I didn't notice that Ollie had already written a user script to make the top bar non-sticky, so I wrote my own. I like mine slightly more, since it just injects a couple of lines of CSS instead of installing any active event handlers:
// ==UserScript==
// @name SE No Sticky Top Bar
// @na...
I am having some problems with python selenium I have made a code that creates a google account but it needs a phone number verification to complete the process is there any way of making like a phone number to receive messages like sms in python? and set it to a variable
I have this JSON data in this format. My end goal is to flatten it and have it in the form of columns. I tried using json_normalize but it adds rows rather than adding columns(i.e. total no of rows should remain constant). Here is some sample data:pastebin.com/UdARJagU
Hello, If we have a sorted array A=[1,2,3, ...] indexed by U={1,2,3,..., N}, then why inserting/putting a new item costs O(N) given that we could simply skip half of elements since array is sorted please?
@Avra I think you might be confusing the time complexity of finding the insertion index with the time complexity of actually inserting a value into a list. Inserting a value into a list is always O(N) because the list has to shift the position of all subsequent elements
For example, if you insert a value at index 0, then the element that's currently at 0 must be moved to position 1, that one must be moved to position 2, and so on
@Aran-Fey. Thank you. I got confused because this was coupled with another assertion that if we have unordered array, then put costs O(1), but why for ordered array it costs O(n) please?
I don't understand why that would be the case. I neither understand how it could possible be as fast as O(1), nor do I understand why that time complexity would shoot up all the way to O(N) for an ordered array... even if we take the time complexity of finding the correct insertion point into account, that would only be O(log N)
I don't know the guy, and I'm not going to google who he is or what he wrote. He's either wrong, or terrible at explaining what on earth he's talking about
@Aran-Fey. I am referring to array-based table. So, again I am confused why put takes O(1) for unordered and O(N) for ordered ARRAY, when we could simply skip half of elements in ordered array (not list or set).
so, i guess, let's put things into perspective. first things first, people can be very loose with the term "array" in general. Sometimes people think they're doing everyone a service by keeping things language agnostic, but it might not help.
So let's be specific here. if you're familiar with python datastructures, it would help to refer to the concepts against the datastructures in python
things with an O(1) "put", lead me to believe that "unordered array" was intended to be what would be a python "set".
@python_user No. Unsorted is something like ['b', 'c', 'a'] - 'b' < 'c' < 'a' is not true, therefore it's not sorted. But, because it's a list, it's still ordered - 'b' is the 1st element, 'c' is the 2nd element, and so on. Unordered is something like a set, which doesn't have such a thing as a "first element".
so, either blame the author, or give them the benefit of doubt, either way is fine: but the case with O(1) add/put is in context of hashsets or sets.
now, insert into the middle of an array (let's say, actual arrays or list won't actually matter, but for the sake of discussion let's say it's equivalent to python list) is O(n).
note, that i was specifically inserting in the middle of the list. now, even if i had a sorted list, it wouldn't matter for insertion. The reason is already explained by Aran above
just to be very clear, time complexity isn't a measure of "exact" times, it's a measure of how the times change/scale/grow in relation to the changes in number of items
this is why inserting at the middle and inserting at the start won't make a difference, You're still having to do a shifting of elements that are proportional to n, (even half of n is still proportional to n, and so on.)
@ParitoshSingh. Thank you. Why it's O(N), when we could simple take middle=(len(list)-1)-0/2 please? Then we compare against that element at the middle index? So we can skip half of elements of ordered list in this case please?
Here's the problem with this whole thing: An "unordered array" (or better, an "unordered collection") is a high-level concept. You can't really make any claims about its time complexity because that depends on the implementation. For example, a HashSet might insert in O(1) time while a TreeSet does it in O(log n). So the time complexity of insertions in a "Set", is... what?
Last question, how much does it cost on average to access a hash table (dictionary in Python) please? I see that on average it should cost O(log N) not O(1) because summation from i=0 to n of 1/i would give log N. Becasause on average, first element access of dictionary takes 1/1. Second, takes 1/2, third, 1/3, ..., 1/N. So, if we sum those values, we would get log N?
@Kevin. Because, if we are calculating on average access time, then accessing 1 element, would cost 1 on. Accessing 1 of two, would take 1/2, and so on I guess?
I'm having one of those days... be sitting here getting frustrated with a client that hasn't responded to query I said about an urgent problem they've having... and just realised I never actually sent it... stupid puppy...
@RaphX Nice, we're halfway there. Now just provide the exact expected output for your sample data and I'll be happy to look into the problem. (If you're thinking "do I really have to calculate by hand the dozens of rows of outputs that this input should produce?", not at all. Feel free to reduce the size of the input to just a few rows and columns, and hand-calculate those.)
Looking at the slides... I think it's proposing implementing a dictionary by storing (key, value) tuples in an array. In the "ordered array", the elements are sorted by key. In the "unordered array", there is no gaurantee of any entry's position
I think Python does use some kind of linked list within its dict implementation, to resolve hash collisions... I don't fully understand the logic involved though
@Avra If you're determined, you can always go right to the source: dictobject.c. There may also be useful details at dictnotes.txt, and the urls listed at dictobject.c line 14&15
I wonder if there's any good documentation on the old dict implementation. The announcement/proposal that MisterMiyagi linked to essentially say that the new implementation is similar to the old one, except it has an additional "dense" table that makes things more compact. So nearly all of the good qualities of old dicts will still apply to new dicts.
@Avra This looks useful -- line 739 mentions "Algorithm D from Knuth Vol. 3, Sec. 6.4." Googling that exact string gives me a pdf of the document, but I won't link it here because I don't know if it's reputable.
Algorithm D looks quite sophisticated, no surprise there. As expected of the powerful Knuth.
many languages grapple with the problem of "should we accommodate non-English speaking programmers by localizing our keywords?" and the usual result is "nah, it's reasonable to force them to learn 20 English words"
@SAJW it's also skipped for return and raise. Not sure if there are other cases. The important part is that else is run as soon as the iterable is exhausted.
I have 36 by 36 pixel images of graphs. The CNN is trained to classify these graphs into one of 3 categories: Linear, Quadratic, or Cubic
Now, I want to perform PCA on these graphs to reduce my training time and keep only the most essential pixels (i.e., not useless white pixels in the background).
The only problem is ... the output is still 36 by 36! I don't understand why that is. I kept only 100 of the pixels, right? So shouldn't by output be 10 by 10? Isn't the whole point of this dimensionality reduction?
@MisterMiyagi Sounds interesting. Are custom export hooks something that Python natively supports? Or is it just a general build process thing, or what
Hey I have a remote device with about 25-30 supervisor processes. Normally around 20 of them run in a functioning system. Now I log onto the system and all of them but 1 are stopped. How is this possible? It could always be customer stupidity, but it just seems very unlikely, customers should not have access to the supervisor in the first place and it would be weird if they had, to stop all processes. I slightly afraid the system got hacked and I wonder what would be places to find out if it was
I'm currently looking trough journalctl of today but nothing weird. Any other logs which might show who connected when to the system? It's a Ubuntu 18.04
"Our topology survey indicates the super top secret server is inaccessible from the Internet, but they did hook it up to an IoT coffee pot and forgot to change the default password"
@Kevin if it were only that, looks like it was some hardware issue. On the bright side, journalctl is actually super useful, it's way too verbose, but it seems to have caught what happened. At least I found the place where it's 30 lines of process x stopped
just glaring at logs while only understanding 10% scrolling up and down, reading a word or two every other line, hoping to find out what happened here. It's like looking for a pearl on the beach
Breaking out my hobbyist electronics kit because I need an LED indicator for a thing. It seems I've forgotten how resistance works, because my blue LED just glowed bright red and emitted smoke
I'm trying to "append" to files on MinIO using the python sdk... Is there a decent community online for MinIO + python questions? I feel like what I'm asking too weirdly specific to fit anywhere. Curious if anyone can recommend
@Kevin Haha - check the voltage requirements of your LED :) Running in serial / parallel will change voltage vs amps. Volts should always be equivalent and amps need to be the same or greater than :)
But that is about as far as my electrical knowledge goes lol
The little info sheet here says that, when it was alive, the blue LED had a "vdrop" of 3.0-3.4 V. If vdrop is the same as "voltage requirements", then my two 1.5 AA batteries should have been sufficient
I don't know if a multimeter can do that, but how about increasing voltage by 0.1 V stopping exactly when it makes a visible light (in case of LEDs), then just add 10% for the maximum
The Internet says, try using a resistor. Good advice. It goes on to say, here's how you calculate the ohms of a resistor, by referring to its four colored bands, which have a particular assymmetric spacing so you can tell which one to read first. All of my resistors have five bands, with perfectly even spacing.
Then there's a lot of unit conversion math you have to do. I decided to skip this part and just use the resistor with the 90 degree bend in the pins, because presumably I used it before and it didn't burn my house down
And my yellow LED lit up instead of exploding. So that's nice.
Both arrangements light up as desired. No apparent difference
Going by these diagrams, it's conventional for the resistor to go between the led and the battery's minus end, but the text only says it has to be "in the series". My entire circuit is one series, so anywhere qualifies
Oops, I read the diagram backwards. The convention is between the led and the plus end
My grade school level mental model of the system is, the resistor acts as a speed bump for the current passing through the circuit. In real life, one typically puts speed bumps in front of the sensitive area that people shouldn't be driving 50 mph in, rather than behind the area. By that logic, the resistor should go between the source of the current and the LED.
If you're saying that the plus on these diagrams indicate the source of the current, then the circuit layout matches my mental model
You may not have heard of just "battery" in the context of law, but if you've ever caught an episode of CSI you may have heard of "assault and battery", or a "battered wife"
It's a pretty-well-known meaning of the word in native English speakers (at least in the UK, not sure about the US). "Aggravated mayhem", on the other hand, used to sound quite comical to me. Turns out it's not quite a light-hearted as I had imagined
I bet it's quite challenging to distinguish positive charge from negative if you have a hobbyist's budget and no tools that can act as a reference
If some prankster puts black paint over all the plusses and minuses on your multimeters and batteries and such, then you've got a limited number of options for re-deriving them from first principles
I wonder how hard it is to do electrolysis at home...
@Kevin I would imagine it's a car battery and salt water?
Though that would only tell you about the car battery. I guess you'd then have to make your other battery and the car battery interact, which might be "fun"
so the one topology I need to remember for any network with internet access is bus topology, because if the router is demanded too much the network fails(for internet services)
I'm suspicious that the other end of the battery is out of the shot. Maybe that end also has bubbles on it, and the author didn't want to explain that the other end is collecting oxygen, and how to distinguish between them
My plan of "fill a balloon with each and see which one floats in air" is impractical with this piddling production rate. Maybe I need the car battery after all...
Wikipedia says that you can expect the hydrogen end to have more bubbles, since there are twice as many H2 molecules as O2 molecules, and they have about the same volume under the pressure you might find in a glass of tap water in your kitchen
I understand these explanations as far as "putting a whole lot of current through an LED (and for that matter, most things) will probably do bad things to it"
I'm ignoring the answers that act as if my circuit has zero resistance, because I don't remember buying these wires from the room temperature superconductor store
The point is that a LED (or other diode) basically acts like a short circuit, once the voltage is over the threshold. So if you don't put it in series with a resistor you're relying on the internal resistance of the battery (or power supply) to limit the current. A resistor obeys Ohm's law, so I = V / R, but a diode is a non-ohmic device, i.e., its voltage-current graph isn't a straight line through the origin.
So I was thinking diff between lambda and list comprehension. Like should we use lambda of list comprehension in the program. Or it depends on the situation
It's easy to distinguish oxygen gas from hydrogen gas in a test tube. Hydrogen burns, but oxygen doesn't. Although of course oxyeg supports combustiin. So you get a small stick, set it on fire, blow the flame out, and put it into the test tube. If it's oxygen, the flame will reappear.
A small amount of pure hydrogen in air burns with a gentle "pop" sound. If you mix it with air or oxygen the reaction is more vigorous, and the sound is described as a "bark".
@MalikHamza Can you give an example of a problem where both lambdas and list comprehensions are valid solutions? It will be easier for me to tell you which I prefer when there's a concrete scenario in front of me
@PM2Ring Now this is the kind of information I require that I can't find on Wikipedia
Actually I was doing a coding challenge on HackerRank and in that question they want us to use List comprehension. And also I have used lambda function in some cases. So I was thinking about the difference
I used to have fun bubbling hydrogen through soapy water so that it made bubbles that rise. If you're quick, you can get the bubbles to "pop" with a lit match. That experiment is best done in a well-ventilated environment. ;)
Is list comprehension faster than lambda? Actually, list comprehension is much clearer and faster than filter+lambda, but you can use whichever you find easier. The first thing is the function call overhead: as soon as you use a Python function (whether created by def or lambda) it is likely that the filter will be slower than the list comprehension. Source: Intellipat.com
Sorry if I sound a little glib. I'm trying to give advice that applies in a broad number of scenarios, but then I end up with generalities like "write code that works".
If my messages make you think "well, duh", that's because I'm not imparting my thoughts clearly
@MalikHamza In general, Intellipaat is not a great source. However, that's reasonably true: in that situation, a list comp is more efficient than a filter which calls a function written in Python.
I suspect that list comprehensions were created in the first place in order to supplant filter and map, so it makes sense that the devs would work hard to make them faster, in order to ensure their popularity