@AnttiHaapala i refuse to do it with the standard record where you've been coords, been working on another solution, which is driving me insane slowly.....
@Kevin they rawr........ and maybe they moo who knows who are we to judge what a seal does?
@MarcusS you know day 1 right>? i made my part 1 answer without the needs of coords, i just calculated distances going one way from another basically...
but now part 2 needs to know when you hit your path again right? so i was hoping i can think of a math solution to it instead of keeping the coords of my past pathing....
When you say "avoid keeping the coords" do you mean "avoid keeping track of every single integer coordinate pair (x,y) visited along the way, even between instructions"?
my initial thoughts were to set flags if i've moved in every direction at least once, then calculate if the distance between one direction to the another would yield a result but then i realize there were holes to that logic.... and i've been spiraling into nothingness
@MarcusS yeah more or less i dont wanna save where i've been
A few of us brainstormed approaches that don't explicitly store every point you've been to, but you still need to store the endpoints of the line segments you traverse.
You're not going to be able to do it with O(1) memory
Anybody with ImageMagick installed want to try to replicate my bug? All you have to do is download the two .pngs from imgur.com/a/X8loQ, rename them to img_000 and img_001, and run magick convert -delay 50 img_*.png -layers optimize output.gif in that directory.
@MooingRawr One approach: Collect all the endpoints, and then generate the intermediate segments (which are also defined by their endpoints), making sure to keep track of the endpoints encountered twice. For example if you go from (0,0) to (10,0) in the input data, store endpoints (0,0) and (10,0) separately, and also store the points (1,0) and (9,0) to represent the intermediate segment.
Now you can do a sweep-line algorithm en.wikipedia.org/wiki/Line_segment_intersection on the intermediate segments to find any points of intersection. Now you have two sets of intersection points: Those defined by arrival at endpoints, and those defined by segment-segment intersection not at a standard endpoint.
Finally the question is "which of these points is encountered first" which can be done by re-traversing the list (or, if you gave the intermediate segments sequence IDs, you can look these up -- and these can be referenced during the sweep line algorithm).
@MarcusS while this solution is really good, you are still storing coords. i think what i want doesnt exist, or can't exist, not yet... not with out magical powder dust... the solution that i initially wanted was just to store coord 0,0 the base and that's it.... which i dont think it's possible. but thanks for your solution, it's still a really good one
You can't do it without storing coords. No matter how crazy the pathway gets, if there hasn't been an intersection yet, you can always construct a path (from your current position along the path) that intersects a previous segment at an arbitrary point. There's no way to know where/if this takes place unless you know a segment exists there, and a segment is defined by its endpoints. (well actually this is not fully true due to the restrictions over integers)
@idjaw i already did a solution in part 2, i just dont like it and im trying to figure out a better one if it exist. so far everyone ive talk to told me it's not possible lol
@idjaw my day 1 part 2 will never get a solution until im happy with it. the rest of my days are like i just have to clean up a little bit of here and there lol
Now expecting reply, "silly newbie, don't you know that layers -optimize is supposed to mess up your gif? It's right [here], seven links deep in the documentation"
@Kevin If it makes you feel any better, I was going to comment way earlier that I still saved the code I used to make my gif, and it didn't have any streak issues: convert -delay 40 *.png output.gif
@johnsmith Ok. I'm guessing you also meant to do if i == 9: i=8 instead of x?
@MarcusS Basically yeah. the gif file format can get away with storing only partial image data if two adjacent frames are sufficiently similar to one another. -optimize searches for similarities and takes advantage of the space savings. IIRC.
@johnsmith it's because assignments you make to the iterating name don't have any effect on the iterator's value once that iteration ends. Consider the simpler example:
If reassigning i caused the iterator to actually reset back to zero, then this code would run forever. But it actually only runs ten times.
i only looks at one thing when deciding what its next value will be, and that's the object returned by range. Nothing you do in the loop modifies the object returned by range, so you have no control over what i's value will be in the next iteration.
Now, if you did something like:
seq = [1]
for i in seq:
print(i)
seq.append(i+1)
Then you could change the next value of i, and cause an infinite loop even though seq initially only has a length of one
If by "change the argument of range" you mean "what if we mutate the value that we passed in as an argument to the range() call?", I don't know if you can even do that.
>>> import decimal
>>> range(decimal.Decimal(10))
Traceback (most recent call last):
File "<stdin>", line 1, in <module>
TypeError: 'decimal.Decimal' object cannot be interpreted as an integer
>>> import fractions
>>> range(fractions.Fraction(10,1))
Traceback (most recent call last):
File "<stdin>", line 1, in <module>
TypeError: 'Fraction' object cannot be interpreted as an integer
@johnsmith changing the value of x will definitely have no effect.
You might have a chance with mutation (if by some horrible dark magic you figure out how to mutate an int), but simple reassignment is a definite no-go
solutions in order of practicality/difficulty: - `break` (simple, sufficient for most needs) - make your own generator (power users only) - hack the value of integer literals (Jesus wept)
@DSM I'm determined to get this one....It's just irritating that my test cases are passing...and based on the test cases I have, it looks like I have decent coverage. But Obviously not...