 90], pick the longest out of those objects.
• Otherwise, pick the object with the smallest angle.

I could write that as a key function, but let's pretend I didn't know how, and wanted to make everything explicit. It's trivial to write a key function for `longest`—that's just `dao[0]` as the key. And it's also trivial to write a key function for `smallest angle`—that's just `abs(dao[1])`. So:

``````def best(alist):
acutes = [[d, a, o] for [d, a, o] in alist if abs(a) <= 90]
if acutes:
return max(acutes, key=lambda dao: dao[0])
else:
return min(alist, key=lambda dao: abs(dao[1]))
``````
-
``````alist = [[0,0,'b'],[-30,50,'a'],
[45,63,'d'],[100,170,'d'],
[-2,15,'p']]

def mM(L):
x,y,_ = zip(*L)
return (min(x),max(y))

print mM(alist)
``````

result

``````(-30, 170)
``````
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I don't think the questioner wants separate maximums and minimums, but rather a single combined max/min value. –  Blckknght Feb 12 at 1:13
That is correct - I want to (maximize,minimize). –  terra_matics Feb 12 at 1:23
@user1124683 You have an exasparating ununderstandable manner to express. That's a problem –  eyquem Feb 12 at 2:58