If you try to show a gif frame, does it show the whole gif, or just the updated part of it? Cuz gifs don't (typically) store the whole frame, just what changed.
I don't have the vocabulary to ask that right, but you get what I mean?
@MorganThrapp conditional formatting in my case. I wanted to apply a conditional format to a range of cells that checks if those cells are formulas and apply a background color. There's an ISFORMULA function, but without indirection I don't have a way to refer to "This Cell"
Fifteen weeks when three of those weeks are my vacation is not fifteen weeks. #corporatemath (And just to be clear, because it's ambiguous there, this is "time I have to accomplish something", so bigger numbers are better for me.)
I was thinking about trying to mark the points where the direction of travel chages, and then make some sort of more transparent notation for it. my_matrix.get((x,y) + DOWN) or something
It was probably one of the messiest solutions I've written. I even wrote a comment saying something along the lines of "I'm not proud of this...but tests passed"
hahah. That is why I started doing more of the lower level kyu ones, because they were short enough to make a nice solution. Those 1 kyu ones are similar in how convoluted and time consuming they are
Given an n x n array, return the array elements arranged from outermost elements to the middle element, traveling clockwise.
array = [[1,2,3],
[4,5,6],
[7,8,9]]
snail(array) #=> [1,2,3,6,9,8,7,4,5]
office only has ~20 people. About 400 in the company
import itertools
RIGHT = lambda loc: (loc[0]+1, loc[1])
DOWN = lambda loc: (loc[0], loc[1]+1)
LEFT = lambda loc: (loc[0]-1, loc[1])
UP = lambda loc: (loc[0], loc[1]-1)
directions = itertools.cycle([RIGHT, DOWN, LEFT, UP])
def snail(a):
result = []
n = len(a)
available = {(x, y) for y, x in itertools.product(range(n), repeat=2)}
cur_cell = (0, 0)
direction = next(directions)
while available:
x, y = cur_cell
def f(x):
i = iter(x)
while True:
top = next(i)
if len(top) > 0:
yield from top
else:
return
i = iter(reversed(list(zip(*i))))
a = [[1,2,3],[4,5,6],[7,8,9]]
for i in f(a):
print(i)
Could probably be made better but this is a learning yieldterators exercise...
def f(x):
i = iter(x)
while True:
yield from next(i)
i = iter(reversed(list(zip(*i))))
a = [[1,2,3],[4,5,6],[7,8,9],[10,11,12], [13, 14, 15]]
for i in f(a):
print(i)
I tried to do it as a sort, which I know you can do because you can write down the formula for the indices you're iterating over, but I kept getting the arithmetic wrong.
@VinodPrime That's a pretty common idiom for padding values. I use it a lot in batch scripts and stuff too to zero fill. Add a bunch of zeroes before a value then slice off the last N characters.
@PatrickMaupin That's a square of size zero, I guess.
Let me look up that kata again. I think they mentioned it in the description because I wasn't terribly surprised to see it. I thought my code handled it to begin with (it was testing len(lst) == 0 as the special case instead of len(lst[0]) == 0)
> NOTE 2: The 0x0 (empty matrix) is represented as [[]]
@idjaw That was a fun one! I like the top voted answer. Interesting technique (though it's gotta be much slower!)
I feel like if you give my function nonsensical input, it should be allowed to crash. In a normal case I'd raise ValueError, but they wanted return [] so meh
